Double-loop Framework Implementation with Fossil Case: Integrated Ultra-supercritical Power Plant Model
Author: Naresh Susarla (naresh.susarla@netl.doe.gov)
This notebook presents an implementation of the double-loop framework for the fossil case study using the integrated ultra-supercritical power plant model with a molten-salt based thermal energy storage. In order to run this notebook, we need multiple packages including, DISPATCHES, IDAES, and gridx-prescient.
For a given integrated energy system, the double loop workflow has six key steps:
Forecasting: Generate plausible price forcasts for the bidding horizon (chosen to be 48 hours).
Bidding: Formulate and solve a multi-period bidding problem for the generated set of forcasted price signals. The solution of the bidding problem yields a time-varying bid curve.
Day Ahead (DA) Market: Using the bid curve generated in the previous step, solve the unit commitment problem for the day ahead market.
Real Time Market: Fix unit commitment decisions and solve the unit commitment problem for the real time market. The solution yields real time local marginal prices and the optimal dispatch profile for each generator.
Tracking: Formulate and solve a tracking problem to track the optimal dispatch profile obtained in the previous step, and minimize under-production/over-production of electricity.
Settlement: Compute all the cash flows
To start the analysis, first import all necessary modules and packages including Prescient simulator and MultiPeriodUsc
class. MultiPeriodUsc
builds a multi-period model of the integrated ultra-supercritical power plant model with a molten salt energy storage.
[1]:
# Import Python library packages
from types import ModuleType
import pandas as pd
from importlib import resources
# Import Pyomo packages
import pyomo.environ as pyo
# Import IDAES packages
from idaes.apps.grid_integration import Tracker
from idaes.apps.grid_integration import Bidder
from idaes.apps.grid_integration import PlaceHolderForecaster
from idaes.apps.grid_integration import DoubleLoopCoordinator
from idaes.apps.grid_integration.model_data import GeneratorModelData
# Import Prescient simulator
from prescient.simulator import Prescient
# Import integrated ultra-supercritical power plant with energy storage model
from dispatches.models.fossil_case.ultra_supercritical_plant.storage.multiperiod_double_loop_usc import MultiPeriodUsc
from dispatches_sample_data import rts_gmlc
Interactive Python mode detected; using default matplotlib backend for plotting.
Following the imports, set up the fossil generator characteristics using a model_data
object as shown below. The fossil generator used in this analysis is the integrated ultra-supercritical power plant, refered to in this analysis as the fossil-based integrated energy system (IES). A more detailed explanation of the integrated model is given in the notebook integrated_storage_with_powerplant
. The double-loop model parameters are the number of hours for the bidding and tracking models,
number of scenarios to use, and the number of days for simulation. The fossil generator data included in model_data
and needed during this analysis is given and described in the list below:
gen_name: The ID of the generator in the RTS - GMLC that is being replaced by the fossil-based IES. The chosen generator name
gen_name
is102_STEAM_3
generator_type: Accepts either
thermal
orrenewable
. We choosethermal
for both fossil generatorsp_min: Minimum power output to the grid in MW. The minimum power output to the grid for this IES is 286 MW
p_max: Maximum power output to the grid in MW. The maximum power output to the grid for this IES is 460 MW
min_down_time: Mininum downtime after the generator is shutdown. The minimum downtime for this IES is 4 hours
min_up_time: Minimum uptime after the generator is turned on. The minimum uptime for this IES is 8 hours
ramp_up_60min: Ramp up rate in MW/hr. The default ramp up rate for this IES is 60 MW/hr
ramp_down_60min: Ramp down rate in MW/hr. The default ramp down rate for this IES is the same as the ramp up rate, 60 MW/hr
shutdown_capacity: Power output when shutdown is initiated in MW. For this IES, during shutdown the plant operates at p_min
startup_capacity: Power output when the generator is turned on. For this IES, during startup, the plant operates at p_min as considered during shotdown
production_cost_bid_pairs: Cost of production of electricity in \$/MW as function of power output in MW
startup_cost_pairs: (Number of hours after shutdown, cost of startup)
fixed_commitment: 0/1 indicates that plant shutdown is allowed/not allowed
[2]:
generator_data = {
"gen_name": "102_STEAM_3",
"generator_type": "thermal",
"p_min": 286,
"p_max": 460,
"min_down_time": 4,
"min_up_time": 8,
"ramp_up_60min": 60,
"ramp_down_60min": 60,
"shutdown_capacity": 286,
"startup_capacity": 286,
"production_cost_bid_pairs": [
(286, 22.16602),
(350, 19.0723),
(400, 18.29703),
(430, 17.71727),
(460, 17.71727),
],
"startup_cost_pairs": [(4, 7355.42), (10, 10488.35), (12, 11383.41)],
"fixed_commitment": 1,
}
model_data = GeneratorModelData(**generator_data)
Next, we set the following parameters needed for the double loop workflow: - tracking_horizon: Length of the tracking horizon. We choose it to be 10 hours - bidding_horizon: Length of the bidding horizon. We choose it to be 48 hours - n_scenario: Number of scenarios to be considered for the bidding problem. The file idaes.apps.grid_integration.examples.lmp_forecasts_concat.csv
includes the data for ten scenarios, so we can choose any number between 1 and 10 - n_tracking_hour: Frequency
at which the tracking problem needs to be solved (every hour) - num_days: Simulation horizon (number of days). For this demonstration, 2 days is chosen for this simulation
[3]:
tracking_horizon = 10 # hours
bidding_horizon = 48 # hours
n_scenario = 1 # for bidding
n_tracking_hour = 1 # advance n_tracking_hour (i.e. assume we solve every hour)
num_days = 2
Set up the solver and the forecaster objects.
[4]:
# Create solver
solver = pyo.SolverFactory("ipopt")
solver.options = {
"max_iter": 200,
}
# Create forecaster object
with resources.open_text("idaes.apps.grid_integration.examples", "lmp_forecasts_concat.csv") as f:
price_forecasts_df = pd.read_csv(f)
forecaster = PlaceHolderForecaster(price_forecasts_df=price_forecasts_df)
Set up the objects for Tracker, Bidder, and Coordinator.
[5]:
# Tracker
mp_usc_tracker = MultiPeriodUsc(
horizon=tracking_horizon,
model_data=model_data
)
thermal_tracker = Tracker(
tracking_model_object=mp_usc_tracker,
n_tracking_hour=n_tracking_hour,
solver=solver,
)
# Projection Tracker
mp_usc_projection_tracker = MultiPeriodUsc(
horizon=tracking_horizon,
model_data=model_data
)
thermal_projection_tracker = Tracker(
tracking_model_object=mp_usc_projection_tracker,
n_tracking_hour=n_tracking_hour,
solver=solver,
)
# Bidder
mp_usc_bidder = MultiPeriodUsc(
horizon=bidding_horizon,
model_data=model_data
)
thermal_bidder = Bidder(
bidding_model_object=mp_usc_bidder,
n_scenario=n_scenario,
solver=solver,
forecaster=forecaster,
)
# Coordinator
coordinator = DoubleLoopCoordinator(
bidder=thermal_bidder,
tracker=thermal_tracker,
projection_tracker=thermal_projection_tracker,
)
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
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>>> Creating USC model and initialization for each time period
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>>> Creating USC model and initialization for each time period
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>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
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>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
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>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
>>> Creating USC model and initialization for each time period
Set up the plugin_module
needed for the Prescient simulator
[6]:
class PrescientPluginModule(ModuleType):
def __init__(self, get_configuration, register_plugins):
self.get_configuration = get_configuration
self.register_plugins = register_plugins
plugin_module = PrescientPluginModule(
get_configuration=coordinator.get_configuration,
register_plugins=coordinator.register_plugins,
)
IMPORTANT Before proceeding with the rest of the notebook: 1. Install the dispatches-sample-data
package by running pip install dispatches-sample-data
in the working conda environment
OR
Download the RTS-GMLC dataset from [https://github.com/GridMod/RTS-GMLC] (or directly as a zipfile here) to your local machine
Update the value of the
rst_gmlc_data_dir
variable in the cell below to the appropriate location of theRTS_Data/SourceData
subfolder on your local machine
[7]:
# If installing the dispatches-sample-data
rts_gmlc_data_dir = str(rts_gmlc.source_data_path)
# If downloading the data to the local machine use the following option with appropriate path
#rts_gmlc_data_dir = "C:\\grid\\source_code\\Prescient\\downloads\\rts_gmlc\\RTS-GMLC\\RTS_Data\\SourceData"
Declare the options for Prescient simulator
[8]:
options = {
"data_path": rts_gmlc_data_dir,
"input_format": "rts-gmlc",
"simulate_out_of_sample": True,
"run_sced_with_persistent_forecast_errors": True,
"output_directory": "bidding_multiperiod_usc",
"start_date": "2020-07-10",
"num_days": num_days,
"sced_horizon": tracking_horizon,
"ruc_horizon": bidding_horizon,
"compute_market_settlements": True,
"day_ahead_pricing": "LMP",
"ruc_mipgap": 0.01,
"symbolic_solver_labels": True,
"reserve_factor": 0.0,
"deterministic_ruc_solver": "gurobi",
"output_ruc_solutions": True,
"sced_solver": "gurobi",
"print_sced": True,
"enforce_sced_shutdown_ramprate": True,
"plugin": {
"doubleloop": {
"module": plugin_module,
"bidding_generator": "102_STEAM_3",
}
}
}
Run Prescient simulator.
[9]:
Prescient().simulate(**options)
Initializing simulation...
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:304: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
C:\Users\susarlan\Anaconda3\envs\gmlc\lib\site-packages\egret\parsers\rts_gmlc\parser.py:256: FutureWarning:
Use pd.to_datetime instead.
df = pd.read_csv(file_name,
Setting default t0 state in RTS-GMLC parser
WARNING:egret:Setting default t0 state in RTS-GMLC parser
Dates to simulate: 2020-07-10 to 2020-07-11
RUC activation hours: 0
Final RUC date: 2020-07-11
Using current day's forecasts for RUC solves
Using persistent forecast error model when projecting demand and renewables in SCED
Extracting scenario to simulate
Ipopt 3.13.2: max_iter=200
******************************************************************************
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This version of Ipopt was compiled from source code available at
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This version of Ipopt was compiled using HSL, a collection of Fortran codes
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******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 76700
Number of nonzeros in inequality constraint Jacobian.: 572
Number of nonzeros in Lagrangian Hessian.............: 23760
Total number of variables............................: 29373
variables with only lower bounds: 0
variables with lower and upper bounds: 23997
variables with only upper bounds: 48
Total number of equality constraints.................: 29135
Total number of inequality constraints...............: 336
inequality constraints with only lower bounds: 48
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 288
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 3.1585008e+09 3.34e+08 4.02e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 2.9306829e+09 4.13e+08 3.17e+06 -1.0 5.33e+07 - 1.25e-06 1.00e+00f 1
2 2.9306701e+09 4.13e+08 3.17e+06 -1.0 1.01e+08 - 9.05e-02 6.09e-05f 1
3 2.9265341e+09 4.06e+08 3.12e+06 -1.0 1.13e+08 - 1.10e-01 1.80e-02f 1
4 2.8879873e+09 3.91e+08 2.65e+06 -1.0 1.20e+08 - 1.25e-01 1.50e-01f 1
5 2.7882727e+09 3.23e+08 1.76e+06 -1.0 1.20e+08 - 2.56e-01 3.45e-01f 1
6 2.7502021e+09 2.92e+08 1.59e+06 -1.0 1.29e+08 - 4.76e-01 1.00e-01f 1
7 2.7497729e+09 2.92e+08 1.59e+06 -1.0 1.96e+08 - 5.19e-01 6.61e-04f 1
8 2.7021637e+09 2.79e+08 1.52e+06 -1.0 3.04e+08 - 2.58e-01 4.53e-02f 1
9 2.5223751e+09 2.39e+08 1.39e+06 -1.0 3.43e+08 - 3.78e-01 1.48e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 2.5204838e+09 2.38e+08 1.39e+06 -1.0 3.64e+08 - 3.13e-01 1.45e-03f 1
11 2.5195417e+09 2.36e+08 1.38e+06 -1.0 1.17e+08 - 3.27e-02 9.10e-03f 1
12 2.5165672e+09 2.29e+08 1.33e+06 -1.0 4.34e+07 - 2.98e-03 3.17e-02f 1
13 2.5133294e+09 2.21e+08 1.29e+06 -1.0 4.20e+07 - 6.90e-01 3.50e-02f 1
14 2.4057009e+09 1.16e+08 5.91e+05 -1.0 5.49e+07 - 2.05e-02 5.66e-01f 1
15 2.4016250e+09 1.12e+08 5.73e+05 -1.0 3.90e+07 - 8.23e-02 2.98e-02f 1
16 2.4015806e+09 1.12e+08 5.73e+05 -1.0 3.99e+07 - 3.28e-01 3.18e-04f 1
17 2.4015801e+09 1.12e+08 4.36e+07 -1.0 4.65e+07 - 5.62e-03 3.18e-06f 1
18 2.4015801e+09 1.12e+08 1.74e+13 -1.0 4.67e+07 - 2.44e-02 6.03e-08f 1
19r 2.4015801e+09 1.12e+08 1.00e+03 6.8 0.00e+00 - 0.00e+00 1.09e-09R 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20r 2.4015801e+09 1.17e+08 5.93e+04 6.8 7.22e+09 - 1.03e-04 4.84e-06f 1
21r 2.4015801e+09 1.17e+08 6.12e+04 4.7 7.30e+09 - 2.55e-03 3.56e-04f 1
22 2.4015337e+09 1.17e+08 1.98e+02 -1.0 8.71e+07 - 2.86e-02 1.44e-04f 1
23 2.4011483e+09 1.17e+08 9.89e+02 -1.0 8.12e+07 - 5.60e-02 1.27e-03f 1
24 2.4011089e+09 1.16e+08 3.05e+03 -1.0 1.70e+07 - 1.68e-02 4.79e-03f 1
25 2.4010478e+09 1.14e+08 1.74e+04 -1.0 1.70e+07 - 1.03e-01 2.13e-02f 1
26 2.4010264e+09 1.13e+08 2.35e+04 -1.0 1.66e+07 - 4.58e-02 6.15e-03f 1
27 2.4010261e+09 1.13e+08 1.10e+06 -1.0 1.65e+07 - 3.22e-01 6.23e-05f 1
28 2.4010261e+09 1.13e+08 4.46e+10 -1.0 1.65e+07 - 3.90e-02 9.51e-07f 1
29 2.3975861e+09 6.02e+07 1.64e+15 -1.0 1.65e+07 - 1.17e-05 5.03e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30r 2.3975861e+09 6.02e+07 1.00e+03 6.4 0.00e+00 2.0 0.00e+00 2.32e-08R 2
31r 2.3975861e+09 6.02e+07 3.17e+05 6.4 2.36e+09 - 5.64e-03 1.64e-04f 1
32 2.3974678e+09 6.02e+07 4.02e+01 -1.0 8.12e+07 - 1.19e-02 3.88e-04f 1
33 2.3960340e+09 5.99e+07 1.70e+02 -1.0 8.30e+07 - 2.57e-02 4.66e-03f 1
34 2.3947268e+09 5.96e+07 3.23e+02 -1.0 8.36e+07 - 2.80e-02 4.20e-03f 1
35 2.3946295e+09 5.96e+07 1.44e+04 -1.0 6.11e+07 - 9.64e-02 4.35e-04f 1
36 2.3945008e+09 5.80e+07 1.32e+04 -1.0 8.11e+06 - 2.06e-02 2.61e-02f 1
37 2.3944694e+09 5.54e+07 4.17e+04 -1.0 7.90e+06 - 2.48e-01 4.62e-02f 1
38 2.3936565e+09 3.94e+07 2.06e+04 -1.0 7.54e+06 - 1.05e-01 2.94e-01f 1
39 2.3910400e+09 2.23e+07 4.04e+04 -1.0 5.32e+06 - 7.81e-01 4.41e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 2.3630892e+09 2.41e+06 1.53e+05 -1.0 6.16e+06 - 1.34e-02 1.00e+00f 1
41 2.3406714e+09 9.80e+05 4.44e+03 -1.0 5.58e+06 - 5.82e-01 1.00e+00f 1
42 2.3032409e+09 3.62e+06 6.14e+03 -1.0 1.06e+07 - 2.25e-01 1.00e+00f 1
43 2.2677512e+09 4.44e+06 5.63e+03 -1.0 1.06e+07 - 2.24e-01 1.00e+00f 1
44 2.2372022e+09 4.20e+06 4.25e+03 -1.0 9.28e+06 - 1.84e-01 1.00e+00f 1
45 2.2157796e+09 2.74e+06 2.09e+03 -1.0 6.66e+06 - 6.38e-01 1.00e+00f 1
46 2.2007598e+09 1.75e+06 1.17e+03 -1.0 5.90e+06 - 4.97e-01 9.64e-01f 1
47 2.2000145e+09 3.87e+05 1.00e+03 -1.0 1.03e+06 - 1.01e-02 8.06e-01f 1
48 2.1999984e+09 1.45e+05 9.96e+02 -1.0 1.03e+05 - 9.15e-03 6.25e-01f 1
49 2.1999948e+09 7.12e+04 9.51e+02 -1.0 5.85e+04 - 4.55e-02 5.09e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 2.1999891e+09 1.22e+04 6.86e+02 -1.0 8.99e+04 - 2.79e-01 8.29e-01f 1
51 2.1999885e+09 9.11e+02 7.23e+00 -1.0 7.66e+03 - 9.89e-01 9.25e-01f 1
52 2.1999885e+09 4.43e+00 7.23e-02 -1.0 1.89e+03 - 9.90e-01 9.95e-01f 1
53 2.1999885e+09 1.19e-06 7.01e-04 -1.0 1.78e+05 - 9.90e-01 1.00e+00f 1
54 2.1999885e+09 1.79e-07 1.00e-06 -1.0 2.27e+06 - 1.00e+00 1.00e+00f 1
55 2.1999885e+09 6.33e-07 2.86e-07 -2.5 5.76e+03 - 1.00e+00 1.00e+00f 1
56 2.1999885e+09 1.83e-07 1.41e-08 -3.8 1.07e+04 - 1.00e+00 1.00e+00f 1
57 2.1999885e+09 1.99e-07 9.97e-09 -5.7 2.34e+03 - 1.00e+00 1.00e+00f 1
In iteration 57, 48 Slacks too small, adjusting variable bounds
58 2.1999885e+09 2.01e-07 1.13e-08 -8.6 2.56e+02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 58
(scaled) (unscaled)
Objective...............: 2.1999884984296241e+09 2.1999884984296241e+09
Dual infeasibility......: 1.1279568263599830e-08 1.1279568263599830e-08
Constraint violation....: 2.6609216417585101e-09 2.0116567611694336e-07
Complementarity.........: 2.5902946957652803e-09 2.5902946957652803e-09
Overall NLP error.......: 2.6609216417585101e-09 2.0116567611694336e-07
Number of objective function evaluations = 63
Number of objective gradient evaluations = 58
Number of equality constraint evaluations = 63
Number of inequality constraint evaluations = 63
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 58
Total CPU secs in IPOPT (w/o function evaluations) = 8.535
Total CPU secs in NLP function evaluations = 745.018
EXIT: Optimal Solution Found.
Calculating PTDF Matrix Factorization
INFO:egret:Calculating PTDF Matrix Factorization
Pyomo model construction time: 6.22
Pyomo model solve time: 31.737099409103394
Deterministic RUC Cost: 3933511.22
Generator Commitments:
101_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
101_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
101_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
101_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
102_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
102_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
102_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
102_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
107_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
113_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
116_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
118_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_STEAM_2 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
123_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
123_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
202_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
202_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
202_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
202_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
207_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
207_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CC_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
215_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
215_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
216_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
218_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
221_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_2 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
223_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
223_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
307_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
307_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
313_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
315_STEAM_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_7 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_8 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
316_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
318_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
321_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
322_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
322_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
323_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
323_CC_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
114_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
121_NUCLEAR_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
214_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
314_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
Generator Dispatch Levels:
101_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_STEAM_3 : 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 66.00 76.00 76.00 76.00 66.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 | 76.00 76.00 76.00 76.00 76.00 76.00 60.70 47.30 45.30 75.21 76.00 76.00
101_STEAM_4 : 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 63.10 76.00 76.00 76.00 61.10 76.00 76.00 76.00 76.00 76.00 76.00 76.00 | 76.00 76.00 76.00 76.00 76.00 76.00 63.30 60.70 45.70 60.70 76.00 76.00
102_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_STEAM_3 : 286.00 286.00 291.00 351.00 291.00 286.00 286.00 310.73 332.56 328.10 332.99 369.94 407.46 402.78 445.93 460.00 454.92 460.00 458.20 460.00 455.25 451.43 450.99 452.52 | 454.09 451.42 452.86 452.62 411.00 351.00 291.00 286.00 286.00 286.00 325.79 361.15
102_STEAM_4 : 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 45.30 55.65 45.30 47.54 45.30 55.63 45.30 45.30 45.30 45.30 | 45.30 45.30 45.30 45.30 45.30 45.30 40.00 40.00 40.00 40.00 45.30 45.30
107_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 231.70 301.67 293.30 310.01 310.41 306.27 311.35 293.30 231.70 170.00 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
113_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_3 : 77.66 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00 124.00 124.00 124.00 124.00 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 124.00 124.00 | 124.00 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00
116_STEAM_1 : 93.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00 124.00 124.00 140.85 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 124.00 | 124.00 124.00 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00
118_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 293.30 248.07 293.30 355.00 355.00 355.00 242.70 231.70 231.70 | 224.67 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
123_STEAM_2 : 93.00 62.00 62.00 86.19 62.00 62.00 62.00 62.00 93.00 93.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 132.99 155.00 142.16 124.00 124.00 124.00 | 93.00 93.00 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 75.45 93.00
123_STEAM_3 : 210.00 140.00 140.00 140.00 140.00 140.00 140.00 140.00 200.78 280.00 280.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 280.00 | 280.00 251.64 210.00 210.00 185.94 140.00 140.00 140.00 140.00 140.00 140.00 210.00
123_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_STEAM_3 : 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 45.30 60.70 75.54 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 45.30 | 45.30 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00
202_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_STEAM_3 : 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 60.70 60.70 60.70 60.70 60.70 60.70 64.37 65.03 66.78 69.28 66.40 72.78 76.00 60.70 60.70 | 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00
202_STEAM_4 : 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 60.70 60.70 60.70 60.70 60.70 60.70 60.70 60.70 60.70 60.70 76.00 60.70 61.28 60.70 60.70 | 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00
207_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
207_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CC_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
216_STEAM_1 : 93.00 90.70 90.70 93.00 93.00 91.70 84.70 93.00 93.00 93.50 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 124.00 | 124.00 93.00 93.00 93.00 93.00 93.00 77.00 77.00 73.30 70.30 93.00 93.00
218_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
221_CC_1 : 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 179.65 231.70 231.70 231.70 242.71 293.30 293.30 293.30 293.30 293.30 293.30 293.30 231.70 222.74 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
223_STEAM_1 : 124.00 62.00 62.00 93.00 77.00 65.00 65.00 93.00 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 | 155.00 155.00 155.00 125.37 124.00 62.00 62.00 62.00 62.00 62.00 93.00 124.00
223_STEAM_2 : 124.00 64.00 62.00 93.00 88.64 68.00 68.00 93.00 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 | 155.00 155.00 131.73 155.00 124.00 62.00 62.00 62.00 62.00 62.00 93.00 130.33
223_STEAM_3 : 210.00 160.00 157.00 210.00 210.00 160.00 160.00 210.00 210.00 210.00 280.00 280.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 280.00 | 210.00 210.00 210.00 210.00 210.00 159.73 143.30 141.30 140.00 140.00 210.00 210.00
223_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
313_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 293.30 293.30 312.75 306.07 293.30 293.30 231.70 231.70 | 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70
315_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_7 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_8 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
316_STEAM_1 : 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 124.00 124.00 124.00 124.00 124.00 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 124.00 124.00 | 124.00 124.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00
318_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
321_CC_1 : 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 231.70 231.70 231.70 285.64 293.30 293.30 293.30 293.30 293.30 293.30 293.30 293.30 287.22 231.70 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
322_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
322_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 349.34 355.00 355.00 355.00 231.70 170.00 170.00 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
114_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
121_NUCLEAR_1 : 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 | 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00
214_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
314_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Generator Reserve Headroom:
101_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 10.00 0.00 0.00 0.00 10.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 15.30 28.70 30.70 0.79 0.00 0.00
101_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 12.90 0.00 0.00 0.00 14.90 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 12.70 15.30 30.30 15.30 0.00 0.00
102_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_STEAM_3 : 60.00 60.00 55.00 0.00 120.00 65.00 60.00 35.27 38.17 64.45 55.11 23.06 22.47 57.22 14.07 0.00 5.08 0.00 1.80 0.00 4.75 8.57 9.01 7.48 | 5.91 8.58 7.14 7.38 49.00 109.00 120.00 65.00 60.00 60.00 20.21 24.64
102_STEAM_4 : 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 30.70 20.35 30.70 28.46 30.70 20.37 30.70 30.70 30.70 30.70 | 30.70 30.70 30.70 30.70 30.70 30.70 36.00 36.00 36.00 36.00 30.70 30.70
107_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 123.30 53.33 61.70 44.99 44.59 48.73 43.65 61.70 123.30 185.00 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
113_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_3 : 77.34 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00 31.00 31.00 31.00 31.00 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 31.00 31.00 | 31.00 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00
116_STEAM_1 : 62.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00 31.00 31.00 14.15 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 31.00 | 31.00 31.00 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00
118_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 61.70 106.93 61.70 0.00 0.00 0.00 112.30 123.30 123.30 | 130.33 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
123_STEAM_2 : 62.00 93.00 93.00 68.81 93.00 93.00 93.00 93.00 62.00 62.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 22.01 0.00 12.84 31.00 31.00 31.00 | 62.00 62.00 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 79.55 62.00
123_STEAM_3 : 140.00 210.00 210.00 210.00 210.00 210.00 210.00 210.00 149.22 70.00 70.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 70.00 | 70.00 98.36 140.00 140.00 164.06 210.00 210.00 210.00 210.00 210.00 210.00 140.00
123_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_STEAM_3 : 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 30.70 15.30 0.46 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 30.70 | 30.70 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
202_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_STEAM_3 : 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 15.30 15.30 15.30 15.30 15.30 15.30 11.63 10.97 9.22 6.72 9.60 3.22 0.00 15.30 15.30 | 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
202_STEAM_4 : 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 15.30 15.30 15.30 15.30 15.30 15.30 15.30 15.30 15.30 15.30 0.00 15.30 14.72 15.30 15.30 | 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
207_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
207_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CC_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
216_STEAM_1 : 62.00 64.30 64.30 62.00 62.00 63.30 70.30 62.00 62.00 61.50 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 31.00 | 31.00 62.00 62.00 62.00 62.00 62.00 78.00 78.00 81.70 84.70 62.00 62.00
218_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
221_CC_1 : 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 175.35 123.30 123.30 123.30 112.29 61.70 61.70 61.70 61.70 61.70 61.70 61.70 123.30 132.26 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
223_STEAM_1 : 31.00 93.00 93.00 62.00 78.00 90.00 90.00 62.00 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 29.63 31.00 93.00 93.00 93.00 93.00 93.00 62.00 31.00
223_STEAM_2 : 31.00 91.00 93.00 62.00 66.36 87.00 87.00 62.00 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 23.27 0.00 31.00 93.00 93.00 93.00 93.00 93.00 62.00 24.67
223_STEAM_3 : 140.00 190.00 193.00 140.00 140.00 190.00 190.00 140.00 140.00 140.00 70.00 70.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 70.00 | 140.00 140.00 140.00 140.00 140.00 190.27 206.70 208.70 210.00 210.00 140.00 140.00
223_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
313_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 61.70 61.70 42.25 48.93 61.70 61.70 123.30 123.30 | 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30
315_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_7 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_8 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
316_STEAM_1 : 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 31.00 31.00 31.00 31.00 31.00 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 31.00 31.00 | 31.00 31.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00
318_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
321_CC_1 : 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 123.30 123.30 123.30 69.36 61.70 61.70 61.70 61.70 61.70 61.70 61.70 61.70 67.78 123.30 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
322_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
322_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 5.66 0.00 0.00 0.00 123.30 185.00 185.00 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
114_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
121_NUCLEAR_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
214_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
314_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Total : 1297.04 1619.00 1619.00 1422.51 1587.06 1616.00 1618.00 1481.97 1300.09 999.25 740.76 523.41 446.74 404.18 465.66 316.70 471.69 381.43 286.76 251.03 295.56 567.39 909.28 1266.65 | 1487.54 1650.54 1868.41 1875.01 2004.06 2346.27 2423.00 2386.00 2403.00 2361.09 2131.76 1949.31
Fixed costs: 2732895.40
Variable costs: 1200615.82
Renewables curtailment summary (time-period, aggregate_quantity):
2020-07-10 01:00 50.74
2020-07-10 02:00 223.61
2020-07-10 05:00 148.57
2020-07-10 06:00 91.02
2020-07-11 06:00 81.52
2020-07-11 07:00 151.47
2020-07-11 08:00 102.07
Solving day-ahead market
Computing day-ahead prices using method LMP.
Simulating time_step 2020-07-10 00:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.5830834e+08 3.34e+08 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.5830542e+08 3.34e+08 1.26e+02 -1.0 4.01e+07 - 1.25e-06 1.60e-04f 1
2 6.5845910e+08 3.34e+08 1.26e+02 -1.0 4.01e+07 - 1.59e-04 1.69e-04h 1
3 6.5946225e+08 3.34e+08 1.26e+02 -1.0 4.00e+07 - 3.26e-04 9.61e-04h 1
4 6.9376958e+08 3.02e+08 4.20e+03 -1.0 3.98e+07 - 1.28e-03 4.09e-02H 1
5 6.9510112e+08 3.02e+08 4.19e+03 -1.0 3.84e+07 - 3.23e-02 1.32e-03h 1
6 7.3243667e+08 2.91e+08 3.25e+03 -1.0 4.03e+07 - 4.36e-02 3.69e-02h 1
7 1.0205778e+09 2.18e+08 9.26e+04 -1.0 3.49e+07 - 7.34e-02 2.98e-01h 1
8 1.0458723e+09 2.10e+08 8.81e+04 -1.0 2.96e+07 - 3.90e-01 4.15e-02h 1
9 1.6238398e+09 2.07e+08 4.64e+05 -1.0 3.21e+07 - 4.76e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 1.6174178e+09 1.55e+08 3.42e+05 -1.0 4.21e+07 - 4.97e-01 2.61e-01h 1
11 1.6146199e+09 1.32e+08 2.91e+05 -1.0 3.11e+07 - 6.24e-01 1.52e-01h 1
12 1.6088872e+09 9.56e+07 2.04e+05 -1.0 2.64e+07 - 6.78e-01 2.98e-01h 1
13 1.5916645e+09 4.91e+07 8.92e+04 -1.0 1.85e+07 - 8.08e-01 5.63e-01h 1
14 1.5885603e+09 4.79e+07 8.70e+04 -1.0 2.13e+07 - 9.40e-01 2.52e-02h 1
15 1.0838895e+09 2.80e+07 4.67e+04 -1.0 1.66e+08 - 5.66e-03 4.63e-01f 1
16 1.0785628e+09 2.78e+07 4.65e+04 -1.0 1.62e+08 - 1.16e-01 4.77e-03f 1
17 1.0774914e+09 2.78e+07 4.64e+04 -1.0 1.75e+08 - 5.16e-01 9.88e-04f 1
18 9.0107202e+08 2.47e+07 4.12e+04 -1.0 2.54e+08 - 1.55e-02 1.14e-01f 1
19 8.9909076e+08 2.47e+07 4.11e+04 -1.0 2.48e+08 - 2.74e-01 1.31e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 8.0700484e+08 2.32e+07 3.86e+04 -1.0 2.82e+08 - 1.56e-01 5.98e-02f 1
21 7.0986164e+08 2.18e+07 3.63e+04 -1.0 2.93e+08 - 1.01e-01 6.02e-02f 1
22 7.0788095e+08 2.18e+07 3.63e+04 -1.0 2.96e+08 - 2.03e-01 1.30e-03f 1
23 7.0788068e+08 2.18e+07 3.63e+04 -1.0 3.30e+06 -4.0 2.60e-03 5.83e-05h 1
24 6.8221427e+08 2.11e+07 3.52e+04 -1.0 3.74e+08 - 6.30e-03 3.04e-02f 1
25 6.8068359e+08 2.11e+07 3.51e+04 -1.0 1.30e+08 - 2.17e-01 2.47e-03f 1
26 6.5621774e+08 2.06e+07 3.43e+04 -1.0 2.72e+08 - 2.54e-03 2.25e-02f 1
27 6.5041605e+08 2.05e+07 3.41e+04 -1.0 2.77e+08 - 3.62e-02 5.24e-03f 1
28 6.1923153e+08 1.99e+07 3.32e+04 -1.0 2.83e+08 - 2.54e-02 2.79e-02f 1
29 6.1710187e+08 1.98e+07 3.29e+04 -1.0 1.22e+08 - 9.24e-02 6.66e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.1541245e+08 1.87e+07 3.11e+04 -1.0 1.36e+07 - 4.25e-01 5.52e-02h 1
31 6.1389829e+08 1.68e+07 2.79e+04 -1.0 9.15e+06 - 1.61e-02 1.03e-01h 1
32 6.0714007e+08 9.81e+06 1.55e+04 -1.0 9.81e+06 - 4.45e-02 4.43e-01h 1
33 6.0113697e+08 6.94e+06 1.09e+04 -1.0 1.47e+07 - 1.26e-01 3.00e-01h 1
34 5.8630748e+08 2.91e+06 5.48e+03 -1.0 1.84e+07 - 1.75e-01 6.04e-01f 1
35 5.8080407e+08 2.50e+06 4.74e+03 -1.0 2.84e+07 - 1.29e-01 1.56e-01f 1
36 5.7502990e+08 2.25e+06 3.95e+03 -1.0 2.74e+07 - 3.72e-01 1.76e-01f 1
37 5.6753998e+08 2.38e+06 3.08e+03 -1.0 2.14e+07 - 2.56e-01 2.39e-01f 1
38 5.6228435e+08 2.48e+06 2.56e+03 -1.0 2.27e+07 - 2.56e-01 1.85e-01f 1
39 5.6176100e+08 2.43e+06 2.50e+03 -1.0 2.44e+07 - 7.05e-01 2.12e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.5800389e+08 2.73e+06 2.19e+03 -1.0 3.19e+07 - 5.96e-01 1.36e-01f 1
41 5.5004411e+08 4.73e+06 1.66e+03 -1.0 3.05e+07 - 1.73e-02 2.89e-01f 1
42 5.4076811e+08 6.16e+06 1.16e+03 -1.0 3.06e+07 - 1.29e-01 3.94e-01f 1
43 5.4058374e+08 6.09e+06 1.15e+03 -1.0 3.71e+07 - 3.50e-01 1.08e-02h 1
44 5.2985542e+08 1.77e+07 6.32e+02 -1.0 3.76e+07 - 8.88e-02 6.61e-01f 1
45 5.2958017e+08 1.71e+07 6.11e+02 -1.0 3.42e+07 - 1.12e-02 3.30e-02h 1
46 5.2948721e+08 1.69e+07 6.03e+02 -1.0 3.67e+07 - 1.88e-01 1.29e-02h 1
47 5.2910232e+08 1.60e+07 5.69e+02 -1.0 3.51e+07 - 6.22e-02 5.84e-02h 1
48 5.2729590e+08 1.22e+07 4.01e+02 -1.0 3.40e+07 - 3.57e-01 3.18e-01f 1
49 5.2602328e+08 8.40e+06 2.60e+02 -1.0 2.30e+07 - 2.04e-01 3.66e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.2540260e+08 5.67e+06 1.70e+02 -1.0 1.31e+07 - 4.27e-01 3.51e-01h 1
51 5.2482537e+08 3.45e+06 7.57e+01 -1.0 1.16e+07 - 3.00e-01 5.61e-01h 1
52 5.2455404e+08 1.58e+06 6.76e+01 -1.0 7.08e+06 - 1.09e-01 6.11e-01h 1
53 5.2451043e+08 1.16e+06 2.33e+01 -1.0 1.66e+06 - 5.60e-01 2.68e-01h 1
54 5.2424163e+08 1.06e+05 3.71e+01 -1.0 1.27e+06 - 3.88e-02 9.27e-01h 1
55 5.2377369e+08 8.13e+04 3.39e+01 -1.0 1.30e+07 - 9.29e-02 2.31e-01f 1
56 5.2376937e+08 6.75e+04 3.12e+00 -1.0 2.06e+05 - 9.87e-01 1.70e-01h 1
57 5.2377155e+08 3.38e+02 2.64e-01 -1.0 1.07e+05 - 7.71e-01 1.00e+00h 1
58 5.2374541e+08 1.00e+03 4.03e-02 -1.0 1.30e+05 - 8.51e-01 8.63e-01f 1
59 5.2370603e+08 2.85e+03 8.91e+00 -1.7 2.67e+05 - 1.00e+00 7.09e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.2369624e+08 3.36e+02 9.94e-01 -1.7 2.64e+04 - 1.00e+00 8.89e-01h 1
61 5.2369534e+08 1.13e+01 1.50e-05 -1.7 1.17e+04 - 1.00e+00 1.00e+00f 1
62 5.2368911e+08 8.49e+00 2.75e+00 -3.8 2.28e+04 - 9.84e-01 6.23e-01f 1
63 5.2368646e+08 1.73e+00 2.61e-01 -3.8 6.86e+03 - 7.25e-01 8.98e-01f 1
64 5.2368607e+08 1.16e+02 2.39e-02 -3.8 6.82e+04 - 7.76e-01 9.06e-01h 1
65 5.2368603e+08 2.99e+00 5.00e-07 -3.8 1.01e+04 - 1.00e+00 1.00e+00h 1
66 5.2368596e+08 1.06e+00 3.27e-04 -5.7 5.77e+03 - 9.58e-01 9.52e-01h 1
67 5.2368595e+08 4.93e-03 1.19e-09 -5.7 4.05e+02 - 1.00e+00 1.00e+00h 1
68 5.2368595e+08 1.50e-04 2.82e-11 -8.6 7.03e+01 - 1.00e+00 1.00e+00h 1
69 5.2368595e+08 6.32e-06 1.03e-03 -8.6 2.04e-02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 5.2368595e+08 1.86e-07 1.03e-03 -8.6 1.20e-05 - 1.00e+00 1.00e+00h 1
71 5.2368595e+08 2.24e-07 1.03e-03 -8.6 3.77e-06 - 1.00e+00 1.00e+00h 1
72 5.2368595e+08 1.79e-07 3.93e-03 -8.6 2.38e-06 - 1.00e+00 1.00e+00h 1
73 5.2368595e+08 2.38e-07 3.93e-03 -8.6 2.03e-06 - 1.00e+00 1.00e+00h 1
74 5.2368595e+08 1.94e-07 1.18e-12 -8.6 3.08e-06 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 74
(scaled) (unscaled)
Objective...............: 5.2368595248845340e+04 5.2368595248845339e+08
Dual infeasibility......: 1.1751998262750213e-12 1.1751998262750213e-08
Constraint violation....: 2.5611370801925659e-09 1.9371509552001953e-07
Complementarity.........: 2.5059479749487853e-09 2.5059479749487853e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5059479749487853e-05
Number of objective function evaluations = 76
Number of objective gradient evaluations = 75
Number of equality constraint evaluations = 76
Number of inequality constraint evaluations = 76
Number of equality constraint Jacobian evaluations = 75
Number of inequality constraint Jacobian evaluations = 75
Number of Lagrangian Hessian evaluations = 74
Total CPU secs in IPOPT (w/o function evaluations) = 2.999
Total CPU secs in NLP function evaluations = 103.436
EXIT: Optimal Solution Found.
Implemented Power (MPC) 322
Realized SOC (MPC) 76000
Fixed costs: 41023.55
Variable costs: 7921.27
Number on/offs: 57
Sum on/off ramps: 0.00
Sum nominal ramps: 429.29
Simulating time_step 2020-07-10 01:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.2387595e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.2386950e+08 1.00e+05 9.90e+01 -1.0 1.38e+06 - 3.46e-04 3.24e-04h 1
2 5.2405621e+08 9.98e+04 9.99e+01 -1.0 4.67e+05 - 3.67e-04 1.33e-03h 1
3 5.2458762e+08 9.95e+04 1.00e+02 -1.0 2.14e+05 - 1.65e-03 3.15e-03h 1
4 5.2614609e+08 9.87e+04 1.00e+02 -1.0 1.71e+05 - 4.89e-03 8.50e-03h 1
5 5.3086509e+08 9.61e+04 9.61e+01 -1.0 1.22e+05 - 9.67e-01 2.58e-02h 1
6 7.0214660e+08 7.59e+02 2.80e+01 -1.0 1.60e+06 - 4.63e-02 1.00e+00h 1
7 6.9484694e+08 4.13e+02 1.99e+01 -1.0 1.62e+06 - 2.96e-01 1.00e+00f 1
8 6.8445320e+08 8.91e+02 7.79e+00 -1.0 2.38e+06 - 5.95e-01 1.00e+00f 1
9 6.7631560e+08 1.14e+03 3.95e+00 -1.0 5.78e+06 - 5.24e-01 3.18e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.7615491e+08 1.14e+03 4.55e+01 -1.0 1.20e+07 - 7.59e-01 3.26e-03f 1
11 6.6758628e+08 1.82e+03 4.52e+01 -1.0 4.62e+07 - 7.44e-02 4.68e-02f 1
12 6.6537712e+08 1.87e+03 8.21e+01 -1.0 5.01e+07 - 6.15e-01 1.36e-02f 1
13 6.4665909e+08 8.49e+03 7.70e+01 -1.0 1.25e+08 - 2.02e-02 5.29e-02f 1
14 6.1987029e+08 2.39e+04 7.28e+01 -1.0 1.30e+08 - 1.46e-01 7.56e-02f 1
15 5.9154057e+08 4.18e+04 7.09e+01 -1.0 1.62e+08 - 2.16e-01 6.71e-02f 1
16 5.9075193e+08 4.18e+04 7.48e+01 -1.0 2.17e+08 - 2.56e-01 1.68e-03f 1
17 5.7571934e+08 5.15e+04 7.53e+01 -1.0 3.47e+08 - 2.30e-01 2.53e-02f 1
18 5.5238672e+08 1.36e+05 7.40e+01 -1.0 5.93e+08 - 2.09e-01 3.81e-02f 1
19 5.2708472e+08 2.85e+05 1.64e+02 -1.0 1.14e+09 - 2.85e-01 2.71e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.2261301e+08 2.82e+05 2.47e+02 -1.0 2.79e+08 - 1.45e-01 1.34e-02f 1
21 5.0024198e+08 2.58e+05 3.53e+02 -1.0 2.93e+08 - 4.80e-01 8.56e-02f 1
22 4.9020127e+08 2.44e+05 2.50e+02 -1.0 2.70e+08 - 2.85e-01 5.16e-02f 1
23 4.9003091e+08 2.28e+05 2.32e+02 -1.0 1.98e+06 - 7.15e-02 6.79e-02h 1
24 4.8964477e+08 1.28e+05 1.60e+02 -1.0 1.07e+06 - 3.32e-01 4.38e-01h 1
25 4.8960811e+08 4.40e+04 7.10e+01 -1.0 6.17e+04 - 5.75e-01 6.56e-01h 1
26 4.8960016e+08 3.04e+04 2.16e+01 -1.0 1.13e+05 - 8.14e-01 3.09e-01h 1
27 4.8958787e+08 1.92e+02 2.46e-01 -1.0 7.97e+04 - 9.90e-01 1.00e+00h 1
28 4.8958265e+08 9.12e+01 5.10e-03 -1.0 5.50e+04 - 9.98e-01 1.00e+00h 1
29 4.8954254e+08 1.59e+03 8.72e+00 -2.5 2.56e+05 - 8.73e-01 6.40e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 4.8953311e+08 7.39e+02 6.03e+00 -2.5 5.26e+04 - 9.54e-01 5.34e-01h 1
31 4.8952722e+08 8.78e+01 7.43e-01 -2.5 1.29e+04 - 1.00e+00 8.81e-01h 1
32 4.8952662e+08 6.90e+00 4.18e-06 -2.5 1.51e+04 - 1.00e+00 1.00e+00h 1
33 4.8952538e+08 3.71e+01 4.61e-01 -3.8 3.53e+04 - 5.40e-01 9.88e-01f 1
34 4.8952534e+08 8.97e+00 3.18e-02 -3.8 1.73e+04 - 9.33e-01 1.00e+00h 1
35 4.8952533e+08 2.23e+00 1.93e-07 -3.8 8.59e+03 - 1.00e+00 1.00e+00h 1
36 4.8952526e+08 8.57e-01 1.60e-03 -5.7 5.30e+03 - 9.59e-01 9.87e-01h 1
37 4.8952526e+08 4.08e-03 6.30e-10 -5.7 3.69e+02 - 1.00e+00 1.00e+00h 1
38 4.8952526e+08 1.79e-04 3.25e-11 -8.6 7.70e+01 - 1.00e+00 1.00e+00h 1
39 4.8952526e+08 1.71e-07 1.08e-12 -8.6 5.23e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 39
(scaled) (unscaled)
Objective...............: 4.8952525566510267e+04 4.8952525566510266e+08
Dual infeasibility......: 1.0781139603648085e-12 1.0781139603648085e-08
Constraint violation....: 2.5611370801925659e-09 1.7136335372924807e-07
Complementarity.........: 2.5059050729338610e-09 2.5059050729338609e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5059050729338609e-05
Number of objective function evaluations = 40
Number of objective gradient evaluations = 40
Number of equality constraint evaluations = 40
Number of inequality constraint evaluations = 40
Number of equality constraint Jacobian evaluations = 40
Number of inequality constraint Jacobian evaluations = 40
Number of Lagrangian Hessian evaluations = 39
Total CPU secs in IPOPT (w/o function evaluations) = 2.489
Total CPU secs in NLP function evaluations = 51.983
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 76000
Fixed costs: 41023.55
Variable costs: 1162.36
Renewables curtailment reported at t=1 - total= 51.00
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 358.29
Simulating time_step 2020-07-10 02:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 4.8972526e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 4.8971948e+08 1.00e+05 9.90e+01 -1.0 1.38e+06 - 3.46e-04 3.24e-04h 1
2 4.8995204e+08 9.98e+04 9.99e+01 -1.0 5.13e+05 - 3.67e-04 1.33e-03h 1
3 4.9059669e+08 9.95e+04 1.00e+02 -1.0 2.14e+05 - 1.65e-03 3.15e-03h 1
4 4.9367846e+08 9.81e+04 1.01e+02 -1.0 1.71e+05 - 4.89e-03 1.43e-02h 1
5 5.0791688e+08 9.16e+04 9.07e+01 -1.0 1.23e+05 - 9.67e-01 6.66e-02h 1
6 6.3946236e+08 2.93e+04 4.38e+01 -1.0 1.59e+06 - 1.02e-01 6.80e-01h 1
7 6.9647006e+08 5.29e+02 2.74e+01 -1.0 1.77e+06 - 4.55e-01 1.00e+00h 1
8 6.8410021e+08 1.64e+03 1.21e+01 -1.0 3.24e+06 - 5.65e-01 1.00e+00f 1
9 6.7860250e+08 1.65e+03 5.43e+00 -1.0 7.39e+06 - 7.22e-01 1.94e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.7830464e+08 1.64e+03 2.48e+01 -1.0 2.56e+07 - 2.61e-01 3.41e-03f 1
11 6.7097126e+08 2.32e+03 6.66e+01 -1.0 3.42e+07 - 5.59e-01 6.50e-02f 1
12 6.6548477e+08 2.87e+03 6.46e+01 -1.0 7.01e+07 - 2.56e-02 2.81e-02f 1
13 6.5163946e+08 7.01e+03 6.60e+01 -1.0 7.31e+07 - 2.31e-01 7.16e-02f 1
14 6.0431478e+08 5.76e+04 5.19e+01 -1.0 9.92e+07 - 1.15e-01 1.83e-01f 1
15 6.0371944e+08 5.75e+04 2.20e+02 -1.0 1.09e+08 - 6.08e-01 2.04e-03f 1
16 5.9353736e+08 5.67e+04 2.80e+02 -1.0 3.93e+08 - 4.59e-02 1.39e-02f 1
17 5.8342541e+08 6.15e+04 3.13e+02 -1.0 4.35e+08 - 3.75e-02 1.69e-02f 1
18 5.8003884e+08 6.32e+04 3.49e+02 -1.0 4.78e+08 - 3.17e-02 7.53e-03f 1
19 5.4891580e+08 2.37e+05 2.70e+02 -1.0 5.14e+08 - 2.29e-02 6.33e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.3913620e+08 2.49e+05 3.29e+02 -1.0 5.72e+08 - 6.85e-02 1.82e-02f 1
21 5.3871133e+08 2.49e+05 4.12e+02 -1.0 2.09e+08 - 7.85e-02 1.41e-03f 1
22 5.2575854e+08 2.40e+05 3.85e+02 -1.0 3.83e+08 - 1.27e-02 3.57e-02f 1
23 5.2542676e+08 2.40e+05 2.15e+02 -1.0 2.16e+08 - 4.14e-01 1.67e-03f 1
24 5.0470605e+08 2.22e+05 1.70e+02 -1.0 2.81e+08 - 8.78e-01 1.04e-01f 1
25 5.0449797e+08 2.21e+05 2.03e+02 -1.0 5.45e+07 - 5.27e-01 5.32e-03f 1
26 5.0445276e+08 1.87e+05 1.89e+02 -1.0 2.11e+06 - 5.97e-02 1.52e-01h 1
27 5.0393805e+08 1.90e+06 1.66e+02 -1.0 4.66e+06 - 7.19e-02 1.00e+00h 1
28 5.0315589e+08 5.73e+06 1.31e+02 -1.0 2.15e+07 - 2.28e-01 3.94e-01f 1
29 5.0159296e+08 1.86e+07 9.32e+01 -1.0 5.66e+07 - 2.90e-01 3.02e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.0157742e+08 1.85e+07 5.65e+01 -1.0 7.63e+07 - 3.65e-01 2.27e-03h 1
31 5.0157895e+08 6.13e+06 1.79e+01 -1.0 2.97e+05 - 9.82e-01 6.67e-01h 1
32 5.0157621e+08 1.26e+04 6.41e-03 -1.0 2.03e+05 - 9.94e-01 1.00e+00h 1
33 5.0157614e+08 1.01e+01 3.42e-06 -1.0 1.83e+04 - 1.00e+00 1.00e+00h 1
34 5.0154448e+08 1.09e+02 1.08e+01 -2.5 9.49e+04 - 9.47e-01 7.28e-01f 1
35 5.0153344e+08 7.27e+03 3.42e-01 -2.5 4.94e+05 - 8.68e-01 1.00e+00h 1
36 5.0153326e+08 2.58e+02 3.01e-05 -2.5 1.04e+05 - 1.00e+00 1.00e+00h 1
37 5.0153327e+08 2.38e-01 4.58e-08 -2.5 2.80e+03 - 1.00e+00 1.00e+00h 1
38 5.0153198e+08 1.69e+02 1.26e-01 -3.8 7.69e+04 - 9.07e-01 1.00e+00f 1
39 5.0153197e+08 1.33e+00 1.40e-07 -3.8 7.02e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.0153190e+08 7.55e-01 1.22e-07 -5.7 5.15e+03 - 1.00e+00 1.00e+00h 1
41 5.0153190e+08 1.83e-05 1.85e-11 -5.7 2.63e+01 - 1.00e+00 1.00e+00h 1
42 5.0153190e+08 1.16e-04 1.87e-11 -8.6 6.38e+01 - 1.00e+00 1.00e+00h 1
43 5.0153190e+08 2.98e-07 1.27e-12 -8.6 4.08e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 43
(scaled) (unscaled)
Objective...............: 5.0153189639470875e+04 5.0153189639470869e+08
Dual infeasibility......: 1.2686991406444770e-12 1.2686991406444770e-08
Constraint violation....: 2.5611370801925659e-09 2.9802322387695312e-07
Complementarity.........: 2.5059343672423842e-09 2.5059343672423841e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5059343672423841e-05
Number of objective function evaluations = 44
Number of objective gradient evaluations = 44
Number of equality constraint evaluations = 44
Number of inequality constraint evaluations = 44
Number of equality constraint Jacobian evaluations = 44
Number of inequality constraint Jacobian evaluations = 44
Number of Lagrangian Hessian evaluations = 43
Total CPU secs in IPOPT (w/o function evaluations) = 2.733
Total CPU secs in NLP function evaluations = 57.293
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 2432.98
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 74.38
Simulating time_step 2020-07-10 03:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.0173190e+08 2.31e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.0172640e+08 2.31e+05 1.33e+02 -1.0 1.46e+07 - 2.34e-06 3.14e-04f 1
2 5.0178215e+08 2.31e+05 1.33e+02 -1.0 8.95e+06 - 3.74e-05 3.32e-04h 1
3 5.0194355e+08 2.31e+05 1.33e+02 -1.0 7.06e+05 - 1.56e-04 7.56e-04h 1
4 5.0241567e+08 2.30e+05 1.32e+02 -1.0 4.07e+05 - 1.09e-03 1.97e-03h 1
5 5.0354006e+08 2.29e+05 1.32e+02 -1.0 4.01e+05 - 3.28e-03 4.48e-03h 1
6 5.0808523e+08 2.25e+05 1.30e+02 -1.0 3.87e+05 - 8.60e-03 1.80e-02h 1
7 5.3252596e+08 2.03e+05 1.17e+02 -1.0 3.46e+05 - 6.60e-02 9.83e-02h 1
8 5.5820788e+08 1.80e+05 1.03e+02 -1.0 2.03e+05 - 1.56e-01 1.15e-01h 1
9 5.7613565e+08 1.64e+05 9.41e+01 -1.0 1.80e+05 - 3.02e-01 9.04e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.7645397e+08 1.63e+05 5.12e+03 -1.0 2.80e+05 - 4.63e-01 1.76e-03h 1
11 7.5678810e+08 4.01e+02 9.15e+03 -1.0 1.17e+06 - 4.64e-01 1.00e+00h 1
12 7.5547359e+08 2.38e+01 6.06e+03 -1.0 3.29e+05 - 4.71e-01 1.00e+00f 1
13 7.5298187e+08 8.68e+01 1.02e+02 -1.0 6.28e+05 - 9.83e-01 1.00e+00f 1
14 7.2664680e+08 7.81e+03 1.26e+02 -1.0 3.34e+07 - 3.25e-02 1.79e-01f 1
15 7.2633474e+08 7.80e+03 4.19e+01 -1.0 3.57e+07 - 2.71e-01 2.07e-03f 1
16 7.1845380e+08 8.43e+03 5.78e+01 -1.0 4.78e+07 - 3.79e-01 4.43e-02f 1
17 7.1498910e+08 8.58e+03 1.05e+02 -1.0 7.30e+07 - 1.56e-01 1.55e-02f 1
18 6.4702426e+08 1.07e+05 7.97e+01 -1.0 8.87e+07 - 2.38e-01 2.57e-01f 1
19 6.4616499e+08 1.07e+05 1.70e+02 -1.0 1.18e+08 - 3.24e-01 2.36e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.3310929e+08 1.07e+05 4.94e+02 -1.0 1.85e+08 - 2.16e-01 2.73e-02f 1
21 6.2332523e+08 1.06e+05 4.84e+02 -1.0 2.68e+08 - 1.31e-02 1.69e-02f 1
22 6.1423143e+08 1.06e+05 4.80e+02 -1.0 2.77e+08 - 3.59e-02 1.53e-02f 1
23 6.0867923e+08 1.05e+05 5.20e+02 -1.0 2.97e+08 - 2.67e-01 1.10e-02f 1
24 5.6636894e+08 2.16e+05 4.85e+02 -1.0 5.27e+08 - 3.10e-02 5.50e-02f 1
25 5.6512328e+08 2.16e+05 3.91e+02 -1.0 5.93e+08 - 3.64e-01 1.78e-03f 1
26 5.4732537e+08 2.93e+05 3.71e+02 -1.0 1.82e+09 - 4.74e-02 1.23e-02f 1
27 5.4341712e+08 2.89e+05 3.21e+02 -1.0 2.63e+08 - 1.13e-01 1.16e-02f 1
28 5.2465136e+08 2.64e+05 7.71e+02 -1.0 2.68e+08 - 7.12e-01 8.91e-02f 1
29 5.1688809e+08 2.77e+05 1.23e+03 -1.0 2.23e+08 - 8.83e-01 4.88e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.1678359e+08 2.59e+05 1.21e+03 -1.0 6.10e+06 - 9.54e-01 6.40e-02h 1
31 5.1664140e+08 1.93e+05 8.18e+02 -1.0 7.17e+06 - 2.92e-01 3.23e-01h 1
32 5.1541320e+08 1.48e+07 3.13e+01 -1.0 2.47e+07 - 2.14e-01 1.00e+00f 1
33 5.1535717e+08 5.24e+06 9.36e+00 -1.0 2.47e+06 - 8.31e-01 6.99e-01h 1
34 5.1534827e+08 5.81e+05 8.91e-01 -1.0 3.42e+06 - 4.16e-01 1.00e+00h 1
35 5.1534773e+08 4.62e+03 3.38e-03 -1.0 1.13e+05 - 1.00e+00 1.00e+00h 1
36 5.1530502e+08 1.08e+05 9.03e+00 -1.7 1.99e+06 - 7.06e-01 1.00e+00f 1
37 5.1530525e+08 1.17e+03 4.90e-04 -1.7 1.92e+05 - 1.00e+00 1.00e+00h 1
38 5.1530526e+08 5.49e+01 1.65e-05 -1.7 4.40e+04 - 1.00e+00 1.00e+00h 1
39 5.1529645e+08 3.44e+03 4.55e-01 -3.8 4.29e+05 - 9.32e-01 8.72e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.1529534e+08 6.19e-01 5.21e-06 -3.8 9.32e+03 - 1.00e+00 1.00e+00h 1
41 5.1529527e+08 1.35e-01 7.64e-08 -5.7 2.36e+03 - 1.00e+00 1.00e+00h 1
42 5.1529527e+08 1.64e-07 1.85e-11 -5.7 2.51e+00 - 1.00e+00 1.00e+00h 1
43 5.1529527e+08 2.33e-05 1.23e-11 -8.6 3.11e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 43
(scaled) (unscaled)
Objective...............: 5.1529527003180759e+04 5.1529527003180754e+08
Dual infeasibility......: 1.2258487077399061e-11 1.2258487077399061e-07
Constraint violation....: 5.5895724693645721e-09 2.3253262042999268e-05
Complementarity.........: 2.5343652700690903e-09 2.5343652700690900e-05
Overall NLP error.......: 5.5895724693645721e-09 2.5343652700690900e-05
Number of objective function evaluations = 44
Number of objective gradient evaluations = 44
Number of equality constraint evaluations = 44
Number of inequality constraint evaluations = 44
Number of equality constraint Jacobian evaluations = 44
Number of inequality constraint Jacobian evaluations = 44
Number of Lagrangian Hessian evaluations = 43
Total CPU secs in IPOPT (w/o function evaluations) = 2.615
Total CPU secs in NLP function evaluations = 58.466
EXIT: Optimal Solution Found.
Implemented Power (MPC) 346
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 17391.91
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 739.98
Simulating time_step 2020-07-10 04:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.1549527e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.1548947e+08 1.00e+05 9.90e+01 -1.0 1.28e+06 - 3.46e-04 3.25e-04h 1
2 5.1568693e+08 9.98e+04 9.99e+01 -1.0 5.40e+05 - 3.82e-04 1.34e-03h 1
3 5.1627259e+08 9.95e+04 1.00e+02 -1.0 2.14e+05 - 1.66e-03 3.16e-03h 1
4 5.1911639e+08 9.81e+04 1.01e+02 -1.0 1.70e+05 - 4.91e-03 1.43e-02h 1
5 5.3226362e+08 9.15e+04 9.06e+01 -1.0 1.23e+05 - 9.67e-01 6.70e-02h 1
6 6.4963401e+08 3.04e+04 4.43e+01 -1.0 1.95e+06 - 1.03e-01 6.69e-01h 1
7 6.5032044e+08 3.00e+04 4.14e+02 -1.0 2.09e+06 - 9.02e-01 1.31e-02h 1
8 6.4610107e+08 2.42e+04 3.03e+02 -1.0 2.05e+07 - 1.98e-01 2.17e-01f 1
9 6.4598510e+08 2.42e+04 7.54e+02 -1.0 2.13e+07 - 5.52e-01 2.50e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.4262339e+08 2.36e+04 8.37e+02 -1.0 4.55e+07 - 5.58e-01 2.68e-02f 1
11 6.3302033e+08 2.33e+04 7.95e+02 -1.0 1.01e+08 - 6.60e-02 3.84e-02f 1
12 6.1807841e+08 2.42e+04 7.17e+02 -1.0 1.10e+08 - 1.54e-01 6.30e-02f 1
13 5.8618812e+08 4.46e+04 6.20e+02 -1.0 1.37e+08 - 1.95e-01 1.07e-01f 1
14 5.8473728e+08 4.45e+04 6.23e+02 -1.0 1.79e+08 - 2.92e-01 3.86e-03f 1
15 5.7755545e+08 4.40e+04 6.17e+02 -1.0 2.32e+08 - 1.61e-01 2.01e-02f 1
16 5.7117681e+08 4.30e+04 6.16e+02 -1.0 2.35e+08 - 1.96e-01 2.33e-02f 1
17 5.4382443e+08 1.07e+05 5.59e+02 -1.0 3.09e+08 - 9.56e-03 6.66e-02f 1
18 5.4325710e+08 1.07e+05 5.32e+02 -1.0 2.94e+08 - 7.68e-02 1.61e-03f 1
19 5.4061627e+08 1.05e+05 3.84e+02 -1.0 2.14e+08 - 3.12e-01 1.35e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.2136861e+08 2.02e+05 3.75e+02 -1.0 2.58e+08 - 8.81e-01 1.12e-01f 1
21 5.2117891e+08 2.01e+05 4.67e+02 -1.0 6.76e+07 - 9.46e-01 5.00e-03h 1
22 5.2184988e+08 6.48e+04 8.69e+01 -1.0 1.34e+07 - 7.01e-01 7.95e-01h 1
23 5.2185608e+08 6.23e+04 8.88e+01 -1.0 3.63e+06 - 4.00e-01 3.90e-02h 1
24 5.2185570e+08 6.21e+04 8.86e+01 -1.0 8.51e+06 - 1.25e-02 2.67e-03h 1
25 5.2206276e+08 5.56e+04 7.84e+01 -1.0 2.95e+06 - 7.42e-04 1.05e-01h 1
26 5.2390888e+08 1.07e+05 2.46e+01 -1.0 2.80e+06 - 5.87e-01 1.00e+00h 1
27 5.2390794e+08 9.48e+04 2.43e-01 -1.0 1.95e+06 - 9.91e-01 1.00e+00h 1
28 5.2390789e+08 1.37e+03 1.02e-04 -1.0 1.61e+05 - 1.00e+00 1.00e+00h 1
29 5.2386532e+08 9.67e+04 5.59e+00 -1.7 1.93e+06 - 8.19e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.2386534e+08 2.11e+05 6.93e-02 -1.7 3.34e+06 - 1.00e+00 8.80e-01h 1
31 5.2386562e+08 2.89e+04 2.43e-03 -1.7 1.00e+06 - 1.00e+00 1.00e+00h 1
32 5.2386555e+08 5.44e+02 3.69e-05 -1.7 1.22e+05 - 1.00e+00 1.00e+00h 1
33 5.2385784e+08 3.15e+04 7.82e-01 -2.5 1.37e+06 - 9.78e-01 8.60e-01f 1
34 5.2385679e+08 2.42e+02 6.24e-05 -2.5 9.30e+04 - 1.00e+00 1.00e+00h 1
35 5.2385678e+08 1.66e+01 1.37e-06 -2.5 2.33e+04 - 1.00e+00 1.00e+00h 1
36 5.2385555e+08 2.56e+02 7.57e-02 -3.8 1.17e+05 - 1.00e+00 9.26e-01h 1
37 5.2385546e+08 3.01e-01 1.85e-07 -3.8 3.35e+03 - 1.00e+00 1.00e+00h 1
38 5.2385539e+08 6.37e-01 1.75e-07 -5.7 5.44e+03 - 1.00e+00 1.00e+00h 1
39 5.2385539e+08 1.92e-05 1.85e-11 -5.7 2.79e+01 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.2385538e+08 9.46e-05 2.61e-11 -8.6 6.63e+01 - 1.00e+00 1.00e+00h 1
41 5.2385538e+08 2.01e-07 1.33e-12 -9.0 5.32e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 41
(scaled) (unscaled)
Objective...............: 5.2385538457580835e+04 5.2385538457580835e+08
Dual infeasibility......: 1.3255949912152969e-12 1.3255949912152969e-08
Constraint violation....: 2.5611370801925659e-09 2.0116567611694336e-07
Complementarity.........: 9.1130528740187030e-10 9.1130528740187033e-06
Overall NLP error.......: 2.5611370801925659e-09 9.1130528740187033e-06
Number of objective function evaluations = 42
Number of objective gradient evaluations = 42
Number of equality constraint evaluations = 42
Number of inequality constraint evaluations = 42
Number of equality constraint Jacobian evaluations = 42
Number of inequality constraint Jacobian evaluations = 42
Number of Lagrangian Hessian evaluations = 41
Total CPU secs in IPOPT (w/o function evaluations) = 2.731
Total CPU secs in NLP function evaluations = 55.675
EXIT: Optimal Solution Found.
Implemented Power (MPC) 288
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 2413.10
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 741.06
Simulating time_step 2020-07-10 05:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.2404538e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.2403659e+08 1.00e+05 9.90e+01 -1.0 1.21e+06 - 4.89e-04 4.48e-04h 1
2 5.2430221e+08 9.98e+04 9.99e+01 -1.0 3.99e+05 - 4.86e-04 1.82e-03h 1
3 5.2488697e+08 9.94e+04 9.99e+01 -1.0 2.15e+05 - 2.27e-03 3.49e-03h 1
4 5.2661533e+08 9.84e+04 9.97e+01 -1.0 1.49e+05 - 5.93e-03 9.83e-03h 1
5 5.3214366e+08 9.53e+04 9.51e+01 -1.0 1.23e+05 - 7.67e-01 3.16e-02h 1
6 7.0099770e+08 7.53e+02 6.04e+01 -1.0 3.46e+05 - 4.83e-02 1.00e+00h 1
7 7.0013878e+08 1.46e+02 5.32e+00 -1.0 2.80e+05 - 9.90e-01 8.06e-01f 1
8 6.9778060e+08 1.43e+02 5.85e+01 -1.0 2.54e+07 - 5.87e-02 2.51e-02f 1
9 6.8827799e+08 1.10e+03 2.54e+02 -1.0 2.73e+07 - 2.29e-01 9.99e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.8777020e+08 1.09e+03 4.44e+02 -1.0 3.46e+07 - 1.68e-01 4.65e-03f 1
11 6.7699163e+08 2.66e+03 9.96e+02 -1.0 4.07e+07 - 7.04e-01 8.45e-02f 1
12 6.7298718e+08 2.63e+03 9.72e+02 -1.0 1.16e+08 - 4.97e-02 1.15e-02f 1
13 6.6605826e+08 3.00e+03 9.64e+02 -1.0 1.24e+08 - 2.76e-01 2.22e-02f 1
14 6.1725555e+08 8.54e+04 8.39e+02 -1.0 1.90e+08 - 5.90e-02 1.20e-01f 1
15 6.1655147e+08 8.52e+04 8.73e+02 -1.0 1.98e+08 - 2.94e-01 1.63e-03f 1
16 6.0597937e+08 8.37e+04 8.53e+02 -1.0 3.01e+08 - 3.43e-02 1.83e-02f 1
17 6.0106879e+08 8.28e+04 8.34e+02 -1.0 3.05e+08 - 5.28e-02 1.07e-02f 1
18 5.9424061e+08 8.15e+04 8.12e+02 -1.0 3.03e+08 - 5.47e-02 1.54e-02f 1
19 5.8408661e+08 7.93e+04 7.81e+02 -1.0 3.35e+08 - 6.89e-02 2.83e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.6442944e+08 1.05e+05 7.44e+02 -1.0 3.78e+08 - 4.42e-02 4.62e-02f 1
21 5.6370484e+08 1.05e+05 7.30e+02 -1.0 3.78e+08 - 1.72e-02 1.68e-03f 1
22 5.5899543e+08 1.04e+05 5.50e+02 -1.0 3.63e+08 - 3.80e-01 1.24e-02f 1
23 5.4921801e+08 1.28e+05 5.47e+02 -1.0 9.27e+08 - 1.15e-02 1.96e-02f 1
24 5.4911906e+08 1.28e+05 2.74e+02 -1.0 5.25e+07 - 6.81e-01 3.47e-03f 1
25 5.4904124e+08 3.25e+04 1.04e+02 -1.0 1.71e+05 - 8.72e-01 7.46e-01h 1
26 5.4899830e+08 1.18e+04 4.04e+01 -1.0 6.33e+05 - 6.83e-02 1.00e+00h 1
27 5.4472783e+08 1.59e+08 5.86e+01 -1.0 6.55e+07 - 2.88e-03 6.67e-01f 1
28 5.4468631e+08 1.53e+08 5.38e+01 -1.0 1.31e+07 - 7.37e-01 3.61e-02h 1
29 5.4466379e+08 5.11e+07 1.91e+01 -1.0 9.92e+06 - 6.59e-01 6.62e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.4462277e+08 4.04e+07 1.94e+01 -1.0 2.34e+07 - 6.16e-01 2.08e-01h 1
31 5.4460230e+08 3.01e+07 2.61e+01 -1.0 4.16e+07 - 8.65e-01 2.55e-01h 1
32 5.4460421e+08 7.00e+05 3.63e-01 -1.0 5.90e+06 - 9.90e-01 1.00e+00h 1
33 5.4460108e+08 1.38e+06 1.21e+00 -1.0 1.84e+07 - 1.00e+00 3.95e-01h 2
34 5.4459778e+08 3.32e+04 1.03e-03 -1.0 7.09e+05 - 1.00e+00 1.00e+00h 1
35 5.4459768e+08 1.12e+03 1.06e-04 -1.0 2.10e+05 - 1.00e+00 1.00e+00h 1
36 5.4455913e+08 8.38e+05 2.51e+00 -2.5 1.11e+07 - 6.79e-01 6.11e-01f 1
37 5.4455087e+08 5.42e+05 8.77e+00 -2.5 4.44e+06 - 1.00e+00 3.93e-01h 1
38 5.4454050e+08 2.26e+03 8.39e-04 -2.5 1.82e+05 - 1.00e+00 1.00e+00h 1
39 5.4454049e+08 1.38e+01 2.20e-06 -2.5 2.95e+04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.4453921e+08 3.59e+01 3.34e-02 -3.8 4.72e+04 - 1.00e+00 9.67e-01h 1
41 5.4453917e+08 8.09e-02 3.73e-08 -3.8 1.96e+03 - 1.00e+00 1.00e+00h 1
42 5.4453910e+08 8.46e-02 7.49e-08 -5.7 2.26e+03 - 1.00e+00 1.00e+00h 1
43 5.4453910e+08 1.83e-06 1.85e-11 -5.7 9.86e+00 - 1.00e+00 1.00e+00h 1
44 5.4453910e+08 1.27e-05 1.12e-11 -8.6 2.77e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 44
(scaled) (unscaled)
Objective...............: 5.4453910045071447e+04 5.4453910045071447e+08
Dual infeasibility......: 1.1150661952860879e-11 1.1150661952860879e-07
Constraint violation....: 2.9806550433775850e-09 1.2684613466262817e-05
Complementarity.........: 2.5739278766992930e-09 2.5739278766992931e-05
Overall NLP error.......: 2.9806550433775850e-09 2.5739278766992931e-05
Number of objective function evaluations = 50
Number of objective gradient evaluations = 45
Number of equality constraint evaluations = 50
Number of inequality constraint evaluations = 50
Number of equality constraint Jacobian evaluations = 45
Number of inequality constraint Jacobian evaluations = 45
Number of Lagrangian Hessian evaluations = 44
Total CPU secs in IPOPT (w/o function evaluations) = 2.723
Total CPU secs in NLP function evaluations = 66.957
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 1257.53
Renewables curtailment reported at t=1 - total= 84.90
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 76.30
Simulating time_step 2020-07-10 06:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.4473910e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.4473121e+08 1.00e+05 9.90e+01 -1.0 1.21e+06 - 4.89e-04 4.47e-04h 1
2 5.4501480e+08 9.98e+04 9.99e+01 -1.0 4.10e+05 - 4.86e-04 1.82e-03h 1
3 5.4565513e+08 9.94e+04 9.99e+01 -1.0 2.15e+05 - 2.26e-03 3.49e-03h 1
4 5.4861240e+08 9.79e+04 1.00e+02 -1.0 1.50e+05 - 5.93e-03 1.55e-02h 1
5 5.6382729e+08 9.00e+04 1.01e+02 -1.0 1.23e+05 - 3.79e-02 8.09e-02h 1
6 5.7656531e+08 8.33e+04 8.25e+01 -1.0 1.18e+05 - 2.53e-01 7.38e-02h 1
7 7.3259571e+08 2.02e+03 1.25e+02 -1.0 1.26e+05 - 9.73e-02 9.76e-01h 1
8 7.3353147e+08 1.48e+03 3.84e+01 -1.0 9.69e+04 - 9.90e-01 2.68e-01h 1
9 7.3242441e+08 1.41e+03 4.20e+01 -1.0 8.52e+06 - 4.84e-02 4.42e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.2036342e+08 2.82e+03 4.31e+02 -1.0 9.70e+06 - 1.65e-01 4.69e-01f 1
11 7.1341877e+08 3.03e+03 5.35e+01 -1.0 1.14e+07 - 4.46e-01 2.12e-01f 1
12 7.1329776e+08 3.02e+03 2.80e+02 -1.0 1.63e+07 - 5.23e-01 2.24e-03f 1
13 7.0982552e+08 2.91e+03 4.08e+02 -1.0 2.97e+07 - 6.66e-01 3.60e-02f 1
14 7.0141056e+08 3.28e+03 3.95e+02 -1.0 1.01e+08 - 6.59e-02 3.21e-02f 1
15 6.9091311e+08 6.57e+03 3.78e+02 -1.0 1.11e+08 - 2.77e-01 4.18e-02f 1
16 6.4840615e+08 6.20e+04 3.35e+02 -1.0 1.68e+08 - 9.99e-02 1.12e-01f 1
17 6.4772515e+08 6.19e+04 3.51e+02 -1.0 1.83e+08 - 3.27e-01 1.65e-03f 1
18 6.3759962e+08 6.08e+04 4.58e+02 -1.0 2.97e+08 - 1.18e-01 1.84e-02f 1
19 6.2699638e+08 6.10e+04 4.48e+02 -1.0 2.94e+08 - 2.10e-02 2.07e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.2230066e+08 6.08e+04 4.46e+02 -1.0 2.96e+08 - 1.73e-02 1.06e-02f 1
21 5.9098182e+08 1.21e+05 4.85e+02 -1.0 3.03e+08 - 2.68e-01 6.92e-02f 1
22 5.8950623e+08 1.20e+05 4.87e+02 -1.0 4.51e+08 - 4.34e-02 3.00e-03f 1
23 5.8588851e+08 1.19e+05 4.58e+02 -1.0 4.03e+08 - 6.44e-02 1.38e-02f 1
24 5.8571083e+08 1.16e+05 6.27e+02 -1.0 1.62e+07 - 7.40e-01 2.12e-02f 1
25 5.8550659e+08 6.47e+05 1.56e+02 -1.0 4.86e+06 - 4.54e-01 9.46e-01h 1
26 5.8461565e+08 2.78e+06 7.17e+01 -1.0 9.75e+06 - 6.61e-01 1.00e+00f 1
27 5.8121112e+08 4.05e+07 4.79e+01 -1.0 3.69e+07 - 3.29e-01 1.00e+00f 1
28 5.7741386e+08 4.04e+07 3.24e+01 -1.0 5.80e+07 - 3.32e-01 7.35e-01f 1
29 5.7736264e+08 4.00e+07 3.23e+01 -1.0 4.48e+07 - 4.64e-03 9.76e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.7317221e+08 1.60e+08 6.81e+01 -1.0 1.53e+09 - 1.47e-04 2.87e-02f 1
31 5.7312351e+08 1.60e+08 6.47e+01 -1.0 2.07e+08 - 2.01e-01 2.18e-03h 1
32 5.7306525e+08 1.56e+08 6.35e+01 -1.0 3.21e+07 - 6.69e-01 2.08e-02h 1
33 5.7285317e+08 5.86e+07 2.81e+01 -1.0 3.25e+07 - 6.58e-01 6.19e-01h 1
34 5.7274848e+08 4.31e+07 2.29e+01 -1.0 4.86e+07 - 8.49e-01 2.64e-01h 1
35 5.7276768e+08 3.58e+07 1.47e+04 -1.0 1.84e+05 -4.0 3.35e-02 1.70e-01h 1
36 5.7277689e+08 3.53e+07 1.43e+04 -1.0 5.40e+06 - 1.22e-02 1.53e-02h 1
37 5.7286050e+08 1.02e+07 2.58e+04 -1.0 1.50e+05 -4.5 3.97e-03 7.11e-01h 1
38 5.7290805e+08 3.75e+03 2.54e+04 -1.0 4.28e+04 -5.0 8.10e-01 1.00e+00h 1
39 5.7290464e+08 1.20e-01 9.16e+00 -1.0 5.37e+01 -5.4 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.7290430e+08 7.35e-06 5.61e-03 -1.0 2.58e+01 -5.9 1.00e+00 1.00e+00f 1
41 5.7281821e+08 2.80e+03 5.28e+01 -2.5 1.43e+07 - 7.67e-01 3.27e-02f 1
42 5.7270701e+08 5.66e+05 3.92e+01 -2.5 1.10e+07 - 9.97e-01 5.33e-01f 1
43 5.7268860e+08 5.82e+05 3.60e+01 -2.5 2.05e+07 - 1.00e+00 1.61e-01h 1
44 5.7261706e+08 5.78e+06 1.04e+02 -2.5 2.16e+07 - 1.00e+00 9.80e-01h 1
45 5.7261793e+08 5.65e+06 1.04e+02 -2.5 1.69e+05 -6.4 1.63e-03 2.15e-02h 1
46 5.7261730e+08 5.63e+06 1.08e+02 -2.5 1.07e+06 - 5.88e-01 4.74e-03h 1
47 5.7261052e+08 6.22e+05 1.97e+02 -2.5 7.39e+05 - 1.00e+00 8.85e-01h 1
48 5.7260822e+08 2.07e+05 7.27e+01 -2.5 1.11e+06 - 1.00e+00 6.68e-01h 1
49 5.7260418e+08 2.58e+04 1.54e+01 -2.5 1.55e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.7260434e+08 4.17e-01 4.67e+00 -2.5 8.15e+02 -6.9 2.39e-01 1.00e+00h 1
51 5.7260427e+08 4.07e-01 6.12e+00 -2.5 6.15e+05 - 1.00e+00 1.77e-03f 2
52 5.7260266e+08 3.91e+03 5.48e+00 -2.5 6.05e+05 - 1.00e+00 1.00e+00f 1
53 5.7260267e+08 6.82e-03 2.13e-04 -2.5 1.53e+02 -7.3 1.00e+00 1.00e+00h 1
54 5.7258732e+08 4.12e+05 3.16e+00 -3.8 1.07e+07 - 9.32e-01 5.20e-01f 1
55 5.7254787e+08 2.65e+06 4.80e+00 -3.8 2.67e+07 - 1.00e+00 5.01e-01h 1
56 5.7247514e+08 1.28e+07 3.70e+00 -3.8 1.62e+08 - 1.46e-03 1.99e-01h 1
57 5.7247508e+08 1.28e+07 5.38e+01 -3.8 8.04e+05 -7.8 5.78e-04 4.61e-03h 1
58 5.7247506e+08 1.28e+07 6.13e+01 -3.8 2.64e+06 - 1.00e+00 1.92e-04h 1
59 5.7247095e+08 1.09e+07 5.25e+01 -3.8 2.09e+06 - 1.00e+00 1.47e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.7246937e+08 1.02e+07 4.90e+01 -3.8 1.61e+06 - 1.00e+00 6.68e-02h 1
61 5.7245272e+08 2.16e+06 2.81e+01 -3.8 8.50e+05 - 1.00e+00 7.83e-01h 1
62 5.7245242e+08 2.03e+06 2.64e+01 -3.8 2.41e+05 - 1.00e+00 6.14e-02h 1
63 5.7244802e+08 3.14e+03 1.98e+00 -3.8 1.81e+05 - 1.00e+00 1.00e+00h 1
64 5.7244802e+08 9.58e-02 1.86e-06 -3.8 1.24e+03 - 1.00e+00 1.00e+00h 1
65 5.7244794e+08 2.57e-01 1.33e-07 -5.7 3.41e+03 - 1.00e+00 1.00e+00h 1
66 5.7244794e+08 2.02e-05 1.85e-11 -5.7 2.81e+01 - 1.00e+00 1.00e+00h 1
67 5.7244794e+08 3.95e-05 2.09e-11 -8.6 4.23e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 67
(scaled) (unscaled)
Objective...............: 5.7244794325061695e+04 5.7244794325061691e+08
Dual infeasibility......: 2.0907344754192677e-11 2.0907344754192677e-07
Constraint violation....: 9.5419805245017787e-09 3.9484351873397827e-05
Complementarity.........: 2.6259105279675339e-09 2.6259105279675339e-05
Overall NLP error.......: 9.5419805245017787e-09 3.9484351873397827e-05
Number of objective function evaluations = 70
Number of objective gradient evaluations = 68
Number of equality constraint evaluations = 70
Number of inequality constraint evaluations = 70
Number of equality constraint Jacobian evaluations = 68
Number of inequality constraint Jacobian evaluations = 68
Number of Lagrangian Hessian evaluations = 67
Total CPU secs in IPOPT (w/o function evaluations) = 3.676
Total CPU secs in NLP function evaluations = 94.456
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 1314.64
Renewables curtailment reported at t=1 - total= 84.92
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 5.00
Simulating time_step 2020-07-10 07:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.7264794e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.7264002e+08 1.00e+05 9.90e+01 -1.0 1.12e+06 - 4.89e-04 4.48e-04h 1
2 5.7288591e+08 9.98e+04 9.99e+01 -1.0 3.99e+05 - 4.86e-04 1.82e-03h 1
3 5.7344783e+08 9.94e+04 9.99e+01 -1.0 2.15e+05 - 2.26e-03 3.47e-03h 1
4 5.7610113e+08 9.79e+04 1.00e+02 -1.0 1.50e+05 - 5.91e-03 1.55e-02h 1
5 5.9003054e+08 8.98e+04 9.34e+01 -1.0 1.23e+05 - 7.58e-02 8.25e-02h 1
6 6.0904309e+08 7.88e+04 7.80e+01 -1.0 1.19e+05 - 1.48e-01 1.23e-01h 1
7 7.3665329e+08 4.67e+03 1.23e+02 -1.0 1.17e+05 - 1.75e-01 9.41e-01h 1
8 7.3975053e+08 2.78e+03 2.27e+01 -1.0 1.04e+05 - 9.89e-01 4.05e-01h 1
9 7.3883249e+08 2.68e+03 3.03e+01 -1.0 8.17e+06 - 4.32e-02 3.62e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3590418e+08 2.38e+03 1.19e+01 -1.0 9.86e+06 - 8.67e-02 1.12e-01f 1
11 7.2578440e+08 3.87e+03 1.45e+02 -1.0 1.08e+07 - 4.55e-01 3.41e-01f 1
12 7.1719945e+08 5.44e+03 2.01e+02 -1.0 1.94e+07 - 2.56e-01 1.45e-01f 1
13 7.1703485e+08 5.43e+03 5.82e+02 -1.0 2.24e+07 - 7.88e-01 2.36e-03f 1
14 7.1112256e+08 5.29e+03 4.81e+02 -1.0 8.77e+07 - 2.98e-01 2.57e-02f 1
15 7.0166908e+08 5.66e+03 4.61e+02 -1.0 1.35e+08 - 6.59e-02 3.57e-02f 1
16 6.7341866e+08 4.16e+04 4.25e+02 -1.0 1.49e+08 - 4.32e-03 1.01e-01f 1
17 6.6223862e+08 4.56e+04 3.81e+02 -1.0 1.54e+08 - 2.97e-01 3.88e-02f 1
18 6.6144684e+08 4.55e+04 3.78e+02 -1.0 2.21e+08 - 8.57e-02 2.32e-03f 1
19 6.5515900e+08 4.47e+04 4.41e+02 -1.0 2.26e+08 - 1.52e-01 1.87e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.3337380e+08 7.25e+04 3.93e+02 -1.0 2.83e+08 - 1.08e-02 5.53e-02f 1
21 6.1384667e+08 9.88e+04 3.86e+02 -1.0 2.92e+08 - 8.99e-02 4.59e-02f 1
22 6.1324993e+08 9.86e+04 4.91e+02 -1.0 3.03e+08 - 4.40e-01 1.68e-03f 1
23 6.0935386e+08 9.67e+04 3.02e+02 -1.0 2.74e+08 - 3.90e-01 1.98e-02f 1
24 6.0922460e+08 7.02e+04 4.18e+02 -1.0 2.14e+06 - 6.79e-01 2.73e-01h 1
25 6.0894485e+08 4.81e+05 1.50e+02 -1.0 7.35e+06 - 3.02e-01 5.38e-01h 1
26 6.0830212e+08 1.98e+06 4.78e+01 -1.0 1.17e+07 - 4.12e-01 6.76e-01f 1
27 6.0709291e+08 5.39e+06 8.95e+01 -1.0 2.25e+07 - 7.73e-02 5.72e-01f 1
28 6.0448148e+08 1.67e+07 5.54e+01 -1.0 2.60e+07 - 5.70e-01 1.00e+00f 1
29 6.0027541e+08 4.12e+07 5.43e+01 -1.0 6.22e+07 - 3.48e-02 6.59e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0022737e+08 4.07e+07 4.96e+01 -1.0 4.02e+07 - 8.40e-02 1.05e-02h 1
31 5.9563365e+08 1.68e+08 6.58e+01 -1.0 1.37e+08 - 1.60e-03 3.22e-01f 1
32 5.9556107e+08 1.66e+08 6.21e+01 -1.0 5.41e+07 - 4.88e-01 8.53e-03h 1
33 5.9547250e+08 1.57e+08 5.88e+01 -1.0 3.33e+07 - 5.86e-01 5.33e-02h 1
34 5.9529766e+08 5.77e+07 2.47e+01 -1.0 1.92e+07 - 6.92e-01 6.27e-01h 1
35 5.9517445e+08 3.71e+07 1.67e+01 -1.0 4.00e+07 - 6.99e-01 3.56e-01h 1
36 5.9519424e+08 2.86e+07 1.06e+04 -1.0 1.35e+05 -4.0 4.61e-02 2.27e-01h 1
37 5.9522527e+08 2.71e+07 1.00e+04 -1.0 4.13e+06 - 1.46e-02 5.29e-02h 1
38 5.9531207e+08 2.54e+04 4.80e+03 -1.0 9.84e+04 -4.5 7.50e-03 1.00e+00h 1
39 5.9532083e+08 5.59e+00 6.17e+02 -1.0 2.29e+02 -5.0 9.92e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.9531816e+08 1.62e-05 2.74e-02 -1.0 8.20e+00 -5.4 1.00e+00 1.00e+00f 1
41 5.9524780e+08 4.56e+03 3.86e+01 -2.5 1.76e+07 - 5.55e-01 2.63e-02f 1
42 5.9510522e+08 6.74e+05 5.75e+01 -2.5 1.42e+07 - 9.32e-01 5.63e-01f 1
43 5.9507902e+08 7.91e+05 5.31e+01 -2.5 3.25e+07 - 5.09e-01 1.42e-01h 1
44 5.9501668e+08 1.88e+06 5.42e+01 -2.5 3.96e+07 - 1.00e+00 2.90e-01h 1
45 5.9499669e+08 2.01e+06 5.14e+01 -2.5 6.54e+07 - 1.00e+00 8.37e-02h 1
46 5.9495220e+08 2.95e+06 4.94e+01 -2.5 6.45e+07 - 1.00e+00 1.83e-01h 1
47 5.9494829e+08 2.50e+06 4.19e+01 -2.5 1.22e+07 - 1.00e+00 1.53e-01h 1
48 5.9493936e+08 1.53e+06 2.58e+01 -2.5 1.20e+07 - 1.00e+00 3.87e-01h 1
49 5.9493075e+08 1.37e+04 4.01e-01 -2.5 2.08e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.9493070e+08 4.14e+01 1.29e-05 -2.5 5.75e+04 - 1.00e+00 1.00e+00h 1
51 5.9492941e+08 3.01e+01 2.71e-02 -3.8 3.17e+04 - 1.00e+00 9.75e-01h 1
52 5.9492938e+08 1.32e-01 5.33e-08 -3.8 3.01e+03 - 1.00e+00 1.00e+00h 1
53 5.9492931e+08 6.92e-02 6.68e-08 -5.7 1.51e+03 - 1.00e+00 1.00e+00h 1
54 5.9492931e+08 6.33e-06 6.91e-12 -8.6 1.52e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 54
(scaled) (unscaled)
Objective...............: 5.9492930709503344e+04 5.9492930709503341e+08
Dual infeasibility......: 6.9072684206793265e-12 6.9072684206793265e-08
Constraint violation....: 3.7252902984619141e-09 6.3292682170867920e-06
Complementarity.........: 2.5546388792280281e-09 2.5546388792280281e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5546388792280281e-05
Number of objective function evaluations = 55
Number of objective gradient evaluations = 55
Number of equality constraint evaluations = 55
Number of inequality constraint evaluations = 55
Number of equality constraint Jacobian evaluations = 55
Number of inequality constraint Jacobian evaluations = 55
Number of Lagrangian Hessian evaluations = 54
Total CPU secs in IPOPT (w/o function evaluations) = 3.147
Total CPU secs in NLP function evaluations = 73.776
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 1314.64
Renewables curtailment reported at t=1 - total= 35.57
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 0.00
Simulating time_step 2020-07-10 08:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.9512931e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.9512137e+08 1.00e+05 9.90e+01 -1.0 1.21e+06 - 4.89e-04 4.47e-04h 1
2 5.9533760e+08 9.98e+04 9.98e+01 -1.0 3.76e+05 - 4.86e-04 1.82e-03h 1
3 5.9583436e+08 9.94e+04 9.99e+01 -1.0 2.15e+05 - 2.26e-03 3.47e-03h 1
4 5.9823063e+08 9.79e+04 1.00e+02 -1.0 1.50e+05 - 5.92e-03 1.55e-02h 1
5 6.1082248e+08 8.98e+04 9.40e+01 -1.0 1.23e+05 - 7.30e-02 8.27e-02h 1
6 6.2747299e+08 7.91e+04 9.92e+01 -1.0 1.19e+05 - 2.92e-02 1.19e-01h 1
7 6.8681455e+08 4.09e+04 7.44e+01 -1.0 1.11e+05 - 3.52e-01 4.82e-01h 1
8 7.2202806e+08 1.82e+04 1.80e+01 -1.0 1.20e+05 - 8.13e-01 5.56e-01h 1
9 7.3458941e+08 9.34e+03 9.97e+00 -1.0 6.15e+05 - 9.86e-01 4.86e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3237907e+08 9.18e+03 1.57e+01 -1.0 3.61e+07 - 2.31e-02 1.92e-02f 1
11 7.2805298e+08 8.91e+03 1.98e+01 -1.0 4.16e+07 - 4.12e-02 3.80e-02f 1
12 7.1582214e+08 8.67e+03 3.92e+02 -1.0 4.46e+07 - 3.61e-01 1.04e-01f 1
13 7.1550488e+08 8.65e+03 5.23e+02 -1.0 5.34e+07 - 1.68e-01 2.07e-03f 1
14 7.1273226e+08 8.48e+03 7.85e+02 -1.0 5.88e+07 - 4.90e-01 2.44e-02f 1
15 7.0343636e+08 1.04e+04 6.88e+02 -1.0 1.30e+08 - 1.85e-01 5.25e-02f 1
16 6.7829156e+08 6.69e+04 6.46e+02 -1.0 1.71e+08 - 2.79e-03 1.12e-01f 1
17 6.7795659e+08 6.68e+04 6.16e+02 -1.0 1.41e+08 - 2.61e-01 1.55e-03f 1
18 6.4274105e+08 2.43e+05 5.10e+02 -1.0 2.11e+08 - 2.34e-02 1.60e-01f 1
19 6.4236222e+08 2.42e+05 5.07e+02 -1.0 2.17e+08 - 1.69e-01 1.66e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.4116270e+08 2.40e+05 4.96e+02 -1.0 2.19e+08 - 1.55e-02 7.53e-03f 1
21 6.3818421e+08 2.35e+05 4.75e+02 -1.0 2.55e+08 - 3.26e-02 2.26e-02f 1
22 6.3064541e+08 2.22e+05 4.19e+02 -1.0 2.71e+08 - 8.91e-02 5.38e-02f 1
23 6.3057298e+08 2.22e+05 8.77e+01 -1.0 1.06e+08 - 5.85e-01 1.40e-03f 1
24 6.3342005e+08 9.89e+04 3.02e+02 -1.0 3.10e+06 - 1.10e-01 8.33e-01h 1
25 6.3364313e+08 6.54e+04 1.03e+02 -1.0 1.60e+06 - 6.69e-01 7.16e-01h 1
26 6.3339250e+08 1.03e+05 1.05e+02 -1.0 5.31e+06 - 2.52e-02 2.67e-01f 1
27 6.3191110e+08 1.59e+06 3.62e+01 -1.0 8.75e+06 - 6.93e-01 1.00e+00f 1
28 6.2709701e+08 1.32e+07 3.54e+01 -1.0 2.53e+07 - 8.53e-02 8.32e-01f 1
29 6.2703412e+08 1.30e+07 2.27e+01 -1.0 3.36e+07 - 3.35e-01 1.06e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.2676081e+08 1.25e+07 2.27e+01 -1.0 5.15e+07 - 5.75e-03 4.82e-02f 1
31 6.2453978e+08 1.18e+07 1.98e+01 -1.0 5.06e+07 - 1.30e-01 2.48e-01f 1
32 6.2136131e+08 5.36e+07 1.85e+01 -1.0 2.97e+08 - 4.56e-02 1.05e-01f 1
33 6.2132172e+08 5.34e+07 1.38e+01 -1.0 1.44e+08 - 2.96e-01 2.22e-03h 1
34 6.1705013e+08 5.54e+07 7.24e+00 -1.0 8.67e+07 - 4.61e-01 5.33e-01f 1
35 6.1700652e+08 5.49e+07 1.83e+01 -1.0 5.48e+07 - 6.42e-01 8.71e-03h 1
36 6.1686215e+08 3.56e+07 3.11e+01 -1.0 4.01e+07 - 8.72e-01 3.52e-01h 1
37 6.1678644e+08 2.89e+07 2.77e+01 -1.0 1.03e+08 - 4.85e-01 1.89e-01h 1
38 6.1675424e+08 2.74e+07 2.71e+01 -1.0 3.95e+08 - 2.50e-01 5.06e-02h 1
39 6.1673226e+08 1.31e+07 1.39e+01 -1.0 2.96e+07 - 7.37e-01 5.20e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.1675018e+08 1.11e+07 2.16e+04 -1.0 1.89e+05 -4.0 3.25e-02 1.55e-01h 1
41 6.1675151e+08 1.08e+07 2.07e+04 -1.0 1.51e+06 - 3.58e-02 2.55e-02h 1
42 6.1684440e+08 2.83e+06 5.54e+04 -1.0 1.55e+05 -4.5 5.95e-03 7.38e-01h 1
43 6.1688594e+08 1.82e+03 4.20e+04 -1.0 4.02e+04 -5.0 8.30e-01 1.00e+00h 1
44 6.1688409e+08 3.43e-01 4.79e+00 -1.0 5.59e+01 -5.4 1.00e+00 1.00e+00h 1
45 6.1688385e+08 8.48e-06 1.56e-03 -1.0 2.61e+01 -5.9 1.00e+00 1.00e+00f 1
46 6.1678027e+08 9.12e+02 4.75e+01 -2.5 8.17e+06 - 6.12e-01 3.57e-02f 1
47 6.1669263e+08 1.39e+05 3.33e+01 -2.5 6.22e+06 - 9.82e-01 5.73e-01f 1
48 6.1667054e+08 6.17e+05 3.11e+01 -2.5 1.38e+07 - 2.97e-01 5.16e-01h 1
49 6.1664745e+08 2.36e+06 3.21e+01 -2.5 6.09e+07 - 9.18e-01 2.17e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.1657886e+08 1.04e+07 4.29e+01 -2.5 9.11e+07 - 8.07e-01 3.18e-01h 1
51 6.1657843e+08 1.04e+07 4.26e+01 -2.5 1.82e+07 - 2.11e-01 5.12e-03h 1
52 6.1656629e+08 8.93e+06 3.68e+01 -2.5 4.90e+07 - 1.06e-02 1.39e-01h 1
53 6.1656301e+08 7.70e+06 3.17e+01 -2.5 8.68e+05 - 1.00e+00 1.38e-01h 1
54 6.1654267e+08 4.18e+04 1.36e+00 -2.5 6.65e+05 - 1.00e+00 1.00e+00h 1
55 6.1654263e+08 1.71e+01 1.24e-05 -2.5 1.65e+04 - 1.00e+00 1.00e+00h 1
56 6.1654144e+08 1.33e+02 1.22e-01 -3.8 7.42e+04 - 1.00e+00 8.95e-01f 1
57 6.1654131e+08 2.47e-01 2.18e-07 -3.8 3.88e+03 - 1.00e+00 1.00e+00h 1
58 6.1654123e+08 2.77e-01 1.39e-07 -5.7 3.02e+03 - 1.00e+00 1.00e+00h 1
59 6.1654123e+08 2.18e-05 1.85e-11 -5.7 2.92e+01 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.1654123e+08 4.02e-05 2.10e-11 -8.6 3.64e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 60
(scaled) (unscaled)
Objective...............: 6.1654123145987098e+04 6.1654123145987093e+08
Dual infeasibility......: 2.1009164319816016e-11 2.1009164319816016e-07
Constraint violation....: 9.7265362381492516e-09 4.0248036384582520e-05
Complementarity.........: 2.6270801379616555e-09 2.6270801379616554e-05
Overall NLP error.......: 9.7265362381492516e-09 4.0248036384582520e-05
Number of objective function evaluations = 61
Number of objective gradient evaluations = 61
Number of equality constraint evaluations = 61
Number of inequality constraint evaluations = 61
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 60
Total CPU secs in IPOPT (w/o function evaluations) = 3.395
Total CPU secs in NLP function evaluations = 79.649
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 2457.98
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 69.42
Simulating time_step 2020-07-10 09:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.1674123e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.1673331e+08 1.00e+05 9.90e+01 -1.0 1.12e+06 - 4.89e-04 4.48e-04h 1
2 6.1696309e+08 9.98e+04 9.98e+01 -1.0 3.76e+05 - 4.86e-04 1.76e-03h 1
3 6.1751399e+08 9.94e+04 9.99e+01 -1.0 2.14e+05 - 2.20e-03 3.47e-03h 1
4 6.1866646e+08 9.88e+04 9.94e+01 -1.0 1.51e+05 - 5.83e-03 6.80e-03h 1
5 6.3519148e+08 8.91e+04 1.07e+02 -1.0 1.24e+05 - 1.44e-02 9.79e-02h 1
6 6.4129126e+08 8.55e+04 9.78e+01 -1.0 1.16e+05 - 6.70e-02 4.02e-02h 1
7 7.2180808e+08 3.84e+04 1.39e+02 -1.0 1.16e+05 - 2.19e-02 5.51e-01h 1
8 7.3111892e+08 3.29e+04 3.26e+01 -1.0 7.82e+04 - 9.79e-01 1.43e-01h 1
9 7.4120329e+08 2.47e+04 2.45e+01 -1.0 3.46e+06 - 4.11e-01 2.48e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.4151751e+08 2.43e+04 6.39e+02 -1.0 5.83e+06 - 4.15e-01 1.70e-02h 1
11 7.4205687e+08 2.11e+04 6.88e+02 -1.0 9.96e+06 - 2.68e-01 1.32e-01h 1
12 7.4206691e+08 2.09e+04 1.08e+03 -1.0 1.35e+07 - 6.16e-01 1.02e-02h 1
13 7.3531608e+08 1.87e+04 9.47e+02 -1.0 3.39e+07 - 1.02e-01 1.22e-01f 1
14 7.3515718e+08 1.87e+04 9.80e+02 -1.0 2.46e+07 - 6.91e-01 3.49e-03f 1
15 7.2947003e+08 1.85e+04 9.01e+02 -1.0 8.95e+07 - 9.49e-02 3.33e-02f 1
16 7.2455654e+08 1.85e+04 7.55e+02 -1.0 1.01e+08 - 2.74e-01 3.11e-02f 1
17 6.9406148e+08 5.77e+04 6.75e+02 -1.0 1.52e+08 - 4.60e-02 1.21e-01f 1
18 6.9363582e+08 5.76e+04 6.71e+02 -1.0 1.66e+08 - 1.93e-02 1.64e-03f 1
19 6.8903079e+08 5.84e+04 6.02e+02 -1.0 1.68e+08 - 3.15e-01 2.14e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.8671666e+08 5.78e+04 5.92e+02 -1.0 2.36e+08 - 5.04e-02 1.02e-02f 1
21 6.5974254e+08 1.71e+05 5.33e+02 -1.0 2.57e+08 - 3.82e-02 1.09e-01f 1
22 6.5942342e+08 1.71e+05 5.24e+02 -1.0 2.76e+08 - 1.47e-01 1.31e-03f 1
23 6.5636731e+08 1.70e+05 5.18e+02 -1.0 2.49e+08 - 1.26e-02 1.29e-02f 1
24 6.5504148e+08 1.69e+05 4.87e+02 -1.0 2.96e+08 - 3.53e-02 9.04e-03f 1
25 6.4902089e+08 1.62e+05 4.23e+02 -1.0 3.12e+08 - 8.70e-02 3.91e-02f 1
26 6.4898056e+08 1.62e+05 1.34e+02 -1.0 5.50e+07 - 3.07e-01 2.50e-03h 1
27 6.5746004e+08 4.32e+04 9.73e+01 -1.0 7.45e+06 - 8.27e-01 9.02e-01h 1
28 6.5732319e+08 6.00e+04 8.55e+01 -1.0 9.54e+06 - 6.61e-01 1.21e-01h 1
29 6.5656211e+08 4.07e+05 7.27e+01 -1.0 2.76e+07 - 1.51e-02 1.50e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.5533950e+08 1.30e+06 5.72e+01 -1.0 3.25e+07 - 2.59e-01 2.13e-01f 1
31 6.5412932e+08 1.75e+06 4.89e+01 -1.0 3.88e+07 - 7.65e-02 1.47e-01f 1
32 6.5386834e+08 1.71e+06 4.74e+01 -1.0 4.43e+07 - 1.47e-01 3.20e-02f 1
33 6.5052761e+08 1.11e+07 3.19e+01 -1.0 5.51e+07 - 5.32e-02 3.45e-01f 1
34 6.5046545e+08 1.10e+07 3.17e+01 -1.0 4.91e+07 - 8.97e-03 4.91e-03f 1
35 6.4807152e+08 1.32e+07 2.44e+01 -1.0 5.55e+07 - 1.14e-01 2.46e-01f 1
36 6.4570916e+08 2.21e+07 2.12e+01 -1.0 1.22e+08 - 1.16e-01 1.40e-01f 1
37 6.4398868e+08 2.48e+07 1.95e+01 -1.0 1.50e+08 - 9.03e-02 8.83e-02f 1
38 6.4396044e+08 2.47e+07 1.94e+01 -1.0 6.74e+07 - 7.86e-02 2.18e-03h 1
39 6.4310065e+08 2.21e+07 1.75e+01 -1.0 7.61e+07 - 2.35e-01 1.05e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.4271914e+08 2.09e+07 3.08e+01 -1.0 7.68e+07 - 5.92e-01 5.51e-02f 1
41 6.4074289e+08 1.65e+07 2.94e+01 -1.0 7.95e+07 - 6.27e-01 2.72e-01f 1
42 6.4072109e+08 1.64e+07 3.55e+01 -1.0 3.35e+07 - 7.28e-01 8.16e-03h 1
43 6.4060286e+08 1.15e+07 3.11e+01 -1.0 6.31e+07 - 7.31e-01 2.98e-01h 1
44 6.4058437e+08 1.37e+07 3.03e+01 -1.0 9.57e+08 - 4.38e-02 3.13e-02H 1
45 6.4052164e+08 1.57e+07 1.83e+01 -1.0 6.15e+07 - 6.68e-01 4.68e-01h 1
46 6.4050112e+08 1.46e+07 1.77e+01 -1.0 6.58e+07 - 5.84e-01 1.10e-01h 1
47 6.4049689e+08 3.92e+05 1.83e-01 -1.0 9.34e+05 - 9.95e-01 1.00e+00h 1
48 6.4049350e+08 2.74e+04 9.83e-03 -1.0 1.62e+06 - 1.00e+00 1.00e+00h 1
49 6.4049346e+08 7.40e+00 9.83e-03 -1.0 1.68e+04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.4045387e+08 6.87e+05 6.27e+00 -2.5 1.11e+07 - 7.29e-01 5.77e-01f 1
51 6.4044537e+08 4.17e+05 1.05e+01 -2.5 1.86e+06 - 1.00e+00 3.97e-01h 1
52 6.4043465e+08 2.21e+04 5.19e-01 -2.5 1.84e+05 - 1.00e+00 9.51e-01h 1
53 6.4043413e+08 4.98e+01 2.04e-05 -2.5 7.37e+04 - 1.00e+00 1.00e+00h 1
54 6.4043286e+08 1.11e+02 2.51e-01 -3.8 1.13e+05 - 7.53e-01 9.74e-01h 1
55 6.4043282e+08 9.13e+01 3.00e-05 -3.8 9.99e+04 - 1.00e+00 1.00e+00h 1
56 6.4043282e+08 1.36e-01 4.37e-08 -3.8 3.88e+03 - 1.00e+00 1.00e+00h 1
57 6.4043275e+08 1.96e+00 1.10e-03 -5.7 1.46e+04 - 9.83e-01 1.00e+00h 1
58 6.4043275e+08 5.31e-04 1.78e-10 -5.7 2.40e+02 - 1.00e+00 1.00e+00h 1
59 6.4043275e+08 3.21e-04 1.03e-10 -8.6 1.87e+02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.4043275e+08 1.19e-06 1.80e-12 -8.6 3.53e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 60
(scaled) (unscaled)
Objective...............: 6.4043274711972786e+04 6.4043274711972785e+08
Dual infeasibility......: 1.8022283337570921e-12 1.8022283337570921e-08
Constraint violation....: 2.5611370801925659e-09 1.1920928955078125e-06
Complementarity.........: 2.5065852939374877e-09 2.5065852939374875e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5065852939374875e-05
Number of objective function evaluations = 62
Number of objective gradient evaluations = 61
Number of equality constraint evaluations = 62
Number of inequality constraint evaluations = 62
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 60
Total CPU secs in IPOPT (w/o function evaluations) = 3.062
Total CPU secs in NLP function evaluations = 84.378
EXIT: Optimal Solution Found.
Implemented Power (MPC) 304
Realized SOC (MPC) 307222
Fixed costs: 41023.55
Variable costs: 5210.50
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 145.80
Simulating time_step 2020-07-10 10:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.4063275e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.4062703e+08 1.00e+05 9.90e+01 -1.0 1.26e+06 - 3.46e-04 3.24e-04h 1
2 6.4088224e+08 9.98e+04 1.00e+02 -1.0 5.39e+05 - 3.82e-04 1.56e-03h 1
3 6.4149633e+08 9.95e+04 1.00e+02 -1.0 2.12e+05 - 1.89e-03 3.14e-03h 1
4 6.4275190e+08 9.89e+04 9.96e+01 -1.0 1.78e+05 - 5.12e-03 6.06e-03h 1
5 7.4976033e+08 4.80e+04 1.65e+02 -1.0 1.42e+05 - 1.23e-02 5.15e-01h 1
6 7.5268039e+08 4.65e+04 1.28e+02 -1.0 8.61e+04 - 1.95e-01 3.04e-02h 1
7 8.4616126e+08 1.84e+03 2.45e+00 -1.0 9.92e+04 - 9.77e-01 9.60e-01h 1
8 8.4597174e+08 1.81e+03 2.46e+01 -1.0 3.36e+06 - 7.69e-02 1.98e-02f 1
9 8.4567583e+08 1.74e+03 8.91e+02 -1.0 3.95e+06 - 5.78e-01 3.64e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 8.3920884e+08 1.85e+03 5.15e+02 -1.0 9.24e+06 - 5.20e-02 2.75e-01f 1
11 8.3910496e+08 1.84e+03 1.00e+03 -1.0 9.74e+06 - 9.06e-01 4.40e-03f 1
12 8.2539923e+08 8.55e+03 9.63e+02 -1.0 9.01e+07 - 3.23e-02 5.56e-02f 1
13 8.2504869e+08 8.54e+03 7.37e+02 -1.0 7.37e+07 - 3.52e-01 1.74e-03f 1
14 8.0685846e+08 1.79e+04 6.57e+02 -1.0 1.23e+08 - 2.27e-01 7.89e-02f 1
15 7.7509342e+08 6.28e+04 6.04e+02 -1.0 1.75e+08 - 3.30e-03 9.77e-02f 1
16 7.7467232e+08 6.27e+04 5.58e+02 -1.0 1.64e+08 - 3.55e-01 1.32e-03f 1
17 7.1941078e+08 2.94e+05 4.93e+02 -1.0 3.15e+08 - 1.68e-02 1.22e-01f 1
18 7.1876799e+08 2.93e+05 4.73e+02 -1.0 3.51e+08 - 1.48e-01 1.36e-03f 1
19 7.1181458e+08 2.95e+05 4.67e+02 -1.0 4.35e+08 - 1.27e-02 1.29e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.1126878e+08 2.94e+05 4.36e+02 -1.0 3.04e+08 - 3.49e-02 2.11e-03f 1
21 7.0655574e+08 2.87e+05 3.97e+02 -1.0 3.26e+08 - 5.53e-02 2.47e-02f 1
22 6.9940890e+08 2.77e+05 3.59e+02 -1.0 3.60e+08 - 6.18e-02 3.47e-02f 1
23 6.9927003e+08 2.76e+05 3.16e+02 -1.0 6.07e+07 - 4.97e-02 2.24e-03f 1
24 6.8881700e+08 3.22e+05 3.32e+02 -1.0 4.15e+08 - 7.32e-03 4.69e-02f 1
25 6.8871235e+08 3.22e+05 2.69e+02 -1.0 2.61e+08 - 3.39e-01 7.50e-04f 1
26 6.8873968e+08 1.56e+05 8.85e+01 -1.0 1.78e+06 - 7.02e-01 5.16e-01h 1
27 6.8826054e+08 1.03e+05 6.48e+01 -1.0 6.23e+06 - 9.35e-02 3.63e-01f 1
28 6.8788457e+08 1.28e+05 5.24e+01 -1.0 6.73e+06 - 5.42e-01 2.46e-01f 1
29 6.8620058e+08 9.10e+05 3.11e+01 -1.0 1.50e+07 - 1.26e-02 4.51e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.8616356e+08 9.01e+05 2.90e+01 -1.0 1.42e+07 - 4.56e-01 9.06e-03h 1
31 6.8459668e+08 1.30e+06 1.63e+01 -1.0 2.84e+07 - 6.88e-02 2.29e-01f 1
32 6.8452014e+08 1.29e+06 2.12e+01 -1.0 2.92e+07 - 1.48e-01 1.15e-02f 1
33 6.7997145e+08 1.48e+07 1.94e+01 -1.0 3.77e+07 - 1.51e-01 5.89e-01f 1
34 6.7990801e+08 1.47e+07 1.13e+01 -1.0 4.83e+07 - 1.96e-01 7.91e-03h 1
35 6.7966495e+08 1.43e+07 1.19e+01 -1.0 5.65e+07 - 3.47e-03 3.30e-02f 1
36 6.7404964e+08 7.42e+07 2.21e+01 -1.0 5.48e+07 - 1.24e-01 5.65e-01f 1
37 6.7408058e+08 6.14e+07 1.56e+04 -1.0 1.36e+05 -4.0 3.98e-02 1.73e-01h 1
38 6.7409496e+08 5.71e+07 1.36e+04 -1.0 2.00e+06 - 1.14e-02 7.00e-02h 1
39 6.7415351e+08 3.66e+07 1.37e+04 -1.0 1.05e+05 -4.5 3.81e-03 3.58e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.7426217e+08 7.51e+04 3.62e+04 -1.0 6.72e+04 -5.0 4.29e-01 1.00e+00h 1
41 6.7426126e+08 3.78e+01 2.31e+02 -1.0 4.10e+02 -5.4 9.90e-01 1.00e+00h 1
42 6.7426108e+08 1.07e-05 5.15e-02 -1.0 2.59e+01 -5.9 9.97e-01 1.00e+00h 1
43 6.7137235e+08 6.57e+06 3.59e+00 -2.5 5.77e+08 - 6.76e-02 2.91e-02f 1
44 6.7112261e+08 6.54e+06 1.23e+01 -2.5 7.46e+08 - 1.27e-01 3.62e-03f 1
45 6.7039309e+08 7.17e+06 1.43e+01 -2.5 4.19e+08 - 5.39e-02 1.91e-02f 1
46 6.7036924e+08 6.92e+06 1.48e+01 -2.5 2.11e+07 - 5.20e-02 3.51e-02h 1
47 6.7030890e+08 6.25e+06 1.60e+01 -2.5 2.55e+07 - 1.41e-01 9.59e-02h 1
48 6.7026444e+08 5.13e+06 4.65e+01 -2.5 1.33e+07 - 8.48e-01 1.79e-01h 1
49 6.7012668e+08 3.83e+06 1.22e+02 -2.5 1.72e+07 - 1.00e+00 8.88e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.7012787e+08 3.72e+06 1.18e+02 -2.5 1.08e+05 -6.4 5.67e-03 2.67e-02h 1
51 6.7012727e+08 3.70e+06 1.17e+02 -2.5 2.02e+06 - 7.38e-01 5.84e-03h 1
52 6.7012115e+08 6.09e+05 1.47e+02 -2.5 1.21e+06 - 6.75e-02 8.29e-01h 1
53 6.7011949e+08 5.43e+05 1.31e+02 -2.5 6.27e+06 - 6.16e-01 1.08e-01h 1
54 6.7011279e+08 2.43e+04 2.09e+01 -2.5 7.73e+05 - 1.00e+00 1.00e+00h 1
55 6.7011290e+08 4.64e-01 1.94e+00 -2.5 2.85e+02 -6.9 6.51e-01 1.00e+00h 1
56 6.7011282e+08 1.37e+00 5.55e+00 -2.5 4.41e+06 - 1.00e+00 2.32e-03f 2
57 6.7010054e+08 1.76e+05 8.16e+00 -2.5 4.40e+06 - 1.00e+00 8.21e-01f 1
58 6.7006525e+08 3.45e+06 6.54e+00 -2.5 6.40e+07 - 9.42e-01 2.52e-01h 1
59 6.7004812e+08 3.88e+06 6.21e+00 -2.5 1.61e+08 - 1.00e+00 4.45e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.7004687e+08 3.50e+06 5.60e+00 -2.5 7.33e+06 - 8.66e-01 9.77e-02h 1
61 6.7003191e+08 1.23e+06 2.85e+00 -2.5 1.15e+07 - 1.93e-02 9.97e-01h 1
62 6.7003245e+08 1.11e+06 5.85e+01 -2.5 5.11e+04 -7.3 5.89e-03 9.83e-02h 1
63 6.7003194e+08 1.10e+06 6.05e+01 -2.5 1.02e+06 - 1.00e+00 3.25e-03h 1
64 6.7002976e+08 2.06e+03 8.18e+00 -2.5 2.02e+05 - 1.00e+00 1.00e+00h 1
65 6.7002976e+08 3.39e-02 3.82e-06 -2.5 2.22e+01 -7.8 1.00e+00 1.00e+00h 1
66 6.7002901e+08 5.30e-03 2.35e+00 -3.8 1.91e+02 -8.3 1.00e+00 8.41e-01f 1
67 6.7002871e+08 1.27e-02 7.69e-02 -3.8 4.38e+02 -8.8 1.00e+00 9.86e-01f 1
68 6.7002866e+08 9.52e-03 7.06e+00 -3.8 6.14e+02 -9.2 1.00e+00 4.33e-01f 1
69 6.7002865e+08 2.12e-02 3.90e-04 -3.8 8.35e+02 -9.7 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.7002855e+08 2.09e-01 2.17e-05 -5.7 2.62e+03 -10.2 1.00e+00 1.00e+00f 1
71 6.7002852e+08 2.48e-01 1.72e-02 -5.7 6.88e+03 -10.7 1.00e+00 2.57e-01h 1
72 6.7002851e+08 2.20e-01 5.07e-01 -5.7 1.62e+04 -11.2 1.00e+00 1.15e-01h 1
73 6.7002846e+08 1.68e+00 5.21e-01 -5.7 4.93e+04 -11.6 1.00e+00 1.44e-01h 1
74 6.7002840e+08 3.70e+00 6.80e-01 -5.7 8.48e+04 -12.1 1.00e+00 1.41e-01h 1
75 6.7002838e+08 3.81e+00 6.34e-01 -5.7 1.14e+05 -12.6 1.00e+00 3.32e-02h 1
76 6.7002832e+08 2.44e+01 5.96e-01 -5.7 3.24e+05 -13.1 1.00e+00 1.46e-01h 1
77 6.7002719e+08 8.56e+03 3.84e-03 -5.7 8.89e+05 -13.5 1.00e+00 1.00e+00h 1
78 6.7002339e+08 9.11e+04 1.77e-02 -5.7 2.89e+06 -14.0 1.00e+00 1.00e+00h 1
79 6.7000712e+08 1.43e+06 2.71e-01 -5.7 1.14e+07 -14.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.6993281e+08 1.89e+07 3.41e+00 -5.7 1.16e+08 -15.0 4.94e-01 3.40e-01h 1
81r 6.6993281e+08 1.89e+07 9.99e+02 3.7 0.00e+00 -14.5 0.00e+00 3.91e-07R 4
82r 6.6993780e+08 1.91e+07 9.99e+02 3.7 2.23e+08 - 5.22e-06 4.83e-06f 1
83r 6.6998014e+08 9.67e+06 9.95e+02 2.3 4.45e+06 - 8.85e-03 1.03e-03f 1
84 6.6994548e+08 1.07e+07 7.45e+01 -5.7 1.47e+13 - 8.25e-06 6.94e-07f 1
85r 6.6994548e+08 1.07e+07 9.99e+02 3.4 0.00e+00 - 0.00e+00 4.44e-07R 4
86r 6.6998145e+08 1.05e+07 9.99e+02 3.4 6.82e+07 - 2.93e-05 2.82e-05f 1
87r 6.7007429e+08 3.18e+06 9.97e+02 2.0 7.51e+05 - 6.07e-03 1.85e-03f 1
88r 6.7017889e+08 2.11e+06 9.95e+02 2.0 3.11e+06 - 1.20e-03 2.17e-03f 1
89r 6.7027751e+08 1.54e+06 1.70e+03 2.0 2.36e+05 - 4.49e-02 2.07e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 6.7243380e+08 3.28e+05 1.61e+04 2.0 3.00e+04 - 5.87e-01 4.65e-02f 1
91r 6.7811236e+08 2.80e+05 1.46e+04 2.0 1.61e+04 - 7.96e-02 8.58e-02f 1
92r 7.0860380e+08 6.84e+04 5.81e+03 2.0 1.19e+04 - 2.96e-01 5.32e-01f 1
93r 7.1982778e+08 3.80e+04 6.07e+03 2.0 1.33e+04 - 1.00e+00 4.61e-01f 1
94r 7.3224317e+08 3.61e+03 3.32e+02 2.0 1.90e+04 - 1.00e+00 9.66e-01f 1
95r 7.1086759e+08 3.64e+03 1.28e+02 0.6 8.95e+03 - 7.28e-01 7.17e-01f 1
96r 7.0721374e+08 7.52e+03 6.13e+03 -0.1 9.22e+04 - 2.22e-01 5.87e-01f 1
97r 7.0674384e+08 9.20e+03 4.76e+03 -0.1 2.04e+05 - 2.02e-01 1.85e-01f 1
98r 7.0671234e+08 9.10e+03 3.71e+03 -0.1 6.57e+04 - 7.47e-01 1.07e-02f 1
99r 7.0089700e+08 1.78e+03 1.18e+03 -0.1 7.05e+04 - 9.67e-01 8.06e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.9124960e+08 6.84e+01 9.30e+00 -0.1 1.90e+04 - 1.00e+00 1.00e+00f 1
101r 6.8222811e+08 1.27e+01 9.30e+00 -0.8 3.05e+03 - 1.00e+00 1.00e+00f 1
102r 6.8234026e+08 5.18e+03 4.23e+02 -0.8 1.77e+05 - 3.00e-01 6.92e-01f 1
103r 6.8234450e+08 4.95e+03 2.28e+02 -0.8 5.45e+04 - 1.00e+00 4.32e-02f 1
104r 6.8247736e+08 1.31e+01 8.94e+00 -0.8 5.21e+04 - 1.00e+00 1.00e+00f 1
105r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 1.90e+02 - 1.00e+00 1.00e+00h 1
106r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 1.31e+00 - 1.00e+00 1.00e+00h 1
107r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 5.34e-03 - 1.00e+00 1.00e+00h 1
108r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 5.41e-03 - 1.00e+00 1.00e+00h 1
109r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 5.41e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 5.41e-03 - 1.00e+00 1.00e+00h 1
111r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 5.41e-03 - 1.00e+00 1.00e+00H 1
112r 6.8247717e+08 1.91e+00 8.66e+00 -0.8 4.76e-04 - 1.00e+00 3.12e-02h 6
113r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 4.75e-04 - 1.00e+00 1.00e+00h 1
114r 6.8247717e+08 1.91e+00 8.38e+00 -0.8 5.41e-03 - 1.00e+00 6.25e-02h 5
115r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 4.30e-04 - 1.00e+00 1.00e+00h 1
116r 6.8247717e+08 1.91e+00 8.38e+00 -0.8 5.41e-03 - 1.00e+00 6.25e-02h 5
117r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 3.39e-04 - 1.00e+00 1.00e+00h 1
118r 6.8247717e+08 1.91e+00 8.80e+00 -0.8 5.41e-03 - 1.00e+00 1.56e-02h 7
119r 6.8247717e+08 1.91e+00 8.94e+00 -0.8 4.57e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 6.8247717e+08 1.91e+00 8.87e+00 -0.8 5.41e-03 - 1.00e+00 7.81e-03h 8
121r 6.8247717e+08 1.91e+00 2.49e-01 -0.8 4.94e-04 - 1.00e+00 5.00e-01h 2
122r 6.7724424e+08 1.92e+00 3.50e+01 -2.3 1.61e+03 - 1.00e+00 8.64e-01f 1
123r 6.7717007e+08 2.16e+02 1.24e+02 -2.3 1.37e+06 - 2.13e-01 1.56e-01f 1
124r 6.7716949e+08 2.16e+02 3.84e+02 -2.3 1.15e+06 - 3.20e-01 1.06e-03f 1
125r 6.7710248e+08 2.50e+02 5.13e+02 -2.3 1.14e+06 - 5.09e-01 9.29e-02f 1
126r 6.7710131e+08 2.50e+02 6.33e+02 -2.3 6.12e+05 - 1.00e+00 1.17e-03f 1
127r 6.7686088e+08 2.15e+02 6.88e+02 -2.3 4.02e+05 - 1.00e+00 1.49e-01f 1
128r 6.7668254e+08 1.90e+02 7.77e+02 -2.3 3.35e+05 - 5.22e-01 1.23e-01f 1
129r 6.7575234e+08 3.20e+02 3.34e+02 -2.3 2.94e+05 - 1.00e+00 7.28e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 6.7542859e+08 5.88e+01 3.10e+01 -2.3 8.00e+04 - 1.00e+00 9.18e-01f 1
131r 6.7539950e+08 2.00e+00 1.65e+00 -2.3 6.54e+03 - 1.00e+00 1.00e+00h 1
132r 6.7539951e+08 2.00e+00 1.65e+00 -2.3 3.67e+02 - 1.00e+00 1.00e+00h 1
133r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 2.99e+01 - 1.00e+00 1.00e+00h 1
134r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 2.30e-01 - 1.00e+00 1.00e+00h 1
135r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 1.14e-04 - 1.00e+00 1.00e+00h 1
136r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 1.03e-04 - 1.00e+00 5.00e-01h 2
137r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 5.77e-05 - 1.00e+00 1.00e+00h 1
138r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.10e-05 - 1.00e+00 5.00e-01h 2
139r 6.7539952e+08 2.00e+00 8.25e-01 -2.3 3.53e-05 - 1.00e+00 9.77e-04h 11
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 3.52e-05 - 1.00e+00 1.00e+00h 1
141r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 7.05e-05 - 1.00e+00 1.00e+00h 1
142r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 1.15e-04 - 1.00e+00 5.00e-01h 2
143r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 5.58e-05 - 1.00e+00 1.00e+00h 1
144r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 7.02e-05 - 1.00e+00 1.00e+00h 1
145r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 7.02e-05 - 1.00e+00 6.10e-05h 15
146r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 7.02e-05 - 1.00e+00 1.00e+00h 1
147r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.08e-05 - 1.00e+00 5.00e-01h 2
148r 6.7539952e+08 2.00e+00 7.74e-01 -2.3 3.51e-05 - 1.00e+00 6.25e-02h 5
149r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 3.33e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.04e-05 - 1.00e+00 5.00e-01h 2
151r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 3.50e-05 - 1.00e+00 7.63e-06h 18
152r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 3.50e-05 - 1.00e+00 5.00e-01h 2
153r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 1.76e-05 - 1.00e+00 1.00e+00h 1
154r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.03e-05 - 1.00e+00 5.00e-01h 2
155r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 3.48e-05 - 1.00e+00 1.53e-05h 17
156r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 3.48e-05 - 1.00e+00 1.00e+00h 1
157r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.03e-05 - 1.00e+00 5.00e-01h 2
158r 6.7539952e+08 2.00e+00 6.20e-01 -2.3 3.55e-05 - 1.00e+00 2.50e-01h 3
159r 6.7539952e+08 2.00e+00 6.19e-01 -2.3 2.67e-05 - 1.00e+00 1.22e-04h 14
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 6.7539952e+08 2.00e+00 6.19e-01 -2.3 2.67e-05 - 1.00e+00 3.05e-05h 16
161r 6.7539952e+08 2.00e+00 6.19e-01 -2.3 2.67e-05 - 1.00e+00 3.05e-05h 16
162r 6.7539952e+08 2.00e+00 6.19e-01 -2.3 2.67e-05 - 1.00e+00 3.05e-05h 16
163r 6.7539952e+08 2.00e+00 6.19e-01 -2.3 2.67e-05 - 1.00e+00 3.05e-05h 16
164r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 2.67e-05 - 1.00e+00 1.00e+00h 1
165r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 7.03e-05 - 1.00e+00 5.00e-01h 2
166r 6.7539952e+08 2.00e+00 8.26e-01 -2.3 3.54e-05 - 1.00e+00 4.88e-04h 12
167r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 3.54e-05 - 1.00e+00 1.00e+00h 1
168r 6.7539952e+08 2.00e+00 1.24e+00 -2.3 7.06e-05 - 1.00e+00 2.50e-01h 3
169r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 1.74e-05 - 1.00e+00 6.10e-05h 15
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 1.74e-05 - 1.00e+00 1.53e-05h 17
171r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 1.74e-05 - 1.00e+00 1.53e-05h 17
172r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 1.74e-05 - 1.00e+00 1.53e-05h 17
173r 6.7539952e+08 2.00e+00 4.13e-01 -2.3 1.74e-05 - 1.00e+00 1.53e-05h 17
174r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 1.74e-05 - 1.00e+00 1.00e+00h 1
175r 6.7539952e+08 2.00e+00 1.63e+00 -2.3 7.05e-05 - 1.00e+00 1.56e-02h 7
176r 6.7539952e+08 2.00e+00 1.65e+00 -2.3 7.26e-06 - 1.00e+00 1.00e+00h 1
177r 6.7539952e+08 2.00e+00 1.63e+00 -2.3 7.05e-05 - 1.00e+00 1.56e-02h 7
178r 6.7539952e+08 2.00e+00 4.70e-02 -2.3 7.05e-06 - 1.00e+00 5.00e-01h 2
179r 6.7307792e+08 2.00e+00 1.42e+01 -3.4 1.52e+03 - 8.57e-01 9.22e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 6.7307450e+08 4.90e+01 2.61e+02 -3.4 1.68e+06 - 2.63e-01 5.33e-02f 1
181r 6.7307449e+08 4.90e+01 7.30e+02 -3.4 4.83e+05 - 2.95e-01 8.80e-05f 1
182r 6.7303898e+08 1.12e+02 8.43e+02 -3.4 4.83e+05 - 4.73e-01 2.37e-01f 1
183r 6.7299428e+08 1.64e+02 7.54e+02 -3.4 3.65e+05 - 3.73e-01 2.75e-01f 1
184r 6.7292691e+08 2.16e+02 4.08e+02 -3.4 2.70e+05 - 4.56e-01 4.62e-01f 1
185r 6.7286126e+08 1.50e+02 1.89e+02 -3.4 1.46e+05 - 7.27e-01 6.05e-01f 1
186r 6.7281247e+08 4.01e+01 2.68e+01 -3.4 5.60e+04 - 9.05e-01 8.60e-01f 1
187r 6.7280188e+08 1.88e+00 1.67e-01 -3.4 7.95e+03 - 1.00e+00 1.00e+00h 1
188r 6.7280183e+08 1.88e+00 8.10e-02 -3.4 5.25e+00 - 1.00e+00 1.00e+00h 1
189r 6.7280183e+08 1.88e+00 4.33e-01 -3.4 3.00e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 6.7280183e+08 1.88e+00 3.79e-01 -3.4 3.52e-05 - 1.00e+00 1.25e-01h 4
191r 6.7280183e+08 1.88e+00 4.33e-01 -3.4 1.90e-05 - 1.00e+00 1.00e+00h 1
192r 6.7280183e+08 1.88e+00 4.26e-01 -3.4 1.45e-05 - 1.00e+00 1.56e-02h 7
193r 6.7280183e+08 1.88e+00 2.13e-01 -3.4 1.53e-05 - 1.00e+00 5.00e-01h 2
194r 6.7280183e+08 1.88e+00 2.06e-01 -3.4 1.05e-05 - 1.00e+00 3.12e-02h 6
195r 6.7280183e+08 1.88e+00 8.10e-02 -3.4 1.03e-05 - 1.00e+00 1.00e+00s 22
196r 6.7280183e+08 1.88e+00 8.10e-02 -3.4 2.16e-05 - 0.00e+00 0.00e+00R 1
197r 6.7280183e+08 1.88e+00 8.08e-02 -3.4 2.16e-05 - 1.00e+00 1.95e-03f 10
198r 6.7280183e+08 1.88e+00 8.05e-02 -3.4 2.24e-05 - 1.00e+00 3.91e-03h 9
199r 6.7280183e+08 1.88e+00 4.33e-01 -3.4 1.75e-05 - 1.00e+00 1.00e+00s 36
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 6.7280183e+08 1.88e+00 4.33e-01 -3.4 3.86e-05 - 1.00e+00 1.00e+00s 36
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 6.7280182672897921e+04 6.7280182672897923e+08
Dual infeasibility......: 9.9997881123655276e+01 9.9997881123655278e+05
Constraint violation....: 1.8834692531229393e+00 1.8834692531229393e+00
Complementarity.........: 4.0757213969768461e-04 4.0757213969768458e+00
Overall NLP error.......: 9.9997881123655276e+01 9.9997881123655278e+05
Number of objective function evaluations = 618
Number of objective gradient evaluations = 86
Number of equality constraint evaluations = 619
Number of inequality constraint evaluations = 619
Number of equality constraint Jacobian evaluations = 204
Number of inequality constraint Jacobian evaluations = 204
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 8.245
Total CPU secs in NLP function evaluations = 510.240
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 364
Realized SOC (MPC) 300880
Fixed costs: 41023.55
Variable costs: 11918.86
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 338.84
Simulating time_step 2020-07-10 11:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.7280183e+08 8.86e+04 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.7155777e+08 8.82e+04 9.94e+01 -1.0 1.11e+06 - 2.85e-02 4.25e-03f 1
2 6.7290691e+08 8.71e+04 9.81e+01 -1.0 9.67e+05 - 2.72e-03 1.34e-02h 1
3 6.7338242e+08 8.67e+04 9.77e+01 -1.0 1.02e+06 - 1.83e-02 3.57e-03h 1
4 6.7338902e+08 8.67e+04 7.94e+03 -1.0 2.18e+06 - 2.17e-02 4.59e-05h 1
5 6.7414700e+08 8.63e+04 4.36e+04 -1.0 7.98e+06 - 2.69e-02 5.17e-03h 1
6 6.8530340e+08 7.98e+04 3.42e+04 -1.0 7.94e+06 - 2.68e-02 7.55e-02h 1
7 7.0204152e+08 7.02e+04 6.82e+04 -1.0 7.33e+06 - 9.13e-02 1.21e-01h 1
8 7.0221349e+08 7.01e+04 3.03e+03 -1.0 6.45e+06 - 7.64e-02 1.41e-03h 1
9 7.0257304e+08 6.99e+04 4.49e+03 -1.0 6.43e+06 - 8.95e-04 2.94e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.0289422e+08 6.97e+04 5.39e+03 -1.0 4.09e+06 - 1.43e-05 2.63e-03h 1
11 7.0440732e+08 6.88e+04 2.54e+03 -1.0 7.01e+05 - 2.40e-03 1.24e-02h 1
12 7.0543468e+08 6.82e+04 1.12e+05 -1.0 6.89e+05 - 4.04e-01 8.54e-03h 1
13 7.2261620e+08 5.84e+04 7.59e+04 -1.0 6.75e+05 - 2.26e-02 1.44e-01h 1
14 7.8123834e+08 2.47e+04 8.70e+04 -1.0 5.86e+05 - 9.16e-01 5.77e-01h 1
15 7.8677775e+08 2.07e+04 8.06e+04 -1.0 1.88e+06 - 7.09e-01 1.63e-01h 1
16 7.8703630e+08 2.00e+04 7.81e+04 -1.0 6.23e+06 - 6.94e-02 3.32e-02h 1
17 7.8798296e+08 1.67e+04 6.59e+04 -1.0 6.67e+06 - 3.12e-01 1.64e-01h 1
18 7.8797394e+08 1.62e+04 6.56e+04 -1.0 9.70e+06 - 7.17e-01 3.33e-02h 1
19 7.8612269e+08 1.56e+04 6.36e+04 -1.0 3.29e+07 - 1.74e-01 3.20e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.8029687e+08 1.43e+04 5.83e+04 -1.0 3.90e+07 - 1.46e-01 8.42e-02f 1
21 7.8003686e+08 1.43e+04 5.82e+04 -1.0 3.42e+07 - 4.08e-01 5.54e-03f 1
22 7.7710287e+08 1.27e+04 5.19e+04 -1.0 3.66e+07 - 9.05e-02 1.09e-01f 1
23 7.6990317e+08 1.44e+04 4.05e+04 -1.0 4.14e+07 - 1.20e-04 2.07e-01f 1
24 7.6996846e+08 1.43e+04 4.04e+04 -1.0 8.57e+04 -4.0 4.78e-04 3.86e-03h 1
25 7.7010772e+08 1.42e+04 4.00e+04 -1.0 8.54e+04 -4.5 4.31e-03 7.96e-03h 1
26 7.7017882e+08 1.42e+04 3.99e+04 -1.0 8.49e+04 -5.0 1.35e-02 4.08e-03h 1
27 7.7033225e+08 1.40e+04 3.95e+04 -1.0 8.52e+04 -5.4 2.12e-02 8.84e-03h 1
28 7.7040367e+08 1.40e+04 3.94e+04 -1.0 9.78e+04 -5.9 3.94e-02 4.14e-03h 1
29 7.7050701e+08 1.39e+04 3.91e+04 -1.0 6.09e+05 -6.4 3.20e-04 5.64e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.7072564e+08 1.37e+04 3.87e+04 -1.0 6.21e+05 -6.9 3.95e-03 1.19e-02h 1
31 7.7204164e+08 1.27e+04 3.59e+04 -1.0 6.18e+05 -7.3 4.24e-03 7.21e-02h 1
32 7.8896007e+08 1.32e+03 2.18e+04 -1.0 5.74e+05 -7.8 9.40e-02 1.00e+00h 1
33 7.8892270e+08 2.63e-01 3.77e+03 -1.0 7.66e+03 -8.3 8.46e-01 1.00e+00f 1
34 7.8564946e+08 2.51e+02 3.73e+03 -1.0 3.33e+08 - 1.38e-02 2.88e-03f 1
35 7.8091951e+08 1.82e+03 3.48e+03 -1.0 3.43e+08 - 9.06e-02 9.44e-03f 1
36 7.6309613e+08 2.55e+04 3.27e+03 -1.0 4.26e+08 - 6.98e-02 2.69e-02f 1
37 7.5966171e+08 2.62e+04 3.03e+03 -1.0 5.07e+08 - 9.65e-02 4.43e-03f 1
38 7.1919993e+08 1.39e+05 2.77e+03 -1.0 6.29e+08 - 9.81e-02 4.28e-02f 1
39 7.1772396e+08 1.40e+05 2.70e+03 -1.0 7.43e+08 - 3.40e-02 1.69e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.1099556e+08 1.45e+05 2.66e+03 -1.0 6.56e+08 - 1.71e-02 9.69e-03f 1
41 7.1077986e+08 1.44e+05 1.59e+03 -1.0 4.74e+07 - 3.92e-01 6.98e-03f 1
42 7.0976163e+08 1.87e+05 7.82e+02 -1.0 5.07e+06 - 5.13e-01 5.89e-01f 1
43 7.0656229e+08 2.16e+06 4.47e+02 -1.0 1.02e+07 - 4.52e-01 1.00e+00f 1
44 7.0599347e+08 2.01e+06 2.09e+02 -1.0 1.76e+07 - 5.33e-01 9.93e-02f 1
45 7.0552543e+08 1.97e+06 1.38e+02 -1.0 3.80e+07 - 3.40e-01 4.92e-02f 1
46 7.0403297e+08 2.80e+06 1.03e+02 -1.0 6.66e+07 - 2.51e-01 1.09e-01f 1
47 7.0201697e+08 6.07e+06 9.08e+01 -1.0 9.67e+07 - 1.18e-01 1.20e-01f 1
48 6.9977538e+08 9.94e+06 8.32e+01 -1.0 1.05e+08 - 8.57e-02 1.31e-01f 1
49 6.9970240e+08 9.89e+06 7.40e+01 -1.0 1.03e+08 - 1.06e-01 5.42e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.9678567e+08 2.03e+07 6.90e+01 -1.0 1.06e+08 - 7.37e-02 2.21e-01f 1
51 6.9666091e+08 2.01e+07 6.28e+01 -1.0 8.72e+07 - 8.68e-02 1.24e-02f 1
52 6.9624057e+08 1.96e+07 6.28e+01 -1.0 8.24e+07 - 9.39e-04 3.04e-02f 1
53 6.9626503e+08 9.29e+06 3.39e+01 -1.0 4.04e+04 -8.8 2.77e-01 5.25e-01h 1
54 6.9582349e+08 9.13e+06 3.38e+01 -1.0 2.09e+08 - 8.57e-03 1.76e-02f 1
55 6.9182860e+08 1.05e+08 3.33e+01 -1.0 4.03e+08 - 2.88e-02 9.72e-02f 1
56 6.9178877e+08 1.05e+08 2.87e+01 -1.0 4.39e+08 - 1.21e-01 9.16e-04f 1
57 6.9001454e+08 8.27e+07 7.64e+01 -1.0 9.14e+07 - 5.68e-01 2.11e-01f 1
58 6.8983832e+08 8.03e+07 7.49e+01 -1.0 6.57e+07 - 7.35e-01 2.96e-02h 1
59 6.8983759e+08 7.19e+07 6.71e+01 -1.0 4.82e+06 - 9.82e-01 1.04e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.8984771e+08 6.08e+05 3.06e+01 -1.0 6.37e+06 - 1.00e+00 1.00e+00h 1
61 6.8984821e+08 3.63e+02 1.65e+00 -1.0 1.95e+04 -9.2 8.73e-01 1.00e+00h 1
62 6.8984704e+08 3.60e+02 1.15e+01 -1.0 9.38e+06 - 1.00e+00 9.38e-03f 2
63 6.8982730e+08 1.14e+06 3.38e+01 -1.0 9.14e+06 - 1.00e+00 1.00e+00f 1
64 6.8982781e+08 1.05e+03 7.22e-01 -1.0 5.10e+04 -9.7 8.78e-01 1.00e+00h 1
65 6.8982483e+08 1.03e+03 3.18e+01 -1.7 1.55e+07 - 9.88e-01 1.16e-02f 1
66 6.8981108e+08 1.16e+06 2.73e+01 -1.7 7.69e+07 - 7.51e-01 1.49e-01f 1
67 6.8974762e+08 2.06e+06 1.67e+01 -1.7 2.03e+07 - 1.00e+00 6.71e-01h 1
68 6.8969123e+08 4.17e+06 1.50e+01 -1.7 9.59e+07 - 5.28e-01 1.61e-01h 1
69 6.8963265e+08 6.55e+06 1.31e+01 -1.7 9.36e+07 - 1.00e+00 1.95e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.8963095e+08 6.25e+06 1.25e+01 -1.7 7.97e+06 - 1.00e+00 4.63e-02h 1
71 6.8960943e+08 1.25e+06 5.36e+00 -1.7 8.45e+06 - 1.00e+00 1.00e+00h 1
72 6.8960824e+08 2.20e+03 1.06e-01 -1.7 5.38e+04 -10.2 1.00e+00 1.00e+00h 1
73 6.8960470e+08 3.49e+05 5.87e+00 -1.7 4.03e+06 - 1.00e+00 1.00e+00h 1
74 6.8960246e+08 4.43e+05 6.80e+00 -1.7 2.73e+07 - 1.00e+00 8.44e-02h 1
75 6.8960237e+08 7.03e+03 2.52e-04 -1.7 2.63e+05 - 1.00e+00 1.00e+00h 1
76 6.8960234e+08 6.62e+01 1.54e-05 -1.7 4.69e+04 - 1.00e+00 1.00e+00h 1
77 6.8959526e+08 1.63e+04 2.16e+00 -3.8 1.99e+06 - 9.22e-01 6.54e-01f 1
78 6.8959233e+08 2.44e+03 2.33e-01 -3.8 3.59e+05 - 1.00e+00 9.17e-01h 1
79 6.8959208e+08 7.29e-01 1.11e-06 -3.8 8.97e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.8959200e+08 8.20e-01 3.02e-07 -5.7 9.21e+03 - 1.00e+00 1.00e+00h 1
81 6.8959200e+08 8.46e-06 1.85e-11 -5.7 2.99e+01 - 1.00e+00 1.00e+00h 1
82 6.8959200e+08 1.20e-04 4.52e-11 -8.6 1.11e+02 - 1.00e+00 1.00e+00h 1
83 6.8959200e+08 1.43e-06 1.84e-12 -8.6 4.90e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 83
(scaled) (unscaled)
Objective...............: 6.8959200399506022e+04 6.8959200399506021e+08
Dual infeasibility......: 1.8388917112157098e-12 1.8388917112157098e-08
Constraint violation....: 3.7252902984619141e-09 1.4305114746093750e-06
Complementarity.........: 2.5064991009616439e-09 2.5064991009616436e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5064991009616436e-05
Number of objective function evaluations = 87
Number of objective gradient evaluations = 84
Number of equality constraint evaluations = 87
Number of inequality constraint evaluations = 87
Number of equality constraint Jacobian evaluations = 84
Number of inequality constraint Jacobian evaluations = 84
Number of Lagrangian Hessian evaluations = 83
Total CPU secs in IPOPT (w/o function evaluations) = 6.071
Total CPU secs in NLP function evaluations = 161.985
EXIT: Optimal Solution Found.
Implemented Power (MPC) 401
Realized SOC (MPC) 271268
Fixed costs: 41023.55
Variable costs: 17365.73
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 259.33
Simulating time_step 2020-07-10 12:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.8979200e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.8978398e+08 1.00e+05 9.90e+01 -1.0 1.18e+06 - 4.89e-04 4.47e-04h 1
2 6.8987455e+08 9.98e+04 9.97e+01 -1.0 8.98e+05 - 5.70e-04 1.82e-03h 1
3 6.9016584e+08 9.94e+04 9.98e+01 -1.0 8.99e+05 - 2.26e-03 3.58e-03h 1
4 6.9083301e+08 9.87e+04 9.93e+01 -1.0 8.97e+05 - 6.03e-03 6.97e-03h 1
5 7.0538141e+08 8.38e+04 1.13e+02 -1.0 8.91e+05 - 1.50e-02 1.51e-01h 1
6 7.0552565e+08 8.36e+04 8.36e+02 -1.0 7.57e+05 - 9.60e-01 1.79e-03h 1
7 7.2947844e+08 5.57e+04 1.46e+03 -1.0 2.05e+06 - 4.77e-01 3.34e-01h 1
8 7.2976670e+08 5.53e+04 1.07e+03 -1.0 3.44e+06 - 5.82e-01 7.84e-03h 1
9 7.3141574e+08 4.84e+04 8.19e+02 -1.0 7.88e+06 - 3.30e-02 1.26e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3147190e+08 4.80e+04 1.08e+03 -1.0 8.10e+06 - 2.67e-01 6.36e-03h 1
11 7.3138029e+08 4.56e+04 1.03e+03 -1.0 1.09e+07 - 6.28e-02 5.10e-02h 1
12 7.3079623e+08 3.85e+04 1.00e+03 -1.0 1.16e+07 - 4.19e-01 1.56e-01h 1
13 7.3066774e+08 3.82e+04 1.02e+03 -1.0 1.90e+07 - 2.08e-01 7.26e-03h 1
14 7.2957700e+08 3.65e+04 1.34e+03 -1.0 2.24e+07 - 6.47e-01 4.61e-02f 1
15 7.2674379e+08 3.25e+04 1.19e+03 -1.0 5.95e+07 - 7.93e-02 1.08e-01f 1
16 7.2484277e+08 3.06e+04 1.14e+03 -1.0 6.32e+07 - 1.19e-01 5.79e-02f 1
17 7.2482709e+08 3.06e+04 1.14e+03 -1.0 3.38e+07 - 3.92e-03 2.01e-03h 1
18 7.2805878e+08 1.72e+05 4.57e+02 -1.0 3.39e+07 - 4.58e-01 8.84e-01h 1
19 7.1654288e+08 2.13e+05 3.01e+02 -1.0 8.33e+07 - 5.60e-01 2.69e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.1642361e+08 2.12e+05 3.01e+02 -1.0 2.33e+08 - 1.34e-01 9.67e-04f 1
21 7.1663355e+08 1.80e+05 1.05e+03 -1.0 1.07e+06 - 8.54e-01 1.54e-01h 1
22 7.1602882e+08 4.29e+05 3.68e+02 -1.0 7.16e+06 - 4.39e-01 6.13e-01f 1
23 7.1573303e+08 4.16e+05 3.63e+02 -1.0 1.24e+07 - 3.12e-01 8.87e-02f 1
24 7.1476569e+08 6.20e+05 2.94e+02 -1.0 1.76e+07 - 1.91e-01 1.92e-01f 1
25 7.1445730e+08 6.29e+05 2.81e+02 -1.0 2.16e+07 - 1.28e-01 6.02e-02f 1
26 7.1313756e+08 1.20e+06 2.20e+02 -1.0 2.57e+07 - 9.66e-02 1.95e-01f 1
27 7.1308932e+08 1.19e+06 2.23e+02 -1.0 2.99e+07 - 9.32e-02 7.90e-03f 1
28 7.1236459e+08 1.44e+06 1.96e+02 -1.0 3.36e+07 - 7.57e-02 1.13e-01f 1
29 7.1063794e+08 3.78e+06 1.37e+02 -1.0 3.76e+07 - 1.47e-01 2.71e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.0861408e+08 6.50e+06 9.92e+01 -1.0 4.65e+07 - 2.31e-01 2.67e-01f 1
31 7.0690079e+08 7.58e+06 7.83e+01 -1.0 6.12e+07 - 5.56e-03 1.61e-01f 1
32 7.0686812e+08 7.56e+06 8.13e+01 -1.0 5.96e+07 - 1.06e-01 3.31e-03f 1
33 7.0499330e+08 8.63e+06 6.67e+01 -1.0 6.26e+07 - 8.34e-03 1.70e-01f 1
34 7.0438613e+08 8.35e+06 6.29e+01 -1.0 5.89e+07 - 3.04e-01 5.61e-02f 1
35 7.0139668e+08 1.14e+07 4.83e+01 -1.0 7.08e+07 - 1.80e-01 2.21e-01f 1
36 7.0126060e+08 1.13e+07 4.77e+01 -1.0 6.21e+07 - 4.01e-01 1.08e-02f 1
37 6.9990545e+08 1.09e+07 4.28e+01 -1.0 6.51e+07 - 8.55e-02 1.01e-01f 1
38 6.9958729e+08 1.06e+07 4.16e+01 -1.0 6.04e+07 - 4.95e-01 2.86e-02f 1
39 6.9880600e+08 1.00e+07 3.84e+01 -1.0 6.84e+07 - 7.68e-01 7.44e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.9685179e+08 1.85e+07 2.80e+01 -1.0 8.61e+07 - 3.56e-01 2.33e-01f 1
41 6.9683127e+08 1.83e+07 3.23e+01 -1.0 6.10e+07 - 6.01e-01 8.16e-03h 1
42 6.9683489e+08 1.77e+07 1.22e+03 -1.0 2.19e+05 -4.0 6.25e-03 3.54e-02h 1
43 6.9688779e+08 1.62e+07 2.39e+03 -1.0 4.70e+06 - 4.77e-03 8.60e-02h 1
44 6.9690522e+08 1.37e+07 5.52e+03 -1.0 1.93e+05 -4.5 4.19e-02 1.53e-01h 1
45 6.9698838e+08 2.92e+06 5.84e+03 -1.0 1.63e+05 -5.0 2.78e-01 7.86e-01h 1
46 6.9701374e+08 6.08e+02 1.14e+04 -1.0 3.44e+04 -5.4 9.94e-01 1.00e+00h 1
47 6.9701334e+08 1.84e-03 7.20e-01 -1.0 3.76e+01 -5.9 1.00e+00 1.00e+00h 1
48 6.9700119e+08 4.51e-05 1.34e-03 -1.7 9.01e+01 -6.4 1.00e+00 1.00e+00f 1
49 6.9689728e+08 1.88e+04 1.98e+01 -2.5 2.26e+08 - 1.89e-01 3.54e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.9682828e+08 2.01e+05 6.07e+01 -2.5 2.27e+07 - 6.65e-01 1.58e-01f 1
51 6.9674153e+08 5.17e+06 2.95e+02 -2.5 2.93e+07 - 7.58e-01 7.38e-01h 1
52 6.9673451e+08 5.12e+06 2.93e+02 -2.5 1.69e+08 - 1.96e-01 1.10e-02h 1
53 6.9664284e+08 2.74e+07 1.53e+02 -2.5 5.15e+07 - 6.39e-01 9.30e-01h 1
54 6.9664587e+08 2.70e+07 1.50e+02 -2.5 8.26e+05 -6.9 2.27e-04 1.28e-02h 1
55 6.9664309e+08 2.66e+07 1.48e+02 -2.5 2.39e+06 - 1.61e-01 1.47e-02h 1
56 6.9663296e+08 2.14e+07 1.30e+02 -2.5 2.01e+06 - 3.47e-01 1.98e-01h 1
57 6.9661710e+08 1.21e+07 1.07e+02 -2.5 1.45e+06 - 2.26e-01 4.32e-01h 1
58 6.9659904e+08 1.74e+06 1.21e+02 -2.5 1.28e+06 - 1.00e+00 8.52e-01h 1
59 6.9659622e+08 1.23e+06 8.39e+01 -2.5 1.44e+06 - 1.00e+00 2.97e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.9658650e+08 1.22e+05 1.48e+01 -2.5 3.51e+06 - 1.00e+00 1.00e+00h 1
61 6.9658695e+08 1.93e+04 5.78e+01 -2.5 5.34e+03 -7.3 5.67e-02 8.42e-01h 1
62 6.9658648e+08 1.92e+04 6.13e+01 -2.5 2.48e+06 - 1.00e+00 3.19e-03h 1
63 6.9657970e+08 4.86e+04 1.01e+01 -2.5 2.47e+06 - 1.00e+00 9.29e-01h 1
64 6.9657768e+08 5.11e+04 9.62e+00 -2.5 1.25e+07 - 1.00e+00 5.28e-02h 1
65 6.9657661e+08 2.12e+04 2.86e+00 -2.5 1.65e+06 - 1.00e+00 8.37e-01h 1
66 6.9656317e+08 3.12e+06 6.81e+00 -2.5 1.75e+07 - 1.00e+00 1.00e+00h 1
67 6.9656347e+08 2.99e+06 5.59e+01 -2.5 1.65e+05 -7.8 3.72e-03 4.06e-02h 1
68 6.9656310e+08 2.98e+06 6.06e+01 -2.5 8.40e+05 - 1.00e+00 3.16e-03h 1
69 6.9655741e+08 6.41e+03 2.01e+01 -2.5 2.57e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.9655740e+08 1.18e-02 7.14e-05 -2.5 1.51e+02 -8.3 1.00e+00 1.00e+00h 1
71 6.9655655e+08 4.27e-03 1.39e+00 -3.8 3.18e+02 -8.8 1.00e+00 8.80e-01f 1
72 6.9655634e+08 1.27e-02 4.18e-01 -3.8 6.82e+02 -9.2 1.00e+00 8.33e-01f 1
73 6.9655632e+08 1.94e-02 2.33e-04 -3.8 8.00e+02 -9.7 1.00e+00 1.00e+00f 1
74 6.9655623e+08 1.89e-01 7.00e-05 -5.7 2.50e+03 -10.2 1.00e+00 9.99e-01f 1
75 6.9655621e+08 4.24e-01 5.75e-02 -5.7 7.28e+03 -10.7 1.00e+00 4.46e-01h 1
76 6.9655617e+08 6.91e-01 8.54e-01 -5.7 1.56e+04 -11.2 1.00e+00 2.99e-01h 1
77 6.9655615e+08 1.66e+00 1.45e+00 -5.7 3.63e+04 -11.6 1.00e+00 1.79e-01f 1
78 6.9655612e+08 1.62e+00 1.19e+00 -5.7 5.98e+04 -12.1 1.00e+00 1.57e-01h 1
79 6.9655591e+08 2.61e+02 1.20e-01 -5.7 1.80e+05 -12.6 1.00e+00 8.31e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.9655590e+08 2.58e+02 1.41e-01 -5.7 5.03e+05 -13.1 1.00e+00 1.52e-02h 1
81 6.9655582e+08 2.84e+02 1.63e-01 -5.7 1.37e+06 -13.5 1.00e+00 4.08e-02h 1
82 6.9655565e+08 4.42e+02 2.22e-01 -5.7 3.46e+06 -14.0 1.00e+00 3.46e-02h 1
83 6.9654835e+08 3.03e+05 1.54e-01 -5.7 1.10e+07 -14.5 1.00e+00 4.70e-01f 1
84 6.9654825e+08 1.29e+05 2.93e-01 -5.7 1.92e+05 - 1.00e+00 5.72e-01h 1
85 6.9654784e+08 9.88e+02 1.53e-03 -5.7 1.27e+05 - 1.00e+00 9.95e-01h 1
86 6.9654784e+08 2.47e-04 3.70e-09 -5.7 6.23e+01 - 1.00e+00 1.00e+00h 1
87 6.9654784e+08 1.31e-05 1.45e-11 -8.6 3.27e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 87
(scaled) (unscaled)
Objective...............: 6.9654784108078617e+04 6.9654784108078611e+08
Dual infeasibility......: 1.4523762094449297e-11 1.4523762094449297e-07
Constraint violation....: 3.7252902984619141e-09 1.3053417205810547e-05
Complementarity.........: 2.5537329768956731e-09 2.5537329768956729e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5537329768956729e-05
Number of objective function evaluations = 88
Number of objective gradient evaluations = 88
Number of equality constraint evaluations = 88
Number of inequality constraint evaluations = 88
Number of equality constraint Jacobian evaluations = 88
Number of inequality constraint Jacobian evaluations = 88
Number of Lagrangian Hessian evaluations = 87
Total CPU secs in IPOPT (w/o function evaluations) = 4.468
Total CPU secs in NLP function evaluations = 123.104
EXIT: Optimal Solution Found.
Implemented Power (MPC) 388
Realized SOC (MPC) 250025
Fixed costs: 41023.55
Variable costs: 19723.61
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 130.54
Simulating time_step 2020-07-10 13:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.9674784e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.9673985e+08 1.00e+05 9.90e+01 -1.0 1.49e+06 - 4.89e-04 4.47e-04h 1
2 6.9683151e+08 9.98e+04 9.97e+01 -1.0 6.96e+05 - 5.70e-04 1.78e-03h 1
3 6.9711704e+08 9.94e+04 9.98e+01 -1.0 6.97e+05 - 2.22e-03 3.58e-03h 1
4 6.9776082e+08 9.87e+04 9.93e+01 -1.0 6.96e+05 - 5.98e-03 6.93e-03h 1
5 6.9918885e+08 9.72e+04 9.79e+01 -1.0 6.91e+05 - 1.48e-02 1.52e-02h 1
6 7.1561761e+08 8.00e+04 1.07e+02 -1.0 6.81e+05 - 4.47e-02 1.77e-01h 1
7 7.1578271e+08 7.98e+04 5.00e+02 -1.0 5.61e+05 - 5.50e-01 2.17e-03h 1
8 7.1671200e+08 7.89e+04 2.69e+04 -1.0 7.72e+05 - 4.29e-01 1.23e-02h 1
9 7.4604187e+08 4.76e+04 1.67e+04 -1.0 7.57e+05 - 4.51e-01 3.96e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.4637067e+08 4.72e+04 5.64e+03 -1.0 6.70e+05 - 5.69e-01 7.65e-03h 1
11 7.4923436e+08 4.39e+04 5.87e+03 -1.0 1.34e+06 - 2.87e-02 7.11e-02h 1
12 7.5952301e+08 3.16e+04 9.46e+03 -1.0 1.34e+06 - 1.55e-03 2.79e-01h 1
13 7.6071917e+08 3.02e+04 9.50e+03 -1.0 1.30e+06 - 9.79e-01 4.69e-02h 1
14 7.5525574e+08 2.92e+04 9.21e+03 -1.0 4.98e+07 - 5.45e-02 3.13e-02f 1
15 7.5478835e+08 2.91e+04 9.23e+03 -1.0 5.56e+07 - 1.59e-01 3.54e-03f 1
16 7.4993692e+08 2.81e+04 9.01e+03 -1.0 6.40e+07 - 3.68e-01 3.55e-02f 1
17 7.4777983e+08 2.75e+04 8.84e+03 -1.0 5.63e+07 - 1.35e-01 2.12e-02f 1
18 7.4468239e+08 2.56e+04 8.27e+03 -1.0 6.55e+07 - 3.31e-01 6.99e-02f 1
19 7.3343599e+08 3.50e+04 7.29e+03 -1.0 1.11e+08 - 3.66e-01 1.21e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.3316133e+08 3.50e+04 7.29e+03 -1.0 2.17e+08 - 2.92e-01 2.14e-03f 1
21 7.1610495e+08 2.49e+05 6.56e+03 -1.0 3.48e+08 - 2.15e-01 1.01e-01f 1
22 7.1593561e+08 2.49e+05 6.56e+03 -1.0 2.54e+08 - 1.41e-01 1.41e-03f 1
23 7.1700250e+08 2.08e+05 5.52e+03 -1.0 1.49e+07 - 9.44e-01 1.68e-01h 1
24 7.1699550e+08 2.08e+05 5.51e+03 -1.0 3.28e+07 - 3.01e-02 2.02e-03h 1
25 7.1702332e+08 2.07e+05 5.50e+03 -1.0 1.05e+08 - 2.51e-05 2.72e-03h 1
26 7.1756476e+08 1.93e+06 3.94e+03 -1.0 3.36e+07 - 1.08e-01 2.84e-01h 1
27 7.1755872e+08 1.91e+06 3.91e+03 -1.0 3.49e+07 - 1.09e-01 5.87e-03h 1
28 7.1742937e+08 2.17e+06 3.39e+03 -1.0 3.84e+07 - 1.30e-01 1.33e-01h 1
29 7.1649056e+08 6.72e+06 2.31e+03 -1.0 4.40e+07 - 2.14e-01 3.19e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.1644343e+08 6.67e+06 2.29e+03 -1.0 6.16e+07 - 4.00e-02 8.34e-03h 1
31 7.1645292e+08 6.66e+06 2.29e+03 -1.0 3.48e+04 -4.0 1.52e-03 2.04e-03h 1
32 7.1647756e+08 6.63e+06 2.28e+03 -1.0 3.48e+04 -4.5 2.62e-03 4.10e-03h 1
33 7.1647783e+08 6.63e+06 2.28e+03 -1.0 3.47e+04 -5.0 6.16e-03 4.24e-05h 1
34 7.1664696e+08 6.46e+06 2.22e+03 -1.0 3.58e+04 -5.4 7.30e-03 2.57e-02h 1
35 7.1664873e+08 6.46e+06 2.22e+03 -1.0 3.48e+04 -5.9 3.32e-02 2.74e-04h 1
36 7.1667776e+08 6.43e+06 6.63e+03 -1.0 3.81e+05 -6.4 1.68e-02 4.64e-03h 1
37 7.1697068e+08 6.15e+06 2.11e+03 -1.0 3.79e+05 -6.9 3.63e-03 4.39e-02h 1
38 7.1697398e+08 6.15e+06 3.97e+03 -1.0 3.63e+05 -7.3 8.17e-02 5.19e-04h 1
39 7.1736995e+08 5.75e+06 3.61e+03 -1.0 3.63e+05 -7.8 2.68e-02 6.47e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.1737425e+08 5.74e+06 3.12e+03 -1.0 3.44e+05 -8.3 6.58e-02 7.39e-04h 1
41 7.1894308e+08 4.30e+06 4.80e+03 -1.0 3.43e+05 -8.8 2.51e-03 2.52e-01h 1
42 7.2020226e+08 3.16e+06 4.25e+03 -1.0 2.55e+05 -9.2 1.99e-01 2.64e-01h 1
43 7.2131427e+08 2.01e+06 2.83e+03 -1.0 2.03e+05 -9.7 3.51e-01 3.65e-01h 1
44 7.2144500e+08 1.38e+06 2.79e+03 -1.0 6.07e+05 -10.2 1.71e-01 3.11e-01h 1
45 7.2135412e+08 1.33e+06 1.55e+03 -1.0 1.58e+06 -10.7 2.66e-01 3.96e-02h 1
46 7.2126147e+08 1.26e+06 4.78e+02 -1.0 4.36e+06 -11.2 5.83e-01 4.97e-02h 1
47 7.2081424e+08 1.17e+06 6.92e+02 -1.0 1.18e+07 -11.6 2.34e-01 7.20e-02f 1
48 7.2077425e+08 1.14e+06 1.22e+03 -1.0 4.41e+06 -12.1 4.99e-01 3.00e-02h 1
49 7.2047204e+08 1.03e+06 1.09e+03 -1.0 1.12e+07 -12.6 7.79e-02 9.77e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 7.2030010e+08 1.02e+06 1.07e+03 -1.0 1.94e+08 - 7.97e-03 1.25e-02f 1
51 7.2016755e+08 9.78e+05 1.09e+03 -1.0 1.96e+07 -13.1 1.33e-01 3.72e-02f 1
52 7.1978928e+08 7.28e+05 1.08e+03 -1.0 1.03e+07 -12.6 8.10e-01 2.72e-01f 1
53 7.1974251e+08 7.11e+05 1.06e+03 -1.0 1.26e+07 -13.1 7.00e-02 2.35e-02h 1
54 7.1904283e+08 1.31e+06 8.28e+02 -1.0 4.86e+07 -13.6 9.75e-02 2.06e-01f 1
55 7.1900268e+08 1.28e+06 8.23e+02 -1.0 1.85e+07 -13.2 2.32e-01 2.69e-02h 1
56 7.1868555e+08 1.74e+06 7.48e+02 -1.0 6.03e+07 -13.6 7.25e-02 8.95e-02f 1
57 7.1866216e+08 1.71e+06 7.54e+02 -1.0 1.45e+07 -13.2 4.20e-01 2.14e-02h 1
58 7.1826427e+08 4.35e+06 7.40e+02 -1.0 1.03e+09 -13.7 9.95e-05 1.76e-02f 1
59 7.1811737e+08 3.72e+06 6.37e+02 -1.0 8.36e+06 -11.5 3.96e-01 1.46e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 7.1813470e+08 3.41e+06 5.85e+02 -1.0 3.25e+05 -11.0 7.08e-01 8.37e-02h 1
61 7.1820806e+08 7.74e+05 1.16e+02 -1.0 1.33e+06 -11.5 2.27e-01 7.85e-01h 1
62 7.1784761e+08 1.85e+05 8.33e+01 -1.0 1.89e+06 -12.0 7.28e-01 9.77e-01f 1
63 7.1690837e+08 9.93e+05 2.81e+01 -1.0 6.03e+06 -12.5 6.74e-01 6.98e-01f 1
64 7.1672638e+08 9.80e+05 2.77e+01 -1.0 1.79e+07 -12.9 9.95e-01 5.27e-02f 1
65 7.1007948e+08 6.89e+07 2.05e+01 -1.0 5.18e+07 -13.4 1.00e+00 6.65e-01f 1
66 7.0998738e+08 6.86e+07 2.07e+01 -1.0 1.61e+08 -13.9 3.85e-01 3.86e-03f 1
67 7.0777905e+08 6.50e+07 2.06e+01 -1.0 4.50e+08 -14.4 1.28e-01 5.28e-02f 1
68 7.0775627e+08 6.47e+07 3.10e+01 -1.0 6.99e+07 -14.9 4.39e-01 5.01e-03h 1
69 7.0767024e+08 6.38e+07 3.11e+01 -1.0 1.98e+09 -15.3 3.00e-02 1.40e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 7.0761860e+08 3.24e+07 1.38e+01 -1.0 4.71e+07 -14.9 4.11e-01 4.90e-01h 1
71 7.0760066e+08 2.47e+07 2.30e+01 -1.0 2.38e+07 - 1.00e+00 2.37e-01h 1
72 7.0758486e+08 1.05e+06 1.59e+00 -1.0 3.58e+06 - 1.00e+00 1.00e+00h 1
73 7.0758416e+08 2.30e+04 5.68e-04 -1.0 5.10e+05 - 1.00e+00 1.00e+00h 1
74 7.0758409e+08 6.11e+01 3.26e-06 -1.0 3.80e+04 - 1.00e+00 1.00e+00h 1
75 7.0754996e+08 1.02e+05 1.19e+01 -2.5 3.52e+06 - 8.86e-01 5.79e-01f 1
76 7.0753554e+08 2.42e+04 3.65e+00 -2.5 2.40e+05 - 1.00e+00 7.76e-01h 1
77 7.0753170e+08 1.28e+03 4.99e-04 -2.5 2.41e+05 - 1.00e+00 1.00e+00h 1
78 7.0753164e+08 1.97e+03 2.09e-03 -2.5 9.87e+05 - 1.00e+00 1.00e+00H 1
79 7.0753167e+08 6.02e+03 4.29e-04 -2.5 4.46e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 7.0753167e+08 2.23e+02 1.53e-05 -2.5 8.45e+04 - 1.00e+00 1.00e+00h 1
81 7.0753167e+08 8.47e-02 2.83e-08 -2.5 1.52e+03 - 1.00e+00 1.00e+00h 1
82 7.0753035e+08 1.38e+04 2.33e-01 -3.8 6.93e+05 - 7.82e-01 1.00e+00f 1
83 7.0753035e+08 4.08e+01 2.07e-06 -3.8 2.96e+04 - 1.00e+00 1.00e+00h 1
84 7.0753035e+08 3.15e+00 2.25e-07 -3.8 1.02e+04 - 1.00e+00 1.00e+00h 1
85 7.0753027e+08 1.66e+01 1.71e-03 -5.7 2.41e+04 - 1.00e+00 9.71e-01h 1
86 7.0753027e+08 2.83e-03 4.27e-10 -5.7 3.10e+02 - 1.00e+00 1.00e+00h 1
87 7.0753027e+08 2.28e-03 2.66e-10 -8.6 2.74e+02 - 1.00e+00 1.00e+00h 1
88 7.0753027e+08 1.91e-06 1.55e-12 -8.6 1.46e-01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 88
(scaled) (unscaled)
Objective...............: 7.0753027183424900e+04 7.0753027183424902e+08
Dual infeasibility......: 1.5458919941810339e-12 1.5458919941810339e-08
Constraint violation....: 3.7252902984619141e-09 1.9073486328125000e-06
Complementarity.........: 2.5059726907542944e-09 2.5059726907542942e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5059726907542942e-05
Number of objective function evaluations = 90
Number of objective gradient evaluations = 89
Number of equality constraint evaluations = 90
Number of inequality constraint evaluations = 90
Number of equality constraint Jacobian evaluations = 89
Number of inequality constraint Jacobian evaluations = 89
Number of Lagrangian Hessian evaluations = 88
Total CPU secs in IPOPT (w/o function evaluations) = 4.836
Total CPU secs in NLP function evaluations = 126.747
EXIT: Optimal Solution Found.
Implemented Power (MPC) 404
Realized SOC (MPC) 500045
Fixed costs: 73842.73
Variable costs: 22035.79
Number on/offs: 1
Sum on/off ramps: 170.00
Sum nominal ramps: 103.54
Simulating time_step 2020-07-10 14:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 7.0773027e+08 2.50e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 7.0770873e+08 2.50e+05 9.96e+01 -1.0 8.78e+06 - 3.72e-04 1.19e-03h 1
2 7.0774729e+08 2.49e+05 1.01e+02 -1.0 3.49e+06 - 9.92e-06 1.69e-03h 1
3 7.0785397e+08 2.49e+05 1.01e+02 -1.0 4.70e+05 - 1.24e-03 2.90e-03h 1
4 7.0811521e+08 2.47e+05 1.01e+02 -1.0 4.68e+05 - 5.56e-03 5.34e-03h 1
5 7.0871261e+08 2.44e+05 9.94e+01 -1.0 4.65e+05 - 1.21e-02 1.15e-02h 1
6 7.3074272e+08 1.40e+05 1.50e+02 -1.0 4.57e+05 - 2.72e-02 4.28e-01h 1
7 7.3096864e+08 1.39e+05 1.78e+02 -1.0 2.42e+05 - 5.05e-01 7.92e-03h 1
8 7.3690980e+08 1.10e+05 4.96e+03 -1.0 2.33e+05 - 5.09e-01 2.09e-01h 1
9 7.3712535e+08 1.09e+05 3.37e+03 -1.0 3.56e+05 - 7.35e-01 1.00e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.4325928e+08 6.88e+04 1.17e+03 -1.0 1.15e+06 - 7.48e-01 3.66e-01h 1
11 7.4303818e+08 6.66e+04 1.20e+03 -1.0 4.26e+06 - 5.36e-01 3.22e-02h 1
12 7.3776811e+08 5.46e+04 1.90e+03 -1.0 9.12e+06 - 8.60e-01 1.80e-01f 1
13 7.3621893e+08 5.41e+04 1.90e+03 -1.0 5.92e+07 - 6.18e-02 1.03e-02f 1
14 7.3102383e+08 5.22e+04 1.89e+03 -1.0 6.25e+07 - 2.65e-01 3.42e-02f 1
15 7.2840798e+08 5.11e+04 1.87e+03 -1.0 7.71e+07 - 9.00e-02 2.12e-02f 1
16 7.2694673e+08 4.98e+04 1.97e+03 -1.0 8.36e+07 - 8.88e-01 2.70e-02f 1
17 7.1991062e+08 4.82e+04 1.91e+03 -1.0 3.46e+08 - 2.84e-02 3.05e-02f 1
18 7.1985717e+08 4.81e+04 1.93e+03 -1.0 3.37e+07 - 9.03e-01 3.54e-03h 1
19 7.1886599e+08 5.32e+05 1.68e+03 -1.0 3.37e+07 - 6.02e-01 1.25e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.1874261e+08 5.39e+05 1.68e+03 -1.0 1.28e+08 - 3.08e-01 4.59e-03f 1
21 7.1611933e+08 4.96e+06 1.54e+03 -1.0 1.46e+08 - 3.17e-01 8.41e-02f 1
22 7.1401466e+08 7.34e+06 1.42e+03 -1.0 1.34e+08 - 1.19e-01 7.74e-02f 1
23 7.1401673e+08 7.34e+06 1.42e+03 -1.0 3.54e+04 -4.0 7.91e-04 6.63e-04h 1
24 7.1404129e+08 7.31e+06 1.41e+03 -1.0 3.53e+04 -4.5 6.60e-04 3.96e-03h 1
25 7.1406657e+08 7.28e+06 1.41e+03 -1.0 3.52e+04 -5.0 5.35e-03 3.51e-03h 1
26 7.1406710e+08 7.28e+06 3.13e+04 -1.0 3.84e+05 -5.4 8.36e-03 6.97e-05h 1
27 7.1409277e+08 7.26e+06 4.21e+04 -1.0 7.85e+05 -5.9 7.60e-03 3.21e-03h 1
28 7.1405834e+08 7.25e+06 4.21e+04 -1.0 6.13e+07 - 1.49e-03 6.33e-04f 1
29 7.1408136e+08 7.23e+06 3.99e+04 -1.0 7.87e+05 -6.4 1.60e-04 2.69e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.1412252e+08 7.20e+06 4.17e+04 -1.0 7.93e+05 -6.9 1.30e-02 4.73e-03h 1
31 7.1425094e+08 7.10e+06 4.09e+04 -1.0 7.91e+05 -7.3 9.54e-03 1.40e-02h 1
32 7.1436185e+08 7.02e+06 4.05e+04 -1.0 7.81e+05 -7.8 8.77e-03 1.16e-02h 1
33 7.1760013e+08 4.60e+06 3.94e+04 -1.0 7.72e+05 -8.3 5.04e-02 3.44e-01h 1
34 7.1763804e+08 4.57e+06 2.79e+04 -1.0 5.07e+05 -8.8 2.34e-01 6.28e-03h 1
35 7.1982596e+08 2.74e+06 2.96e+04 -1.0 5.03e+05 -9.2 7.34e-02 4.00e-01h 1
36 7.1996572e+08 2.59e+06 2.02e+04 -1.0 3.01e+05 -9.7 2.65e-01 5.56e-02h 1
37 7.1998478e+08 2.55e+06 1.57e+04 -1.0 8.46e+05 -10.2 1.67e-01 1.62e-02h 1
38 7.1916002e+08 1.88e+06 1.54e+04 -1.0 1.88e+06 -10.7 9.48e-02 2.61e-01f 1
39 7.1907557e+08 1.87e+06 1.32e+04 -1.0 5.40e+06 -11.2 1.07e-01 6.79e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.1887319e+08 1.74e+06 1.12e+04 -1.0 2.07e+06 -10.7 1.29e-01 6.93e-02f 1
41 7.1870615e+08 1.68e+06 7.95e+03 -1.0 6.20e+06 -11.2 2.14e-01 3.29e-02f 1
42 7.1783600e+08 1.59e+06 2.14e+03 -1.0 1.83e+07 -11.7 6.95e-01 5.27e-02f 1
43 7.1733607e+08 1.59e+06 2.14e+03 -1.0 1.70e+09 - 2.28e-02 2.21e-03f 1
44 7.1650624e+08 1.58e+06 2.20e+03 -1.0 3.28e+08 - 1.65e-01 1.25e-02f 1
45 7.1638118e+08 1.40e+06 3.84e+03 -1.0 5.35e+06 -12.2 9.91e-01 1.15e-01h 1
46 7.1583248e+08 1.39e+06 3.78e+03 -1.0 1.87e+08 - 2.11e-01 1.56e-02f 1
47 7.1495120e+08 1.27e+06 2.72e+03 -1.0 1.58e+07 -12.6 5.31e-01 2.83e-01f 1
48 7.1386435e+08 1.73e+06 2.63e+03 -1.0 2.10e+08 - 5.93e-02 3.49e-02f 1
49 7.1382500e+08 1.70e+06 2.59e+03 -1.0 1.48e+07 -13.1 1.94e-01 1.57e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 7.1327954e+08 1.49e+06 2.27e+03 -1.0 6.87e+07 -13.6 1.21e-02 1.23e-01f 1
51 7.1316823e+08 1.39e+06 2.11e+03 -1.0 1.64e+07 -13.2 3.88e-01 7.09e-02h 1
52 7.1311335e+08 1.22e+06 1.87e+03 -1.0 7.27e+06 -12.7 1.00e+00 1.17e-01h 1
53 7.1224284e+08 3.30e+06 2.09e+03 -1.0 1.30e+07 -13.2 1.00e+00 9.08e-01f 1
54 7.0838537e+08 4.49e+07 1.87e+03 -1.0 2.49e+08 - 1.12e-01 1.68e-01f 1
55 7.0834685e+08 4.48e+07 1.87e+03 -1.0 1.89e+08 - 4.88e-01 2.26e-03h 1
56 7.0836093e+08 1.49e+07 6.24e+02 -1.0 5.45e+06 - 1.00e+00 6.66e-01h 1
57 7.0836679e+08 7.64e+04 1.66e+01 -1.0 2.89e+06 - 1.00e+00 1.00e+00h 1
58 7.0836680e+08 1.96e+04 6.07e-03 -1.0 1.48e+06 - 1.00e+00 1.00e+00h 1
59 7.0836685e+08 9.26e+02 2.82e-04 -1.0 3.23e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 7.0833955e+08 7.61e+04 1.39e+01 -1.7 3.00e+06 - 1.00e+00 5.64e-01f 1
61 7.0832548e+08 1.20e+04 9.80e-02 -1.7 1.14e+06 - 9.25e-01 1.00e+00h 1
62 7.0832423e+08 9.97e+03 4.25e-02 -1.7 4.13e+06 - 1.00e+00 9.57e-01H 1
63 7.0832466e+08 2.34e+04 6.72e-03 -1.7 1.59e+06 - 1.00e+00 1.00e+00h 1
64 7.0832472e+08 1.14e+03 4.81e-03 -1.7 3.58e+05 - 1.00e+00 1.00e+00h 1
65 7.0832472e+08 2.36e+00 3.41e-03 -1.7 1.63e+04 - 1.00e+00 1.00e+00h 1
66 7.0831705e+08 4.78e+04 1.01e+00 -3.8 2.89e+06 - 6.61e-01 7.88e-01f 1
67 7.0831510e+08 9.43e+03 1.08e-01 -3.8 8.69e+05 - 1.00e+00 9.35e-01h 1
68 7.0831497e+08 2.87e-01 3.26e-07 -3.8 5.46e+03 - 1.00e+00 1.00e+00h 1
69 7.0831490e+08 4.83e+00 1.55e-06 -5.7 2.28e+04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 7.0831490e+08 1.43e-06 1.85e-11 -5.7 1.05e+01 - 1.00e+00 1.00e+00h 1
71 7.0831490e+08 7.41e-04 2.38e-10 -8.6 2.82e+02 - 1.00e+00 1.00e+00h 1
72 7.0831490e+08 1.43e-06 1.84e-12 -8.6 1.63e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 72
(scaled) (unscaled)
Objective...............: 7.0831489647488066e+04 7.0831489647488058e+08
Dual infeasibility......: 1.8388928545058750e-12 1.8388928545058750e-08
Constraint violation....: 3.7252902984619141e-09 1.4305114746093750e-06
Complementarity.........: 2.5065421388331694e-09 2.5065421388331694e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5065421388331694e-05
Number of objective function evaluations = 74
Number of objective gradient evaluations = 73
Number of equality constraint evaluations = 74
Number of inequality constraint evaluations = 74
Number of equality constraint Jacobian evaluations = 73
Number of inequality constraint Jacobian evaluations = 73
Number of Lagrangian Hessian evaluations = 72
Total CPU secs in IPOPT (w/o function evaluations) = 3.782
Total CPU secs in NLP function evaluations = 98.612
EXIT: Optimal Solution Found.
Implemented Power (MPC) 389
Realized SOC (MPC) 1153640
Fixed costs: 78638.35
Variable costs: 31237.35
Number on/offs: 1
Sum on/off ramps: 170.00
Sum nominal ramps: 415.44
Simulating time_step 2020-07-10 15:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16012
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6078
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 7.0851490e+08 6.54e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 7.0850021e+08 6.53e+05 9.98e+01 -1.0 4.80e+07 - 9.16e-05 7.81e-04h 1
2 7.0853194e+08 6.52e+05 1.03e+02 -1.0 8.10e+06 - 6.19e-06 2.39e-03h 1
3 7.0861835e+08 6.50e+05 1.03e+02 -1.0 1.16e+06 - 2.15e-03 2.63e-03h 1
4 7.0887481e+08 6.46e+05 1.02e+02 -1.0 1.16e+06 - 5.68e-03 6.10e-03h 1
5 7.0942406e+08 6.38e+05 1.01e+02 -1.0 1.14e+06 - 1.34e-02 1.23e-02h 1
6 7.1266429e+08 5.92e+05 1.02e+02 -1.0 1.12e+06 - 2.74e-02 7.25e-02h 1
7 7.1638126e+08 5.39e+05 8.17e+01 -1.0 9.98e+05 - 2.96e-01 8.98e-02h 1
8 7.2458240e+08 4.21e+05 6.38e+01 -1.0 7.63e+05 - 2.59e-01 2.19e-01h 1
9 7.2468138e+08 4.19e+05 1.22e+03 -1.0 5.25e+05 - 4.95e-01 3.41e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3567707e+08 2.56e+05 1.85e+03 -1.0 4.98e+05 - 5.10e-01 3.90e-01h 1
11 7.3599674e+08 2.50e+05 9.89e+02 -1.0 6.13e+05 - 7.32e-01 2.10e-02h 1
12 7.3690065e+08 2.19e+05 2.24e+03 -1.0 2.07e+06 - 7.74e-01 1.26e-01h 1
13 7.3190385e+08 1.74e+05 1.92e+03 -1.0 8.74e+06 - 3.16e-01 2.06e-01f 1
14 7.3177542e+08 1.73e+05 2.70e+03 -1.0 1.27e+07 - 8.62e-01 4.56e-03h 1
15 7.2572514e+08 1.68e+05 2.62e+03 -1.0 8.04e+07 - 4.62e-02 3.06e-02f 1
16 7.2455893e+08 1.66e+05 2.62e+03 -1.0 7.70e+07 - 1.67e-01 8.14e-03f 1
17 7.2217609e+08 1.62e+05 2.56e+03 -1.0 8.93e+07 - 1.03e-01 2.85e-02f 1
18 7.1610071e+08 1.45e+05 2.32e+03 -1.0 9.75e+07 - 2.35e-01 1.01e-01f 1
19 7.1143589e+08 1.36e+05 2.19e+03 -1.0 1.19e+08 - 1.70e-01 6.18e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.1139274e+08 1.36e+05 2.26e+03 -1.0 5.26e+07 - 9.21e-01 1.42e-03h 1
21 7.0584402e+08 1.85e+06 1.24e+03 -1.0 2.08e+08 - 2.81e-02 4.50e-01f 1
22 7.0577012e+08 1.84e+06 1.24e+03 -1.0 1.89e+08 - 5.65e-01 4.89e-03h 1
23 7.0473891e+08 1.51e+06 1.02e+03 -1.0 1.90e+07 - 1.31e-02 1.76e-01f 1
24 7.0442994e+08 1.49e+06 1.01e+03 -1.0 1.51e+08 - 1.47e-03 1.20e-02f 1
25 7.0391614e+08 1.45e+06 9.86e+02 -1.0 1.26e+08 - 9.09e-02 2.37e-02f 1
26 7.0350318e+08 1.32e+06 9.01e+02 -1.0 1.92e+07 - 8.28e-01 8.99e-02h 1
27 7.0239614e+08 1.25e+06 8.58e+02 -1.0 7.37e+07 - 2.23e-01 4.94e-02f 1
28 7.0074264e+08 1.24e+06 7.86e+02 -1.0 8.44e+07 - 2.63e-02 8.30e-02f 1
29 6.9981416e+08 1.68e+06 7.44e+02 -1.0 9.88e+07 - 5.03e-02 5.37e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.9981458e+08 1.68e+06 7.44e+02 -1.0 1.14e+05 -4.0 7.07e-04 2.77e-04h 1
31r 6.9981458e+08 1.68e+06 9.99e+02 4.6 0.00e+00 -4.5 0.00e+00 3.71e-07R 4
32r 7.9900721e+08 1.67e+06 1.52e+04 4.6 3.96e+06 - 2.15e-04 1.01e-03f 1
33r 7.9961610e+08 1.65e+06 9.28e+03 3.3 3.93e+06 - 1.04e-01 6.72e-03f 1
34 7.8322359e+08 2.08e+06 9.40e+01 -1.0 1.05e+09 - 3.94e-03 5.98e-02f 1
35 7.8307615e+08 2.08e+06 9.39e+01 -1.0 1.33e+09 - 5.35e-02 4.68e-04f 1
36 7.6996548e+08 3.66e+06 8.30e+01 -1.0 9.72e+07 - 4.05e-01 1.13e-01f 1
37 7.6836047e+08 3.65e+06 8.15e+01 -1.0 1.06e+08 - 5.74e-01 1.58e-02f 1
38 7.5728020e+08 6.15e+06 7.24e+01 -1.0 1.12e+08 - 5.47e-01 1.12e-01f 1
39 7.4885678e+08 5.50e+06 6.46e+01 -1.0 6.57e+07 - 7.89e-01 1.08e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.2647826e+08 1.16e+07 4.30e+01 -1.0 5.43e+07 - 7.09e-01 3.35e-01f 1
41 7.2641637e+08 1.16e+07 5.42e+02 -1.0 2.57e+05 -5.0 3.44e-02 1.56e-03f 1
42 7.2629581e+08 1.15e+07 5.40e+02 -1.0 5.19e+07 - 3.51e-03 6.95e-03f 1
43 7.2604378e+08 1.14e+07 5.40e+02 -1.0 1.25e+08 - 4.95e-04 5.80e-03f 1
44 7.2547128e+08 1.12e+07 5.01e+02 -1.0 7.29e+07 - 7.20e-02 1.58e-02f 1
45 7.2114903e+08 9.95e+06 4.72e+03 -1.0 6.94e+07 - 2.57e-01 1.26e-01f 1
46 7.1598466e+08 8.44e+06 1.09e+04 -1.0 5.82e+07 - 1.84e-02 1.80e-01f 1
47 7.1588487e+08 8.40e+06 1.08e+04 -1.0 4.73e+07 - 3.42e-02 4.29e-03f 1
48 7.0030598e+08 6.78e+06 6.85e+04 -1.0 4.70e+07 - 3.36e-01 6.77e-01f 1
49 6.9995858e+08 6.57e+06 6.61e+04 -1.0 2.16e+07 - 3.25e-01 3.51e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.9785640e+08 6.06e+06 5.24e+04 -1.0 2.04e+07 - 2.39e-01 2.22e-01f 1
51 6.9771466e+08 5.93e+06 5.13e+04 -1.0 1.69e+07 - 9.47e-01 2.19e-02f 1
52 6.9330638e+08 6.04e+06 1.73e+04 -1.0 1.30e+07 - 8.01e-01 7.42e-01f 1
53 6.9325910e+08 5.87e+06 1.68e+04 -1.0 9.26e+06 - 1.00e+00 2.91e-02h 1
54 6.9325775e+08 5.85e+06 1.67e+04 -1.0 6.11e+06 - 2.27e-02 2.16e-03h 1
55 6.9310042e+08 4.06e+06 1.16e+04 -1.0 9.88e+06 - 1.28e-02 3.04e-01f 1
56 6.9291534e+08 2.14e+06 6.19e+03 -1.0 8.21e+06 - 4.70e-01 4.66e-01h 1
57 6.9284407e+08 1.65e+06 4.78e+03 -1.0 1.21e+07 - 9.13e-01 2.28e-01h 1
58 6.9273430e+08 2.26e+05 1.02e+02 -1.0 4.90e+06 - 1.00e+00 1.00e+00h 1
59 6.9273345e+08 2.84e+05 1.02e+02 -1.0 1.13e+10 - 2.67e-03 2.41e-04h 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.9272683e+08 1.72e+05 6.20e+01 -1.0 3.75e+06 - 1.00e+00 3.94e-01h 1
61 6.9272559e+08 3.11e+03 4.54e-02 -1.0 6.39e+05 - 1.00e+00 1.00e+00h 1
62 6.9272557e+08 1.96e+01 4.54e-02 -1.0 4.53e+04 - 1.00e+00 1.00e+00h 1
63 6.9269787e+08 1.22e+05 1.81e+01 -2.5 4.47e+06 - 9.47e-01 4.87e-01f 1
64 6.9267544e+08 8.26e+04 1.56e+00 -2.5 3.15e+06 - 1.00e+00 9.23e-01h 1
65 6.9267371e+08 8.77e+00 8.51e-04 -2.5 4.88e+04 - 1.00e+00 1.00e+00h 1
66 6.9267237e+08 1.80e+02 7.56e-05 -3.8 1.34e+05 - 1.00e+00 1.00e+00h 1
67 6.9267237e+08 1.19e-02 3.83e-09 -3.8 9.55e+02 - 1.00e+00 1.00e+00h 1
68 6.9267229e+08 5.74e-01 2.37e-07 -5.7 7.58e+03 - 1.00e+00 1.00e+00f 1
69 6.9267229e+08 9.54e-07 1.85e-11 -5.7 2.75e+00 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.9267229e+08 8.85e-05 3.64e-11 -8.6 9.40e+01 - 1.00e+00 1.00e+00h 1
71 6.9267229e+08 1.91e-06 1.49e-12 -9.0 8.19e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 71
(scaled) (unscaled)
Objective...............: 6.9267229189786856e+04 6.9267229189786851e+08
Dual infeasibility......: 1.4923231928912709e-12 1.4923231928912709e-08
Constraint violation....: 3.7252902984619141e-09 1.9073486328125000e-06
Complementarity.........: 9.0940129865789716e-10 9.0940129865789716e-06
Overall NLP error.......: 3.7252902984619141e-09 9.0940129865789716e-06
Number of objective function evaluations = 78
Number of objective gradient evaluations = 71
Number of equality constraint evaluations = 78
Number of inequality constraint evaluations = 78
Number of equality constraint Jacobian evaluations = 73
Number of inequality constraint Jacobian evaluations = 73
Number of Lagrangian Hessian evaluations = 71
Total CPU secs in IPOPT (w/o function evaluations) = 3.393
Total CPU secs in NLP function evaluations = 237.464
EXIT: Optimal Solution Found.
Implemented Power (MPC) 367
Realized SOC (MPC) 1461583
Fixed costs: 83881.36
Variable costs: 28318.12
Number on/offs: 1
Sum on/off ramps: 170.00
Sum nominal ramps: 243.94
Simulating time_step 2020-07-10 16:00
Creating and solving SCED to determine UC initial conditions for date: 2020-07-11 hour: 0
Using persistent forecast error model when projecting demand and renewables in SCED
Extracting scenario to simulate
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16008
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6077
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.9287229e+08 3.08e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.9286817e+08 3.08e+05 9.90e+01 -1.0 1.29e+07 - 2.36e-04 2.26e-04h 1
2 6.9310633e+08 3.07e+05 9.97e+01 -1.0 1.10e+07 - 1.47e-05 3.26e-03h 1
3 6.9338370e+08 3.06e+05 1.01e+02 -1.0 4.69e+05 - 5.17e-04 2.86e-03h 1
4 6.9395509e+08 3.04e+05 1.00e+02 -1.0 4.62e+05 - 5.85e-03 5.59e-03h 1
5 6.9508058e+08 3.01e+05 9.82e+01 -1.0 4.52e+05 - 1.46e-02 1.08e-02h 1
6 7.0265412e+08 2.79e+05 1.00e+02 -1.0 4.33e+05 - 2.51e-02 7.27e-02h 1
7 7.1129691e+08 2.54e+05 8.18e+01 -1.0 3.75e+05 - 1.49e-01 8.95e-02h 1
8 7.4521051e+08 1.56e+05 7.55e+01 -1.0 3.12e+05 - 2.24e-01 3.86e-01h 1
9 7.4558275e+08 1.55e+05 4.17e+02 -1.0 1.74e+05 - 5.39e-01 6.94e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.6570930e+08 9.58e+04 1.61e+03 -1.0 3.02e+05 - 5.68e-01 3.82e-01h 1
11 7.6688522e+08 9.22e+04 9.99e+02 -1.0 5.73e+05 - 8.12e-01 3.80e-02h 1
12 7.6942059e+08 8.04e+04 1.85e+03 -1.0 2.82e+06 - 8.22e-01 1.27e-01h 1
13 7.6824256e+08 7.66e+04 2.08e+03 -1.0 1.54e+07 - 5.14e-01 4.83e-02f 1
14 7.6629728e+08 7.35e+04 2.03e+03 -1.0 3.08e+07 - 1.40e-01 3.99e-02f 1
15 7.6501969e+08 7.11e+04 2.03e+03 -1.0 3.52e+07 - 2.69e-01 3.31e-02f 1
16 7.6318631e+08 6.86e+04 1.99e+03 -1.0 4.42e+07 - 1.85e-01 3.50e-02f 1
17 7.6225450e+08 6.64e+04 1.95e+03 -1.0 3.00e+07 - 1.64e-01 3.23e-02f 1
18 7.6035359e+08 6.11e+04 1.83e+03 -1.0 4.05e+07 - 2.98e-01 7.99e-02f 1
19 7.6043725e+08 6.06e+04 1.83e+03 -1.0 1.11e+07 - 1.51e-01 7.35e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.7213411e+08 2.23e+04 1.01e+03 -1.0 1.32e+07 - 1.37e-01 7.66e-01h 1
21 7.4644782e+08 4.91e+05 7.97e+02 -1.0 7.49e+07 - 8.67e-03 6.72e-01f 1
22 7.3586937e+08 4.58e+05 5.25e+02 -1.0 1.00e+08 - 4.08e-01 1.93e-01f 1
23 7.2335761e+08 4.94e+05 3.82e+02 -1.0 1.98e+08 - 4.53e-01 1.15e-01f 1
24 7.2323074e+08 4.93e+05 3.18e+02 -1.0 2.89e+08 - 2.88e-01 7.86e-04f 1
25 7.1773432e+08 3.83e+05 1.16e+02 -1.0 6.22e+07 - 6.32e-01 6.41e-01f 1
26 7.1301620e+08 5.37e+05 9.18e+01 -1.0 1.47e+08 - 8.68e-01 2.06e-01f 1
27 7.1287450e+08 5.36e+05 9.15e+01 -1.0 4.27e+08 - 6.45e-02 2.54e-03f 1
28 7.1202535e+08 5.26e+05 8.99e+01 -1.0 4.15e+08 - 1.53e-03 1.78e-02f 1
29 7.1200038e+08 5.26e+05 8.98e+01 -1.0 5.76e+07 - 2.25e-01 1.28e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.1050535e+08 8.03e+05 8.12e+01 -1.0 5.75e+07 - 1.77e-02 9.57e-02f 1
31 7.1036387e+08 7.94e+05 8.02e+01 -1.0 3.51e+07 - 1.17e-01 1.23e-02f 1
32 7.0859944e+08 1.91e+06 6.85e+01 -1.0 3.58e+07 - 8.77e-02 1.46e-01f 1
33 7.0850061e+08 1.90e+06 6.78e+01 -1.0 3.98e+07 - 7.47e-02 1.03e-02f 1
34 7.0676214e+08 4.26e+06 5.56e+01 -1.0 4.11e+07 - 1.93e-01 1.80e-01f 1
35 7.0537056e+08 5.23e+06 4.88e+01 -1.0 5.10e+07 - 2.45e-01 1.21e-01f 1
36 7.0203385e+08 1.17e+07 3.82e+01 -1.0 6.73e+07 - 1.46e-01 2.15e-01f 1
37 7.0170584e+08 1.15e+07 3.75e+01 -1.0 1.18e+08 - 2.22e-01 1.73e-02f 1
38 7.0072710e+08 1.16e+07 3.56e+01 -1.0 1.47e+08 - 4.15e-01 4.88e-02f 1
39 6.9994465e+08 1.16e+07 3.39e+01 -1.0 9.90e+07 - 6.68e-01 4.69e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.9696186e+08 2.39e+07 2.59e+01 -1.0 1.10e+08 - 7.38e-01 2.04e-01f 1
41 6.9698213e+08 1.95e+07 6.22e+03 -1.0 3.28e+04 -4.0 7.31e-02 1.83e-01h 1
42 6.9698236e+08 1.94e+07 6.21e+03 -1.0 2.68e+04 -4.5 2.88e-01 2.29e-03h 1
43 6.9698353e+08 1.91e+07 6.12e+03 -1.0 1.05e+06 - 8.08e-02 1.83e-02h 1
44 6.9703241e+08 1.38e+07 1.55e+04 -1.0 6.58e+05 - 1.94e-01 2.78e-01h 1
45 6.9706047e+08 9.13e+06 1.97e+04 -1.0 4.34e+05 - 8.92e-01 3.38e-01h 1
46 6.9711812e+08 2.00e+04 3.11e+04 -1.0 2.34e+05 - 1.00e+00 1.00e+00h 1
47 6.9711792e+08 1.95e-02 1.99e+00 -1.0 1.47e+01 -5.0 1.00e+00 1.00e+00h 1
48 6.9711796e+08 5.96e-06 1.65e-03 -1.0 3.12e+01 -5.4 1.00e+00 1.00e+00f 1
49 6.9710283e+08 1.89e-06 3.72e+01 -2.5 2.64e+01 -5.9 1.00e+00 8.71e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.9684678e+08 1.40e+05 3.70e+01 -2.5 2.00e+09 - 7.95e-03 1.04e-03f 1
51 6.9532531e+08 8.90e+06 3.69e+01 -2.5 2.94e+09 - 7.77e-05 6.06e-03f 1
52 6.9508314e+08 9.21e+06 3.64e+01 -2.5 3.17e+09 - 3.10e-02 9.59e-04f 1
53 6.9365622e+08 1.61e+07 3.61e+01 -2.5 2.97e+09 - 7.15e-03 6.51e-03f 1
54 6.9364356e+08 1.61e+07 3.49e+01 -2.5 4.52e+08 - 9.60e-02 2.16e-04f 1
55 6.8928107e+08 5.80e+07 4.09e+01 -2.5 4.52e+08 - 2.47e-01 1.01e-01f 1
56 6.8557800e+08 8.22e+07 6.59e+01 -2.5 5.24e+08 - 2.00e-01 7.58e-02f 1
57 6.8556748e+08 8.21e+07 6.59e+01 -2.5 4.28e+08 - 7.30e-01 2.68e-04h 1
58 6.8555339e+08 5.45e+07 4.69e+01 -2.5 1.31e+07 - 3.86e-01 3.36e-01h 1
59 6.8555333e+08 5.40e+07 4.65e+01 -2.5 1.10e+08 - 1.25e-01 9.13e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.8555390e+08 4.85e+07 4.19e+01 -2.5 1.25e+08 - 2.61e-02 1.01e-01h 1
61 6.8557489e+08 1.90e+07 3.26e+01 -2.5 2.31e+07 - 3.20e-02 6.08e-01h 1
62 6.8556829e+08 1.87e+07 3.22e+01 -2.5 3.60e+08 - 1.89e-01 1.51e-02h 1
63 6.8555393e+08 1.81e+07 3.20e+01 -2.5 3.40e+08 - 6.07e-01 3.22e-02h 1
64 6.8553949e+08 1.68e+07 3.11e+01 -2.5 1.61e+08 - 6.50e-01 7.09e-02h 1
65 6.8552255e+08 1.07e+07 2.72e+01 -2.5 5.34e+07 - 4.42e-01 4.29e-01h 1
66 6.8551188e+08 1.02e+07 2.39e+01 -2.5 6.21e+07 - 1.84e-03 1.47e-01h 1
67 6.8550253e+08 1.00e+07 2.37e+01 -2.5 3.30e+08 - 1.23e-03 1.30e-02h 1
68 6.8549999e+08 9.81e+06 2.27e+01 -2.5 7.21e+07 - 1.18e-01 4.12e-02h 1
69 6.8551783e+08 2.51e+05 4.85e-01 -2.5 1.07e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.8551656e+08 4.73e+04 6.07e-03 -2.5 1.51e+06 - 1.00e+00 1.00e+00h 1
71 6.8551653e+08 8.77e+00 1.93e-06 -2.5 3.08e+04 - 1.00e+00 1.00e+00h 1
72 6.8551519e+08 2.52e+02 1.66e-02 -3.8 1.09e+05 - 1.00e+00 9.84e-01h 1
73 6.8551517e+08 4.53e-01 1.29e-07 -3.8 4.62e+03 - 1.00e+00 1.00e+00h 1
74 6.8551509e+08 8.85e-01 5.44e-07 -5.7 6.39e+03 - 1.00e+00 1.00e+00h 1
75 6.8551509e+08 1.67e-06 1.85e-11 -5.7 8.49e+00 - 1.00e+00 1.00e+00h 1
76 6.8551509e+08 1.37e-04 8.39e-11 -8.6 7.94e+01 - 1.00e+00 1.00e+00h 1
77 6.8551509e+08 1.91e-06 1.43e-12 -9.0 7.01e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 77
(scaled) (unscaled)
Objective...............: 6.8551508972633965e+04 6.8551508972633958e+08
Dual infeasibility......: 1.4293513275279622e-12 1.4293513275279622e-08
Constraint violation....: 3.7252902984619141e-09 1.9073486328125000e-06
Complementarity.........: 9.0986151008905458e-10 9.0986151008905456e-06
Overall NLP error.......: 3.7252902984619141e-09 9.0986151008905456e-06
Number of objective function evaluations = 78
Number of objective gradient evaluations = 78
Number of equality constraint evaluations = 78
Number of inequality constraint evaluations = 78
Number of equality constraint Jacobian evaluations = 78
Number of inequality constraint Jacobian evaluations = 78
Number of Lagrangian Hessian evaluations = 77
Total CPU secs in IPOPT (w/o function evaluations) = 3.578
Total CPU secs in NLP function evaluations = 115.478
EXIT: Optimal Solution Found.
Implemented Power (MPC) 455
Realized SOC (MPC) 1230778
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16004
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6076
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.8571509e+08 2.31e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.8566291e+08 2.30e+05 9.93e+01 -1.0 3.03e+05 - 6.50e-03 2.90e-03h 1
2 6.8574841e+08 2.28e+05 9.85e+01 -1.0 3.03e+05 - 3.58e-03 7.64e-03h 1
3 6.8596050e+08 2.26e+05 9.76e+01 -1.0 3.01e+05 - 1.12e-02 1.22e-02h 1
4 6.8694384e+08 2.13e+05 9.82e+01 -1.0 3.00e+05 - 2.77e-02 5.36e-02h 1
5 6.8731807e+08 2.09e+05 9.01e+01 -1.0 2.97e+05 - 4.50e-01 2.12e-02h 1
6 6.8747648e+08 2.07e+05 3.23e+02 -1.0 1.54e+07 - 7.63e-02 8.24e-03h 1
7 6.8927670e+08 1.88e+05 6.59e+02 -1.0 1.57e+07 - 2.01e-01 9.43e-02h 1
8 6.9764871e+08 8.23e+05 5.07e+02 -1.0 1.42e+07 - 2.82e-01 4.90e-01h 1
9 6.9784392e+08 8.03e+05 6.55e+02 -1.0 7.24e+06 - 7.92e-01 2.46e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.9848005e+08 6.97e+05 9.29e+02 -1.0 7.06e+06 - 7.97e-01 1.60e-01h 1
11 6.9842415e+08 6.94e+05 1.42e+03 -1.0 6.32e+06 - 4.76e-01 3.67e-03h 1
12 6.9618361e+08 6.50e+05 1.56e+03 -1.0 1.15e+07 - 1.66e-01 6.87e-02f 1
13 6.9377707e+08 6.04e+05 1.37e+03 -1.0 1.33e+07 - 2.69e-03 7.46e-02f 1
14 6.9361395e+08 6.00e+05 8.82e+02 -1.0 1.33e+07 - 8.51e-01 7.01e-03h 1
15 6.8848734e+08 5.78e+05 8.49e+02 -1.0 7.54e+07 - 7.67e-02 3.76e-02f 1
16 6.8783436e+08 5.74e+05 8.43e+02 -1.0 7.69e+07 - 7.04e-02 7.62e-03f 1
17 6.8644680e+08 5.60e+05 8.23e+02 -1.0 8.19e+07 - 2.97e-01 2.51e-02f 1
18 6.8542977e+08 5.45e+05 8.01e+02 -1.0 6.94e+07 - 6.70e-02 2.67e-02f 1
19 6.8533434e+08 5.22e+05 7.67e+02 -1.0 1.54e+07 - 4.39e-01 4.46e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.8159628e+08 3.25e+05 3.40e+02 -1.0 2.85e+07 - 1.74e-01 8.26e-01f 1
21 6.7496178e+08 2.58e+05 1.07e+02 -1.0 3.31e+07 - 7.63e-01 9.56e-01f 1
22 6.7290022e+08 2.61e+05 9.87e+01 -1.0 1.23e+08 - 7.50e-01 7.56e-02f 1
23 6.7246912e+08 2.61e+05 9.80e+01 -1.0 3.42e+08 - 2.91e-02 7.87e-03f 1
24 6.6809360e+08 4.31e+05 8.87e+01 -1.0 3.47e+08 - 1.79e-01 7.85e-02f 1
25 6.6792375e+08 4.29e+05 8.83e+01 -1.0 3.20e+08 - 1.24e-01 4.65e-03f 1
26 6.6719685e+08 4.19e+05 8.65e+01 -1.0 3.34e+08 - 3.72e-01 2.16e-02f 1
27 6.6714746e+08 4.17e+05 8.60e+01 -1.0 2.37e+07 - 3.25e-02 5.94e-03f 1
28 6.6638903e+08 3.65e+05 7.69e+01 -1.0 2.22e+07 - 4.02e-01 1.06e-01f 1
29 6.6521142e+08 1.22e+06 6.06e+01 -1.0 3.36e+07 - 4.90e-02 2.12e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.6452627e+08 1.63e+06 5.24e+01 -1.0 3.70e+07 - 5.73e-02 1.34e-01f 1
31 6.6446873e+08 1.61e+06 5.20e+01 -1.0 3.86e+07 - 1.13e-01 1.06e-02f 1
32 6.6367557e+08 2.16e+06 4.53e+01 -1.0 4.29e+07 - 3.47e-01 1.32e-01f 1
33 6.6317772e+08 2.46e+06 4.21e+01 -1.0 5.92e+07 - 1.37e-01 7.36e-02f 1
34 6.6245394e+08 3.13e+06 3.80e+01 -1.0 6.27e+07 - 9.34e-02 9.60e-02f 1
35 6.6138779e+08 4.15e+06 3.33e+01 -1.0 6.26e+07 - 6.30e-03 1.18e-01f 1
36 6.6128858e+08 4.11e+06 3.32e+01 -1.0 6.32e+07 - 1.74e-01 1.29e-02f 1
37 6.6034712e+08 5.13e+06 2.95e+01 -1.0 6.62e+07 - 1.30e-01 1.12e-01f 1
38 6.6020665e+08 5.07e+06 2.92e+01 -1.0 6.07e+07 - 1.77e-01 2.27e-02f 1
39 6.5997079e+08 5.06e+06 2.89e+01 -1.0 5.93e+07 - 6.68e-01 4.64e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.5713190e+08 3.06e+07 5.51e+00 -1.0 5.86e+07 - 5.96e-01 8.01e-01f 1
41 6.5709511e+08 1.26e+07 2.21e+00 -1.0 1.25e+07 - 5.30e-01 5.94e-01h 1
42 6.5708310e+08 9.88e+06 1.74e+00 -1.0 1.09e+08 - 2.91e-01 2.17e-01h 1
43 6.5710887e+08 5.83e+06 2.55e+05 -1.0 2.45e+05 -4.0 2.50e-02 4.08e-01h 1
44 6.5711598e+08 4.92e+06 2.11e+05 -1.0 1.45e+05 -4.5 5.03e-01 1.55e-01h 1
45 6.5711619e+08 4.90e+06 2.10e+05 -1.0 1.23e+05 -5.0 9.96e-01 5.27e-03h 1
46 6.5711678e+08 4.83e+06 2.07e+05 -1.0 1.22e+05 -5.4 1.00e+00 1.44e-02h 1
47 6.5711686e+08 4.83e+06 2.07e+05 -1.0 1.04e+06 -5.9 8.88e-03 3.96e-04h 1
48 6.5712221e+08 4.74e+06 2.03e+05 -1.0 1.65e+06 -6.4 1.58e-02 1.79e-02h 1
49 6.5712933e+08 4.62e+06 1.98e+05 -1.0 1.63e+06 -6.9 6.70e-02 2.40e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.5713048e+08 4.61e+06 1.97e+05 -1.0 1.60e+06 -7.3 7.13e-02 3.33e-03h 1
51 6.5716813e+08 4.09e+06 1.71e+05 -1.0 1.59e+06 -7.8 1.74e-01 1.11e-01h 1
52 6.5722023e+08 3.37e+06 1.30e+05 -1.0 1.46e+06 -8.3 2.10e-01 1.75e-01h 1
53 6.5723499e+08 3.12e+06 1.19e+05 -1.0 1.25e+06 -8.8 5.27e-01 7.29e-02h 1
54 6.5733240e+08 2.00e+06 5.40e+04 -1.0 1.17e+06 -9.2 3.45e-01 3.51e-01h 1
55 6.5748684e+08 9.70e+05 7.20e+04 -1.0 7.98e+05 -9.7 6.17e-01 5.05e-01h 1
56 6.5755921e+08 1.75e+04 4.69e+04 -1.0 4.26e+05 -10.2 1.00e+00 1.00e+00h 1
57 6.5735392e+08 1.10e+04 2.97e+04 -1.0 7.24e+05 -10.7 1.00e+00 3.66e-01f 1
58 6.5728841e+08 1.03e+04 2.76e+04 -1.0 1.47e+06 -11.2 1.00e+00 6.97e-02f 1
59 6.5719896e+08 8.99e+03 2.43e+04 -1.0 1.62e+06 -11.6 1.00e+00 1.22e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.5718459e+08 1.58e+03 4.29e+03 -1.0 1.62e+05 -12.1 1.00e+00 8.23e-01f 1
61 6.5718648e+08 8.67e+02 1.09e+00 -1.0 2.27e+05 -12.6 1.00e+00 1.00e+00h 1
62 6.5718482e+08 2.49e+03 6.43e-03 -1.0 5.16e+05 -13.1 1.00e+00 1.00e+00h 1
63 6.5715594e+08 4.33e+03 1.30e+00 -1.7 8.09e+05 -13.5 7.67e-01 7.28e-01f 1
64 6.5714271e+08 8.09e+04 2.28e-02 -1.7 2.93e+06 -14.0 1.00e+00 1.00e+00h 1
65 6.5713612e+08 3.41e+05 9.15e-02 -1.7 9.45e+06 -14.5 5.36e-01 6.08e-01h 1
66 6.5712476e+08 6.34e+06 1.19e+00 -1.7 3.77e+07 -15.0 1.00e+00 6.51e-01h 1
67 6.5712263e+08 5.11e+06 9.53e-01 -1.7 2.86e+06 -14.5 1.00e+00 1.94e-01h 1
68 6.5711224e+08 2.67e+06 6.09e-01 -1.7 1.61e+07 -15.0 1.00e+00 1.00e+00h 1
69 6.5710346e+08 9.06e+05 1.18e-01 -1.7 7.93e+06 -14.6 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.5707154e+08 1.16e+07 2.55e+00 -1.7 1.32e+08 -15.1 5.57e-01 2.67e-01h 1
71 6.5706833e+08 1.10e+07 2.63e+00 -1.7 2.04e+07 -14.7 1.00e+00 6.15e-02h 1
72 6.5703727e+08 1.10e+07 4.39e+00 -1.7 1.71e+08 -15.1 4.97e-01 1.22e-01h 1
73 6.5703405e+08 1.02e+07 3.99e+00 -1.7 2.83e+07 - 2.00e-01 8.04e-02h 1
74 6.5701796e+08 1.42e+07 2.51e+00 -1.7 7.69e+07 - 5.30e-01 3.21e-01h 1
75 6.5700958e+08 8.11e+06 6.69e-01 -1.7 1.90e+07 - 1.00e+00 1.00e+00h 1
76 6.5700405e+08 6.19e+06 8.89e-01 -1.7 1.83e+07 - 8.95e-01 1.00e+00h 1
77 6.5700357e+08 1.83e+04 8.44e-04 -1.7 5.75e+05 - 1.00e+00 1.00e+00h 1
78 6.5700356e+08 8.58e+00 2.37e-06 -1.7 3.10e+04 - 1.00e+00 1.00e+00h 1
79 6.5699559e+08 5.41e+04 1.49e+00 -3.8 2.18e+06 - 9.44e-01 7.64e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.5699318e+08 1.01e+04 2.31e-03 -3.8 7.32e+05 - 1.00e+00 1.00e+00h 1
81 6.5699319e+08 2.67e-01 3.05e-08 -3.8 5.77e+03 - 1.00e+00 1.00e+00h 1
82 6.5699311e+08 7.52e+00 1.97e-06 -5.7 1.98e+04 - 1.00e+00 1.00e+00h 1
83 6.5699311e+08 4.29e-06 1.85e-11 -5.7 1.46e+01 - 1.00e+00 1.00e+00h 1
84 6.5699311e+08 1.16e-03 3.04e-10 -8.6 2.46e+02 - 1.00e+00 1.00e+00h 1
85 6.5699311e+08 1.43e-06 1.46e-12 -8.6 2.24e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 85
(scaled) (unscaled)
Objective...............: 6.5699310783114473e+04 6.5699310783114469e+08
Dual infeasibility......: 1.4593232975207533e-12 1.4593232975207533e-08
Constraint violation....: 2.5611370801925659e-09 1.4305114746093750e-06
Complementarity.........: 2.5065844709071104e-09 2.5065844709071101e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5065844709071101e-05
Number of objective function evaluations = 86
Number of objective gradient evaluations = 86
Number of equality constraint evaluations = 86
Number of inequality constraint evaluations = 86
Number of equality constraint Jacobian evaluations = 86
Number of inequality constraint Jacobian evaluations = 86
Number of Lagrangian Hessian evaluations = 85
Total CPU secs in IPOPT (w/o function evaluations) = 4.571
Total CPU secs in NLP function evaluations = 115.924
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1195986
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16000
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6075
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.5719311e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.5713793e+08 9.97e+04 9.93e+01 -1.0 1.47e+05 - 7.39e-03 3.07e-03h 1
2 6.5718800e+08 9.89e+04 9.85e+01 -1.0 1.84e+05 - 3.83e-03 8.05e-03h 1
3 6.5734570e+08 9.76e+04 9.74e+01 -1.0 1.67e+05 - 1.19e-02 1.29e-02h 1
4 6.5810950e+08 9.20e+04 9.81e+01 -1.0 1.25e+05 - 2.94e-02 5.74e-02h 1
5 6.5964145e+08 8.11e+04 8.07e+01 -1.0 1.24e+05 - 4.59e-01 1.19e-01h 1
6 6.6903233e+08 1.18e+04 6.63e+01 -1.0 1.62e+05 - 2.64e-01 8.54e-01h 1
7 6.6910715e+08 1.10e+04 2.66e+02 -1.0 1.78e+05 - 9.88e-01 7.15e-02h 1
8 6.6731279e+08 1.05e+04 2.47e+02 -1.0 1.28e+07 - 7.13e-02 4.22e-02f 1
9 6.6692079e+08 1.04e+04 1.54e+02 -1.0 1.53e+07 - 3.58e-01 1.12e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.6323161e+08 9.58e+03 1.35e+02 -1.0 2.34e+07 - 1.17e-01 7.92e-02f 1
11 6.6293954e+08 9.51e+03 8.66e+01 -1.0 2.63e+07 - 8.94e-01 7.98e-03f 1
12 6.5855787e+08 9.30e+03 8.47e+01 -1.0 1.63e+08 - 2.26e-02 2.20e-02f 1
13 6.5816026e+08 9.21e+03 8.42e+01 -1.0 5.66e+07 - 5.45e-02 9.00e-03f 1
14 6.5781861e+08 8.72e+03 8.14e+01 -1.0 2.71e+07 - 4.41e-01 6.23e-02h 1
15 6.4927644e+08 4.48e+05 3.88e+02 -1.0 4.59e+07 - 6.72e-02 8.82e-01f 1
16 6.4784466e+08 4.01e+05 3.38e+02 -1.0 4.78e+07 - 5.91e-01 1.31e-01f 1
17 6.4775448e+08 3.99e+05 3.36e+02 -1.0 1.11e+08 - 7.08e-02 5.05e-03f 1
18 6.4180805e+08 7.22e+05 2.26e+02 -1.0 1.17e+08 - 4.99e-01 3.28e-01f 1
19 6.4172918e+08 7.20e+05 2.25e+02 -1.0 1.69e+08 - 2.01e-01 3.09e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.4128924e+08 7.00e+05 2.19e+02 -1.0 1.50e+08 - 8.65e-01 2.80e-02f 1
21 6.4002309e+08 8.13e+05 2.05e+02 -1.0 8.68e+07 - 4.59e-02 6.41e-02f 1
22 6.3990287e+08 8.04e+05 2.02e+02 -1.0 5.21e+07 - 4.63e-02 1.11e-02f 1
23 6.3851283e+08 1.28e+06 1.76e+02 -1.0 5.57e+07 - 1.97e-01 1.29e-01f 1
24 6.3843034e+08 1.27e+06 1.75e+02 -1.0 6.21e+07 - 1.13e-01 1.07e-02f 1
25 6.3729279e+08 2.93e+06 1.51e+02 -1.0 6.97e+07 - 3.58e-01 1.37e-01f 1
26 6.3490650e+08 1.06e+07 1.19e+02 -1.0 9.75e+07 - 1.87e-01 2.09e-01f 1
27 6.3466121e+08 1.04e+07 1.16e+02 -1.0 9.03e+07 - 4.96e-01 2.28e-02f 1
28 6.3403044e+08 1.17e+07 1.06e+02 -1.0 1.08e+08 - 5.43e-01 9.24e-02f 1
29 6.2954311e+08 4.66e+07 1.79e+01 -1.0 8.72e+07 - 7.09e-01 8.31e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.2933730e+08 2.13e+07 9.98e+00 -1.0 5.04e+07 - 3.10e-01 5.45e-01h 1
31 6.2931125e+08 1.92e+07 9.22e+00 -1.0 1.14e+08 - 5.25e-01 1.01e-01h 1
32 6.2931672e+08 1.83e+07 1.75e+04 -1.0 7.63e+05 -4.0 8.10e-03 4.38e-02h 1
33 6.2931678e+08 1.83e+07 1.74e+04 -1.0 7.29e+05 -4.5 9.51e-02 4.65e-04h 1
34 6.2931755e+08 1.82e+07 6.68e+04 -1.0 7.11e+05 -5.0 4.36e-02 4.85e-03h 1
35 6.2948176e+08 5.23e+05 3.04e+05 -1.0 7.07e+05 -5.4 2.93e-01 9.79e-01h 1
36 6.2948198e+08 5.04e+05 4.87e+05 -1.0 1.39e+04 -5.9 9.99e-01 3.69e-02h 1
37 6.2948198e+08 5.04e+05 4.89e+05 -1.0 1.27e+04 -6.4 1.00e+00 3.86e-04h 1
38 6.2948479e+08 4.98e+05 4.82e+05 -1.0 1.63e+06 -6.9 4.81e-02 1.17e-02h 1
39 6.2949534e+08 4.75e+05 4.60e+05 -1.0 1.61e+06 -7.3 2.14e-01 4.47e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.2951563e+08 4.35e+05 4.21e+05 -1.0 1.53e+06 -7.8 1.45e-01 8.49e-02h 1
41 6.2957638e+08 3.00e+05 2.92e+05 -1.0 1.38e+06 -8.3 1.00e+00 3.11e-01h 1
42 6.2965274e+08 7.76e+04 1.20e+05 -1.0 9.13e+05 -8.8 5.41e-01 1.00e+00h 1
43 6.2960820e+08 5.42e+04 8.39e+04 -1.0 3.73e+04 -9.2 9.88e-01 3.02e-01f 1
44 6.2955374e+08 1.23e+04 1.90e+04 -1.0 8.21e+04 -9.7 1.00e+00 7.74e-01f 1
45 6.2951507e+08 8.10e+03 1.25e+04 -1.0 1.49e+05 -10.2 1.00e+00 3.41e-01f 1
46 6.2947684e+08 6.71e+03 1.04e+04 -1.0 2.80e+05 -10.7 1.00e+00 1.71e-01f 1
47 6.2938976e+08 3.83e+03 5.91e+03 -1.0 6.31e+05 -11.2 1.00e+00 4.29e-01f 1
48 6.2936122e+08 3.28e+03 5.06e+03 -1.0 1.33e+06 -11.6 1.00e+00 1.44e-01f 1
49 6.2936813e+08 5.28e+02 1.50e+00 -1.0 1.45e+05 -12.1 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.2936317e+08 3.66e+03 2.02e-02 -1.0 5.04e+05 -12.6 1.00e+00 1.00e+00h 1
51 6.2932068e+08 3.02e+04 2.73e+00 -1.7 1.57e+06 -13.1 8.39e-01 9.21e-01f 1
52 6.2929884e+08 2.44e+05 4.35e-01 -1.7 4.90e+06 -13.5 1.00e+00 8.34e-01h 1
53 6.2922806e+08 2.91e+06 5.77e-01 -1.7 1.49e+07 -14.0 4.73e-01 1.00e+00h 1
54 6.2919129e+08 3.31e+06 1.29e+00 -1.7 5.58e+07 -14.5 1.00e+00 1.28e-01h 1
55 6.2915066e+08 3.86e+06 3.19e+00 -1.7 1.26e+08 -15.0 2.94e-01 6.33e-02h 1
56 6.2914808e+08 3.31e+06 8.62e-01 -1.7 1.17e+07 -14.5 1.00e+00 1.44e-01h 1
57 6.2914108e+08 6.78e+05 4.44e-01 -1.7 8.46e+06 -15.0 4.33e-01 1.00e+00h 1
58 6.2913291e+08 1.43e+06 8.23e-02 -1.7 8.05e+06 -14.6 1.00e+00 1.00e+00h 1
59 6.2912176e+08 1.39e+07 1.62e+00 -1.7 3.67e+08 - 8.30e-03 6.79e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.2912150e+08 1.31e+07 1.53e+00 -1.7 1.89e+07 -15.1 1.00e+00 5.54e-02h 1
61 6.2912001e+08 7.58e+04 8.50e-03 -1.7 1.30e+06 - 1.00e+00 1.00e+00h 1
62 6.2911998e+08 3.63e+03 1.08e-03 -1.7 6.32e+05 - 1.00e+00 1.00e+00h 1
63 6.2911998e+08 2.97e+00 2.26e-07 -1.7 1.25e+04 - 1.00e+00 1.00e+00h 1
64 6.2911184e+08 1.52e+04 1.83e+00 -3.8 1.19e+06 - 9.77e-01 7.57e-01f 1
65 6.2910935e+08 2.42e+03 1.13e-03 -3.8 3.62e+05 - 1.00e+00 1.00e+00h 1
66 6.2910935e+08 3.12e-03 1.50e-09 -3.8 4.43e+02 - 1.00e+00 1.00e+00h 1
67 6.2910927e+08 1.85e+00 9.27e-07 -5.7 9.94e+03 - 1.00e+00 1.00e+00f 1
68 6.2910927e+08 1.19e-06 1.85e-11 -5.7 3.44e+00 - 1.00e+00 1.00e+00h 1
69 6.2910927e+08 2.85e-04 1.43e-10 -8.6 1.23e+02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.2910927e+08 1.43e-06 1.43e-12 -8.6 5.28e-04 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 70
(scaled) (unscaled)
Objective...............: 6.2910927227661574e+04 6.2910927227661574e+08
Dual infeasibility......: 1.4292233340204290e-12 1.4292233340204290e-08
Constraint violation....: 3.7252902984619141e-09 1.4305114746093750e-06
Complementarity.........: 2.5065142449385835e-09 2.5065142449385835e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5065142449385835e-05
Number of objective function evaluations = 71
Number of objective gradient evaluations = 71
Number of equality constraint evaluations = 71
Number of inequality constraint evaluations = 71
Number of equality constraint Jacobian evaluations = 71
Number of inequality constraint Jacobian evaluations = 71
Number of Lagrangian Hessian evaluations = 70
Total CPU secs in IPOPT (w/o function evaluations) = 4.093
Total CPU secs in NLP function evaluations = 94.360
EXIT: Optimal Solution Found.
Implemented Power (MPC) 458
Realized SOC (MPC) 1251201
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15996
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6074
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.2930927e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.2925417e+08 9.97e+04 9.93e+01 -1.0 1.60e+05 - 7.38e-03 3.06e-03h 1
2 6.2929360e+08 9.89e+04 9.85e+01 -1.0 1.27e+05 - 3.83e-03 8.04e-03h 1
3 6.2942452e+08 9.76e+04 9.74e+01 -1.0 9.83e+04 - 1.18e-02 1.29e-02h 1
4 6.3008538e+08 9.20e+04 9.81e+01 -1.0 9.71e+04 - 2.95e-02 5.74e-02h 1
5 6.3142516e+08 8.11e+04 8.08e+01 -1.0 9.15e+04 - 4.58e-01 1.19e-01h 1
6 6.4038211e+08 5.62e+03 7.29e+01 -1.0 1.42e+05 - 2.64e-01 9.31e-01h 1
7 6.4042471e+08 4.36e+03 1.92e+02 -1.0 1.77e+05 - 9.70e-01 2.25e-01h 1
8 6.3962927e+08 4.10e+03 1.73e+02 -1.0 5.45e+06 - 8.87e-02 5.93e-02f 1
9 6.3920616e+08 3.95e+03 1.06e+02 -1.0 6.41e+06 - 3.02e-01 3.59e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.3694047e+08 3.20e+03 9.19e+01 -1.0 9.10e+06 - 1.51e-01 1.91e-01f 1
11 6.3217724e+08 4.27e+03 3.05e+01 -1.0 1.07e+07 - 6.84e-01 3.36e-01f 1
12 6.3209791e+08 4.26e+03 3.55e+01 -1.0 3.19e+07 - 1.80e-01 2.48e-03f 1
13 6.3108526e+08 4.69e+03 5.91e+01 -1.0 3.58e+07 - 5.47e-01 4.04e-02f 1
14 6.3097214e+08 4.44e+03 1.01e+02 -1.0 9.69e+06 - 9.86e-01 5.49e-02h 1
15 6.2164752e+08 3.42e+05 8.77e+01 -1.0 2.93e+08 - 2.15e-02 1.27e-01f 1
16 6.2048402e+08 3.44e+05 8.65e+01 -1.0 3.50e+08 - 2.73e-02 1.35e-02f 1
17 6.2046243e+08 3.43e+05 8.65e+01 -1.0 1.78e+08 - 7.14e-03 7.21e-04h 1
18 6.1630017e+08 8.49e+05 7.75e+01 -1.0 4.34e+08 - 2.37e-03 1.02e-01f 1
19 6.1622250e+08 8.48e+05 7.79e+01 -1.0 3.27e+08 - 2.91e-01 1.35e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.1318954e+08 7.75e+05 7.14e+01 -1.0 3.59e+08 - 1.23e-02 8.19e-02f 1
21 6.1290783e+08 7.68e+05 7.10e+01 -1.0 3.50e+08 - 1.21e-01 8.49e-03f 1
22 6.1212189e+08 7.50e+05 6.95e+01 -1.0 3.53e+08 - 1.83e-01 2.35e-02f 1
23 6.1207848e+08 7.45e+05 6.90e+01 -1.0 2.84e+07 - 4.58e-02 7.33e-03h 1
24 6.1128497e+08 6.13e+05 5.85e+01 -1.0 2.80e+07 - 4.17e-02 1.51e-01f 1
25 6.1125317e+08 6.06e+05 5.79e+01 -1.0 2.41e+07 - 6.72e-02 1.14e-02h 1
26 6.1061086e+08 1.11e+06 4.39e+01 -1.0 2.66e+07 - 2.49e-01 2.41e-01f 1
27 6.0913171e+08 5.07e+06 2.57e+01 -1.0 3.67e+07 - 2.13e-01 4.11e-01f 1
28 6.0728264e+08 1.01e+07 1.58e+01 -1.0 4.69e+07 - 6.44e-01 3.94e-01f 1
29 6.0712948e+08 1.00e+07 1.79e+01 -1.0 1.10e+08 - 1.75e-01 1.44e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0712941e+08 9.89e+06 1.20e+02 -1.0 4.05e+04 -4.0 1.34e-01 1.31e-02h 1
31 6.0708472e+08 3.12e+04 4.88e+03 -1.0 8.95e+05 - 8.37e-01 1.00e+00h 1
32 6.0708521e+08 3.32e-02 9.07e-01 -1.0 3.16e+01 -4.5 9.91e-01 1.00e+00h 1
33 6.0706936e+08 1.43e-06 3.81e-04 -1.7 8.48e-01 -5.0 1.00e+00 1.00e+00f 1
34 6.0461745e+08 4.19e+07 1.41e+00 -3.8 4.62e+09 - 3.17e-03 1.07e-02f 1
35 6.0454091e+08 4.19e+07 1.37e+00 -3.8 3.31e+09 - 3.26e-03 3.62e-04f 1
36 6.0454091e+08 4.19e+07 8.72e+01 -3.8 1.08e+05 -5.4 6.08e-02 1.62e-04h 1
37 6.0453881e+08 4.19e+07 7.98e+01 -3.8 1.33e+08 - 8.39e-02 1.49e-04h 1
38 6.0327338e+08 4.10e+07 6.38e+01 -3.8 1.34e+08 - 1.98e-01 1.04e-01f 1
39 6.0264160e+08 3.95e+07 5.31e+01 -3.8 1.62e+08 - 1.87e-01 4.43e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.0264136e+08 3.95e+07 5.45e+01 -3.8 1.83e+08 - 3.91e-01 1.92e-05h 1
41 6.0198414e+08 3.36e+07 7.35e+01 -3.8 1.66e+08 - 4.21e-01 6.60e-02f 1
42 6.0198322e+08 3.26e+07 6.63e+01 -3.8 1.78e+06 - 9.51e-01 3.06e-02h 1
43 6.0198290e+08 3.06e+07 6.32e+01 -3.8 3.79e+07 - 6.65e-02 6.18e-02h 1
44 6.0199739e+08 4.70e+06 1.85e+02 -3.8 1.52e+07 - 3.07e-05 9.51e-01h 1
45 6.0199739e+08 4.70e+06 5.72e+02 -3.8 5.83e+04 -5.9 1.56e-03 2.34e-05h 1
46 6.0201088e+08 3.87e+06 3.52e+02 -3.8 4.12e+07 - 3.79e-01 1.80e-01h 2
47 6.0201089e+08 3.87e+06 7.03e+02 -3.8 1.07e+06 -6.4 3.12e-04 1.62e-04h 1
48 6.0201089e+08 3.87e+06 3.12e+02 -3.8 9.08e+06 - 9.21e-01 1.07e-04h 1
49 6.0207423e+08 1.83e+06 5.89e+01 -3.8 9.08e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.0207421e+08 1.80e+06 5.63e+02 -3.8 4.23e+04 -6.9 2.73e-04 1.73e-02h 1
51 6.0207423e+08 1.75e+06 5.47e+02 -3.8 1.09e+04 -7.3 1.76e-02 2.89e-02h 1
52 6.0207458e+08 1.36e+06 4.26e+02 -3.8 6.92e+03 -7.8 3.83e-02 2.20e-01h 1
53 6.0207605e+08 1.12e+02 7.20e+01 -3.8 5.67e+03 -8.3 1.71e-01 1.00e+00h 1
54 6.0207567e+08 1.12e+02 8.64e+01 -3.8 1.01e+08 - 2.92e-01 3.02e-05f 1
55 6.0207142e+08 1.18e+03 9.12e+01 -3.8 1.09e+06 - 9.21e-01 2.26e-01f 1
56 6.0206975e+08 2.20e+05 1.00e+01 -3.8 4.58e+06 - 1.00e+00 9.50e-01h 1
57 6.0206966e+08 1.23e+01 2.01e+01 -3.8 1.22e+04 -8.8 3.49e-01 1.00e+00h 1
58 6.0206965e+08 1.22e+01 2.20e+01 -3.8 5.66e+03 -9.2 1.00e+00 6.89e-03h 1
59 6.0206966e+08 4.09e-03 1.08e-03 -3.8 1.07e+02 -9.7 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.0206958e+08 2.32e-03 3.77e-06 -5.7 2.95e+02 -10.2 1.00e+00 1.00e+00f 1
61 6.0206958e+08 2.77e-03 9.20e-03 -8.6 5.96e+02 -10.7 1.00e+00 8.89e-01h 1
62 6.0206958e+08 3.00e-02 8.68e-07 -8.6 1.78e+03 -11.2 1.00e+00 1.00e+00h 1
63 6.0206957e+08 2.70e-01 6.09e-08 -8.6 5.33e+03 -11.6 1.00e+00 1.00e+00h 1
64 6.0206956e+08 2.44e+00 5.59e-07 -8.6 1.60e+04 -12.1 1.00e+00 1.00e+00h 1
65 6.0206954e+08 2.20e+01 5.05e-06 -8.6 4.81e+04 -12.6 1.00e+00 1.00e+00h 1
66 6.0206945e+08 2.01e+02 4.61e-05 -8.6 1.45e+05 -13.1 1.00e+00 1.00e+00h 1
67 6.0206917e+08 1.89e+03 4.32e-04 -8.6 4.45e+05 -13.5 1.00e+00 1.00e+00h 1
68 6.0206829e+08 1.93e+04 4.40e-03 -8.6 1.42e+06 -14.0 1.00e+00 1.00e+00h 1
69 6.0206480e+08 2.70e+05 6.05e-02 -8.6 5.29e+06 -14.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.0205635e+08 1.17e+06 2.62e-01 -8.6 4.26e+07 -15.0 4.15e-01 2.36e-01h 1
71 6.0204998e+08 5.77e+05 9.25e-02 -8.6 7.69e+06 -14.5 1.00e+00 1.00e+00h 1
72 6.0203352e+08 3.99e+06 8.00e-01 -8.6 8.52e+07 -15.0 2.22e-01 2.20e-01h 1
73r 6.0203352e+08 3.99e+06 9.99e+02 3.0 0.00e+00 -14.6 0.00e+00 4.59e-09R 2
74r 6.0203354e+08 4.15e+06 9.99e+02 3.0 1.80e+11 - 1.67e-08 1.52e-08f 1
75r 6.0204203e+08 2.80e+06 9.88e+02 1.6 1.61e+06 - 1.12e-02 1.09e-03f 1
76 6.0203255e+08 3.52e+06 9.98e+01 -8.6 5.10e+15 - 1.26e-08 2.49e-09f 1
77 6.0199642e+08 1.55e+07 9.98e+01 -8.6 6.80e+15 - 1.47e-08 5.83e-09f 1
78 6.0196232e+08 1.40e+07 9.98e+01 -8.6 4.61e+15 - 8.91e-09 7.01e-09f 1
In iteration 78, 1 Slack too small, adjusting variable bound
79 6.0196185e+08 1.40e+07 9.98e+01 -8.6 2.43e+14 - 5.23e-07 2.65e-09f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.0195847e+08 1.40e+07 9.98e+01 -8.6 7.13e+12 - 1.41e-05 5.01e-07f 1
81 6.0195814e+08 1.40e+07 9.94e+01 -8.6 2.04e+10 - 6.49e-03 1.46e-05h 1
82 6.0194703e+08 1.38e+07 4.47e+01 -8.6 7.38e+06 - 8.90e-01 1.04e-02h 1
83 6.0191661e+08 1.25e+06 3.40e+01 -8.6 7.30e+06 - 1.00e+00 8.91e-01h 1
84 6.0191321e+08 1.54e+05 4.57e+00 -8.6 7.42e+05 - 1.00e+00 8.76e-01h 1
85 6.0191273e+08 1.45e+02 4.72e-02 -8.6 9.14e+04 - 1.00e+00 1.00e+00h 1
86 6.0191273e+08 8.96e-04 4.72e-02 -8.6 1.58e+01 - 1.00e+00 1.00e+00h 1
87 6.0191273e+08 9.54e-07 3.31e-02 -8.6 2.34e-05 - 1.00e+00 1.00e+00h 1
88 6.0191273e+08 9.54e-07 3.81e-02 -8.6 1.81e-05 - 1.00e+00 1.00e+00h 1
89 6.0191273e+08 9.54e-07 3.81e-02 -8.6 1.45e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90 6.0191273e+08 4.77e-07 1.31e-12 -8.6 9.92e-06 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 90
(scaled) (unscaled)
Objective...............: 6.0191273467568863e+04 6.0191273467568862e+08
Dual infeasibility......: 1.3112422690242603e-12 1.3112422690242603e-08
Constraint violation....: 3.7252902984619141e-09 4.7683715820312500e-07
Complementarity.........: 2.5064672116839235e-09 2.5064672116839234e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5064672116839234e-05
Number of objective function evaluations = 96
Number of objective gradient evaluations = 90
Number of equality constraint evaluations = 96
Number of inequality constraint evaluations = 96
Number of equality constraint Jacobian evaluations = 92
Number of inequality constraint Jacobian evaluations = 92
Number of Lagrangian Hessian evaluations = 90
Total CPU secs in IPOPT (w/o function evaluations) = 4.708
Total CPU secs in NLP function evaluations = 146.980
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1216409
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15992
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6073
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.0211273e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.0205759e+08 9.97e+04 9.93e+01 -1.0 1.45e+05 - 7.39e-03 3.07e-03h 1
2 6.0208709e+08 9.89e+04 9.85e+01 -1.0 1.25e+05 - 3.83e-03 8.24e-03h 1
3 6.0219177e+08 9.76e+04 9.74e+01 -1.0 9.83e+04 - 1.20e-02 1.29e-02h 1
4 6.0275714e+08 9.19e+04 9.80e+01 -1.0 9.97e+04 - 2.98e-02 5.83e-02h 1
5 6.0391456e+08 8.09e+04 8.06e+01 -1.0 9.14e+04 - 4.62e-01 1.19e-01h 1
6 6.1186854e+08 2.40e+03 7.52e+01 -1.0 1.42e+05 - 2.67e-01 9.70e-01h 1
7 6.1183573e+08 1.95e+03 6.44e+01 -1.0 1.78e+05 - 9.89e-01 1.90e-01h 1
8 6.1071324e+08 1.87e+03 6.35e+01 -1.0 1.33e+07 - 2.35e-02 4.20e-02f 1
9 6.1057261e+08 1.86e+03 4.76e+01 -1.0 1.67e+07 - 1.81e-01 5.99e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.0336607e+08 7.91e+03 4.86e+01 -1.0 2.02e+07 - 7.24e-02 2.59e-01f 1
11 6.0328524e+08 7.89e+03 6.68e+01 -1.0 2.15e+07 - 8.19e-01 3.01e-03f 1
12 6.0222881e+08 8.37e+03 6.64e+01 -1.0 7.82e+07 - 7.91e-02 1.89e-02f 1
13 6.0213854e+08 8.14e+03 6.95e+01 -1.0 1.38e+07 - 3.72e-01 2.72e-02h 1
14 5.9752700e+08 1.30e+05 1.62e+02 -1.0 2.25e+07 - 7.07e-02 1.00e+00f 1
15 5.9388570e+08 1.12e+05 4.56e+01 -1.0 2.30e+07 - 8.42e-01 7.21e-01f 1
16 5.9015177e+08 1.80e+05 3.90e+01 -1.0 1.29e+08 - 2.58e-01 1.35e-01f 1
17 5.9005721e+08 1.80e+05 4.26e+01 -1.0 1.61e+08 - 9.53e-02 3.37e-03f 1
18 5.8525921e+08 4.30e+05 3.32e+01 -1.0 1.75e+08 - 5.86e-01 1.79e-01f 1
19 5.8514284e+08 4.29e+05 3.28e+01 -1.0 2.65e+08 - 1.25e-01 3.67e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.8440953e+08 4.17e+05 3.43e+01 -1.0 2.83e+08 - 3.65e-01 2.70e-02f 1
21 5.8437949e+08 4.15e+05 3.09e+01 -1.0 3.40e+07 - 4.27e-01 4.34e-03h 1
22 5.8348917e+08 6.79e+05 2.74e+01 -1.0 4.54e+07 - 6.56e-01 1.12e-01f 1
23 5.8291531e+08 1.38e+06 2.36e+01 -1.0 5.52e+07 - 4.82e-02 1.39e-01f 1
24 5.7793153e+08 4.43e+07 3.44e+01 -1.0 8.25e+07 - 8.86e-02 6.27e-01f 1
25 5.7788558e+08 4.40e+07 8.72e+00 -1.0 6.25e+07 - 6.63e-01 6.80e-03h 1
26 5.7789483e+08 4.14e+07 1.19e+04 -1.0 3.57e+05 -4.0 1.25e-02 5.76e-02h 1
27 5.7789441e+08 4.10e+07 1.17e+04 -1.0 2.18e+06 - 1.95e-02 9.76e-03h 1
28 5.7793291e+08 3.31e+07 4.14e+04 -1.0 3.33e+05 -4.5 2.51e-03 1.94e-01h 1
29 5.7800731e+08 1.86e+07 1.16e+04 -1.0 2.69e+05 -5.0 2.47e-01 4.36e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.7800821e+08 1.85e+07 1.15e+04 -1.0 1.51e+05 -5.4 7.51e-01 9.36e-03h 1
31 5.7810490e+08 2.54e+04 1.35e+05 -1.0 1.51e+05 -5.9 9.91e-01 1.00e+00h 1
32 5.7807813e+08 2.53e+04 1.35e+05 -1.0 3.54e+07 - 5.20e-02 3.03e-03f 1
33 5.7807937e+08 1.33e+00 3.26e+02 -1.0 1.77e+02 -6.4 9.58e-01 1.00e+00h 1
34 5.7807874e+08 5.96e-04 2.47e-02 -1.0 2.77e+02 -6.9 1.00e+00 1.00e+00f 1
35 5.7659676e+08 1.13e+07 8.27e+00 -2.5 1.21e+09 - 9.61e-02 1.80e-02f 1
36 5.7420709e+08 2.89e+07 1.93e+01 -2.5 1.04e+09 - 1.05e-01 3.79e-02f 1
37 5.7419783e+08 2.88e+07 4.83e+01 -2.5 3.41e+07 - 5.52e-01 3.28e-03h 1
38 5.7418501e+08 2.70e+07 7.16e+01 -2.5 2.79e+06 - 9.51e-01 6.23e-02h 1
39 5.7405753e+08 7.09e+05 1.62e+01 -2.5 1.49e+06 - 1.00e+00 9.74e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.7405751e+08 6.49e+05 1.48e+01 -2.5 4.03e+03 -7.3 1.10e-01 8.42e-02h 1
41 5.7405751e+08 6.48e+05 1.48e+01 -2.5 3.19e+07 - 4.78e-03 3.43e-04h 1
42 5.7405769e+08 6.47e+05 1.48e+01 -2.5 1.62e+08 - 1.17e-03 2.21e-03h 4
43 5.7405781e+08 6.46e+05 1.47e+01 -2.5 1.61e+08 - 1.40e-02 1.59e-03h 5
44 5.7406752e+08 5.94e+05 1.36e+01 -2.5 1.25e+07 - 7.67e-04 7.97e-02h 1
45 5.7417684e+08 3.67e+05 1.42e+01 -2.5 4.22e+06 - 1.00e+00 9.60e-01h 1
46 5.7417654e+08 9.71e+04 7.50e+02 -2.5 1.27e+04 -7.8 1.39e-02 7.36e-01h 1
47 5.7417646e+08 6.30e+00 1.12e+00 -2.5 1.09e+03 -8.3 1.00e+00 1.00e+00h 1
48 5.7417383e+08 2.64e+02 1.70e+01 -2.5 7.08e+06 - 8.22e-01 1.56e-02f 1
49 5.7417121e+08 7.97e+05 1.03e+01 -2.5 6.93e+06 - 1.00e+00 8.68e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.7417121e+08 4.18e+01 3.40e+01 -2.5 2.18e+04 -8.8 2.01e-01 1.00e+00h 1
51 5.7417103e+08 4.17e+01 4.23e+01 -2.5 6.66e+06 - 1.00e+00 3.40e-03f 1
52 5.7416835e+08 2.48e+04 8.15e+00 -2.5 6.88e+06 - 1.00e+00 1.00e+00F 1
53 5.7416835e+08 5.29e-02 4.42e-02 -2.5 1.63e+02 -9.2 1.00e+00 1.00e+00h 1
54 5.7416835e+08 7.56e-05 3.32e-02 -2.5 8.31e+01 -9.7 1.00e+00 1.00e+00h 1
55 5.7416835e+08 6.33e-04 4.23e-02 -2.5 2.41e+02 -10.2 1.00e+00 1.00e+00h 1
56 5.7416835e+08 5.36e-03 4.23e-02 -2.5 7.00e+02 -10.7 1.00e+00 1.00e+00h 1
57 5.7416835e+08 4.70e-02 2.56e-07 -2.5 2.07e+03 -11.2 1.00e+00 1.00e+00h 1
58 5.7416698e+08 7.40e-01 2.78e-05 -3.8 6.94e+03 -11.6 1.00e+00 1.00e+00f 1
59 5.7416690e+08 3.15e+00 6.50e-03 -5.7 1.84e+04 -12.1 1.00e+00 9.21e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.7416686e+08 3.45e+01 2.14e-05 -5.7 5.62e+04 -12.6 1.00e+00 1.00e+00h 1
61 5.7416675e+08 3.16e+02 5.65e-05 -5.7 1.70e+05 -13.1 1.00e+00 1.00e+00h 1
62 5.7416643e+08 3.00e+03 5.37e-04 -5.7 5.24e+05 -13.5 1.00e+00 1.00e+00h 1
63 5.7416535e+08 3.16e+04 5.66e-03 -5.7 1.70e+06 -14.0 1.00e+00 1.00e+00h 1
64 5.7416080e+08 4.71e+05 8.55e-02 -5.7 6.63e+06 -14.5 1.00e+00 1.00e+00h 1
65 5.7412881e+08 1.20e+07 2.63e+00 -5.7 6.28e+07 -15.0 1.00e+00 5.85e-01h 1
66r 5.7412881e+08 1.20e+07 9.99e+02 3.5 0.00e+00 -14.5 0.00e+00 2.63e-07R 6
67r 5.7413170e+08 1.20e+07 9.99e+02 3.5 3.72e+08 - 4.47e-06 4.28e-06f 1
68r 5.7413748e+08 9.84e+06 9.96e+02 1.4 2.92e+06 - 8.90e-03 1.07e-03f 1
69 5.7410092e+08 1.15e+07 4.32e+01 -5.7 1.38e+13 - 4.82e-06 1.60e-06f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 5.7408398e+08 1.19e+07 4.32e+01 -5.7 3.40e+12 - 2.78e-05 2.47e-06f 1
71r 5.7408398e+08 1.19e+07 9.99e+02 3.4 0.00e+00 - 0.00e+00 2.27e-12R 2
72r 5.7408398e+08 1.19e+07 9.99e+02 3.4 3.13e+08 - 2.20e-08 8.98e-11f 11
73r 5.7408902e+08 9.73e+06 9.98e+02 1.3 2.34e+06 - 8.48e-03 1.07e-03f 1
74 5.7408094e+08 9.68e+06 1.55e+02 -5.7 3.90e+06 - 8.71e-01 5.58e-03h 1
75r 5.7408094e+08 9.68e+06 9.99e+02 3.3 0.00e+00 - 0.00e+00 5.18e-09R 2
76r 5.7544701e+08 4.49e+06 3.43e+03 3.3 4.16e+05 - 6.83e-03 2.82e-03f 1
77r 5.7546768e+08 3.59e+06 3.39e+03 1.9 1.43e+06 - 2.33e-04 1.33e-03f 1
78r 5.7548439e+08 3.03e+06 3.77e+03 1.9 2.06e+05 - 2.78e-02 1.05e-03f 1
79r 5.7597098e+08 6.60e+05 9.36e+03 1.9 4.83e+04 - 5.32e-01 2.99e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 5.9310354e+08 2.18e+04 3.39e+03 1.9 4.01e+04 - 3.75e-01 5.42e-01f 1
81r 6.1759177e+08 9.52e+03 2.36e+02 1.9 1.90e+04 - 6.65e-01 7.68e-01f 1
82r 6.0738404e+08 4.29e+03 2.08e+03 0.5 1.14e+04 - 8.50e-01 6.07e-01f 1
83r 6.0730072e+08 4.14e+03 4.29e+03 0.5 1.22e+05 - 3.19e-01 3.57e-02f 1
84r 6.0708873e+08 3.82e+03 5.67e+03 0.5 1.07e+05 - 3.67e-01 7.76e-02f 1
85r 6.0569516e+08 8.93e+03 3.00e+03 0.5 1.17e+05 - 3.35e-01 4.15e-01f 1
86r 6.0566992e+08 8.86e+03 5.36e+03 0.5 7.13e+04 - 8.04e-01 8.01e-03f 1
87r 6.0214553e+08 2.10e+03 1.43e+03 0.5 2.61e+04 - 1.00e+00 7.67e-01f 1
88r 6.0031810e+08 5.29e+01 8.91e+00 0.5 1.80e+04 - 1.00e+00 1.00e+00f 1
89r 5.9028665e+08 1.18e+01 1.24e+02 -0.9 1.25e+04 - 8.99e-01 7.96e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 5.9006568e+08 7.86e+01 9.45e+02 -0.9 3.33e+05 - 9.94e-01 1.63e-01f 1
91r 5.8900485e+08 7.07e+01 7.52e+02 -0.9 2.79e+05 - 1.00e+00 2.81e-01f 1
92r 5.8840687e+08 6.91e+01 6.28e+02 -0.9 2.00e+05 - 1.00e+00 1.91e-01f 1
93r 5.8693399e+08 9.89e+01 2.77e+02 -0.9 1.62e+05 - 1.00e+00 5.68e-01f 1
94r 5.8580971e+08 3.98e+01 8.94e+00 -0.9 6.99e+04 - 1.00e+00 1.00e+00f 1
95r 5.8580948e+08 5.00e+00 8.94e+00 -0.9 2.77e+02 - 1.00e+00 1.00e+00h 1
96r 5.8580948e+08 5.00e+00 8.94e+00 -0.9 3.48e+00 - 1.00e+00 1.00e+00h 1
97r 5.8580948e+08 5.00e+00 8.94e+00 -0.9 1.82e-03 - 1.00e+00 1.00e+00h 1
98r 5.8580948e+08 5.00e+00 8.66e+00 -0.9 5.22e-04 - 1.00e+00 3.12e-02h 6
99r 5.8580948e+08 5.00e+00 8.94e+00 -0.9 5.06e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 5.8580948e+08 5.00e+00 4.47e+00 -0.9 5.22e-04 - 1.00e+00 5.00e-01h 2
101r 5.8111603e+08 5.00e+00 8.94e+00 -1.6 1.52e+03 - 1.00e+00 1.00e+00f 1
102r 5.8122983e+08 9.60e+01 1.65e+02 -1.6 5.12e+05 - 4.52e-01 2.05e-01f 1
103r 5.8123166e+08 9.57e+01 5.11e+02 -1.6 3.38e+05 - 1.00e+00 3.24e-03f 1
104r 5.8194111e+08 2.63e+02 3.64e+00 -1.6 1.52e+05 - 1.00e+00 1.00e+00f 1
105r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 3.77e+02 - 1.00e+00 1.00e+00h 1
106r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 7.57e-01 - 1.00e+00 1.00e+00h 1
107r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 6.51e-04 - 1.00e+00 1.00e+00h 1
108r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 6.48e-04 - 1.00e+00 1.00e+00h 1
109r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 6.47e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 6.46e-04 - 1.00e+00 1.00e+00h 1
111r 5.8193391e+08 5.00e+00 2.74e+00 -1.6 6.47e-04 - 1.00e+00 2.50e-01h 3
112r 5.8193391e+08 5.00e+00 3.65e+00 -1.6 4.85e-04 - 1.00e+00 1.00e+00h 1
113r 5.8193391e+08 5.00e+00 3.63e+00 -1.6 6.47e-04 - 1.00e+00 3.91e-03h 9
114r 5.8193391e+08 5.00e+00 1.04e-01 -1.6 2.02e-05 - 1.00e+00 2.50e-01h 3
115r 5.7874674e+08 5.00e+00 4.77e+01 -3.7 2.27e+03 - 9.85e-01 8.20e-01f 1
116r 5.7873437e+08 3.01e+02 1.08e+02 -3.7 3.19e+06 - 8.37e-02 5.13e-02f 1
117r 5.7873436e+08 3.01e+02 3.08e+02 -3.7 2.04e+06 - 1.54e-01 1.77e-05f 1
118r 5.7860912e+08 6.10e+02 2.08e+02 -3.7 9.16e+05 - 2.54e-01 3.27e-01f 1
119r 5.7851740e+08 5.91e+02 1.67e+02 -3.7 6.17e+05 - 4.34e-01 2.03e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 5.7814566e+08 8.03e+02 6.87e+01 -3.7 4.92e+05 - 6.00e-01 5.88e-01f 1
121r 5.7735222e+08 2.76e+02 8.66e-01 -3.7 2.03e+05 - 1.00e+00 1.00e+00f 1
122r 5.7665841e+08 5.00e+00 8.66e-01 -3.7 1.44e+03 - 1.00e+00 1.00e+00h 1
123r 5.7656278e+08 5.00e+00 1.18e-01 -3.7 1.53e+02 - 1.00e+00 1.00e+00h 1
124r 5.7656088e+08 5.00e+00 3.58e-01 -3.7 2.94e+00 - 1.00e+00 1.00e+00h 1
125r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 2.41e-03 - 1.00e+00 1.00e+00h 1
126r 5.7656087e+08 5.00e+00 1.79e-01 -3.7 1.50e-05 - 1.00e+00 5.00e-01h 2
127r 5.7656087e+08 5.00e+00 8.95e-02 -3.7 1.30e-05 - 1.00e+00 5.00e-01h 2
128r 5.7656087e+08 5.00e+00 2.74e-01 -3.7 6.13e-06 - 1.00e+00 6.25e-02h 5
129r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.17e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.07e-05 - 1.00e+00 1.00e+00h 1
131r 5.7656087e+08 5.00e+00 2.69e-01 -3.7 1.62e-05 - 1.00e+00 2.50e-01h 3
132r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.42e-05 - 1.00e+00 1.00e+00h 1
133r 5.7656087e+08 5.00e+00 2.69e-01 -3.7 1.68e-05 - 1.00e+00 2.50e-01h 3
134r 5.7656087e+08 5.00e+00 2.52e-01 -3.7 1.74e-05 - 1.00e+00 6.25e-02h 5
135r 5.7656087e+08 5.00e+00 1.26e-01 -3.7 1.34e-05 - 1.00e+00 5.00e-01h 2
136r 5.7656087e+08 5.00e+00 9.44e-02 -3.7 9.71e-06 - 1.00e+00 2.50e-01h 3
137r 5.7656087e+08 5.00e+00 9.44e-02 -3.7 8.09e-06 - 1.00e+00 6.10e-05h 15
138r 5.7656087e+08 5.00e+00 9.44e-02 -3.7 8.08e-06 - 1.00e+00 1.53e-05h 17
139r 5.7656087e+08 5.00e+00 8.85e-02 -3.7 8.08e-06 - 1.00e+00 6.25e-02h 5
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 5.7656087e+08 5.00e+00 8.30e-02 -3.7 8.54e-06 - 1.00e+00 6.25e-02h 5
141r 5.7656087e+08 5.00e+00 8.04e-02 -3.7 1.02e-05 - 1.00e+00 3.12e-02h 6
142r 5.7656087e+08 5.00e+00 7.91e-02 -3.7 1.02e-05 - 1.00e+00 1.56e-02h 7
143r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 9.71e-06 - 1.00e+00 1.00e+00w 1
144r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.14e-05 - 1.00e+00 1.00e+00w 1
145r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.73e-05 - 1.00e+00 1.00e+00w 1
146r 5.7656087e+08 5.00e+00 7.85e-02 -3.7 1.31e-05 - 1.00e+00 7.81e-03h 7
147r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 9.04e-06 - 1.00e+00 1.00e+00h 1
148r 5.7656087e+08 5.00e+00 1.01e-01 -3.7 1.17e-05 - 1.00e+00 5.00e-01h 2
149r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 5.56e-06 - 1.00e+00 1.00e+00s 22
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.18e-05 - 1.00e+00 1.00e+00s 22
151r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.02e-05 - 1.00e+00 1.00e+00s 22
152r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.09e-05 - 0.00e+00 0.00e+00R 1
153r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.09e-05 - 1.00e+00 7.81e-03f 8
154r 5.7656087e+08 5.00e+00 1.16e-01 -3.7 1.14e-05 - 1.00e+00 3.91e-03h 9
155r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.05e-05 - 1.00e+00 1.00e+00s 36
156r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 8.49e-06 - 1.00e+00 1.00e+00s 36
157r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.64e-05 - 1.00e+00 1.00e+00s 36
158r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.64e-05 - 0.00e+00 0.00e+00R 1
159r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.64e-05 - 1.00e+00 7.81e-03f 8
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 5.7656087e+08 5.00e+00 1.16e-01 -3.7 1.78e-05 - 1.00e+00 3.91e-03h 9
161r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.78e-05 - 1.00e+00 1.00e+00s 36
162r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.93e-05 - 1.00e+00 1.00e+00s 36
163r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.94e-05 - 1.00e+00 1.00e+00s 36
164r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.68e-05 - 0.00e+00 0.00e+00R 1
165r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.67e-05 - 1.00e+00 3.91e-03f 9
166r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.63e-05 - 1.00e+00 1.95e-03h 10
167r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.62e-05 - 1.00e+00 4.88e-04h 12
168r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.65e-05 - 1.00e+00 1.00e+00s 36
169r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 9.91e-06 - 0.00e+00 0.00e+00R 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 5.7656087e+08 5.00e+00 3.55e-01 -3.7 9.91e-06 - 1.00e+00 7.81e-03f 8
171r 5.7656087e+08 5.00e+00 1.16e-01 -3.7 9.55e-06 - 1.00e+00 3.91e-03h 9
172r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.67e-05 - 1.00e+00 1.00e+00s 36
173r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.20e-05 - 1.00e+00 1.00e+00s 36
174r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 6.21e-06 - 1.00e+00 1.00e+00s 36
175r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.46e-05 - 0.00e+00 0.00e+00R 1
176r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.46e-05 - 1.00e+00 1.95e-03f 10
177r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.51e-05 - 1.00e+00 9.77e-04h 11
178r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 4.88e-04h 12
179r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 3.05e-05h 16
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 3.81e-06h 19
181r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 1.53e-05h 17
182r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 2.38e-07h 23
183r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 2.98e-08h 26
184r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 5.96e-08h 25
185r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 3.73e-09h 29
186r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.50e-05 - 1.00e+00 1.00e+00w 1
187r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.68e-05 - 1.00e+00 1.00e+00w 1
188r 5.7656087e+08 5.00e+00 1.18e-01 -3.7 1.66e-05 - 1.00e+00 1.00e+00w 1
189r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.85e-05 - 1.00e+00 7.63e-06h 17
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 3.05e-05h 16
191r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 3.05e-05h 16
192r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 7.63e-06h 18
193r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 4.77e-07h 22
194r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.50e-05 - 1.00e+00 4.88e-04h 12
195r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.55e-05 - 1.00e+00 1.22e-04h 14
196r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.55e-05 - 1.00e+00 6.10e-05h 15
197r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.55e-05 - 1.00e+00 3.05e-05h 16
198r 5.7656087e+08 5.00e+00 1.17e-01 -3.7 1.55e-05 - 1.00e+00 6.10e-05h 15
199r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.55e-05 - 1.00e+00 1.00e+00w 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 5.7656087e+08 5.00e+00 3.58e-01 -3.7 1.68e-05 - 1.00e+00 1.00e+00w 1
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 5.7656087425385798e+04 5.7656087425385797e+08
Dual infeasibility......: 9.9998443341844535e+01 9.9998443341844541e+05
Constraint violation....: 4.9999999500000003e+00 4.9999999500000003e+00
Complementarity.........: 2.2036874286774231e-04 2.2036874286774228e+00
Overall NLP error.......: 9.9998443341844535e+01 9.9998443341844541e+05
Number of objective function evaluations = 944
Number of objective gradient evaluations = 75
Number of equality constraint evaluations = 949
Number of inequality constraint evaluations = 949
Number of equality constraint Jacobian evaluations = 209
Number of inequality constraint Jacobian evaluations = 209
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 8.432
Total CPU secs in NLP function evaluations = 444.411
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 455
Realized SOC (MPC) 1581743
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15988
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6072
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.7656087e+08 3.65e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.7447020e+08 3.62e+05 7.10e+01 -1.0 1.11e+07 - 6.95e-01 8.63e-03f 1
2 5.7446970e+08 3.62e+05 1.99e+03 -1.0 1.18e+07 - 3.56e-02 1.27e-03h 1
3 5.7446974e+08 3.62e+05 9.41e+05 -1.0 1.14e+07 - 5.86e-03 1.27e-05h 1
4r 5.7446974e+08 3.62e+05 1.00e+03 5.6 0.00e+00 - 0.00e+00 6.37e-08R 2
5r 6.0467794e+08 1.90e+06 9.45e+04 5.6 1.48e+07 - 3.02e-03 2.54e-04f 1
6r 6.0891640e+08 2.04e+06 9.18e+04 5.6 1.16e+07 - 2.81e-02 5.17e-03f 1
7r 6.2726472e+08 2.08e+06 6.09e+04 5.6 1.63e+06 - 3.88e-01 2.45e-02f 1
8 5.9613504e+08 2.07e+06 8.21e+01 -1.0 3.33e+06 - 3.94e-01 6.31e-03f 1
9 5.8457198e+08 1.83e+06 1.84e+02 -1.0 3.08e+06 - 4.96e-01 2.83e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.8160409e+08 1.33e+06 2.00e+02 -1.0 4.85e+06 - 4.84e-01 4.08e-01f 1
11 5.8074592e+08 1.03e+06 1.88e+02 -1.0 7.73e+06 - 8.67e-01 2.53e-01h 1
12 5.8072437e+08 1.02e+06 1.89e+03 -1.0 7.49e+06 - 9.03e-01 3.39e-03h 1
13 5.8072307e+08 1.02e+06 4.54e+07 -1.0 3.39e+07 - 8.20e-01 3.40e-05h 1
14r 5.8072307e+08 1.02e+06 1.00e+03 5.0 0.00e+00 - 0.00e+00 1.70e-07R 2
15r 6.3963048e+08 2.83e+06 2.10e+04 5.0 3.49e+06 - 3.79e-02 4.09e-03f 1
16 5.9637521e+08 2.82e+06 9.83e+01 -1.0 6.28e+06 - 8.06e-03 6.79e-03f 1
17 5.8542008e+08 2.79e+06 9.72e+01 -1.0 6.28e+06 - 2.38e-02 1.10e-02f 1
18 5.8112593e+08 2.72e+06 9.49e+01 -1.0 6.26e+06 - 3.75e-01 2.80e-02f 1
19 5.8095115e+08 2.64e+06 9.20e+01 -1.0 6.23e+06 - 5.64e-02 3.03e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.8094957e+08 2.64e+06 2.64e+04 -1.0 6.17e+06 - 2.83e-01 3.13e-04h 1
21r 5.8094957e+08 2.64e+06 1.00e+03 4.9 0.00e+00 - 0.00e+00 3.91e-07R 4
22r 7.5539798e+08 2.98e+06 7.63e+04 4.9 3.93e+06 - 2.25e-01 1.18e-02f 1
23 7.5065720e+08 2.94e+06 6.65e+02 -1.0 4.32e+06 - 2.94e-01 1.49e-02f 1
24 7.5061583e+08 2.94e+06 1.49e+05 -1.0 4.36e+06 - 4.14e-01 1.65e-04f 1
25 7.2100901e+08 2.55e+06 1.25e+05 -1.0 3.66e+06 - 2.20e-02 1.40e-01f 1
26 7.2072486e+08 2.54e+06 3.29e+05 -1.0 4.27e+06 - 1.99e-01 1.63e-03f 1
27 7.2072214e+08 2.54e+06 4.80e+09 -1.0 4.29e+06 - 2.37e-01 1.63e-05h 1
28r 7.2072214e+08 2.54e+06 1.00e+03 4.4 0.00e+00 - 0.00e+00 8.17e-08R 2
29r 7.3068830e+08 2.35e+06 4.85e+03 4.4 5.70e+06 - 5.46e-02 4.62e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0634487e+08 2.33e+06 7.77e+01 -1.0 4.43e+06 - 2.82e-01 7.98e-03f 1
31 6.0471027e+08 2.30e+06 3.59e+02 -1.0 4.45e+06 - 4.64e-01 1.60e-02f 1
32 6.0470301e+08 2.30e+06 1.36e+06 -1.0 4.51e+06 - 6.02e-01 1.63e-04h 1
33r 6.0470301e+08 2.30e+06 1.00e+03 2.9 0.00e+00 - 0.00e+00 4.07e-07R 3
34r 6.0488253e+08 1.35e+06 9.99e+02 2.9 6.19e+05 - 2.58e-03 1.28e-03f 1
35 6.0431757e+08 1.35e+06 2.16e+03 -1.0 3.36e+06 - 4.36e-01 2.04e-04f 1
36r 6.0431757e+08 1.35e+06 1.00e+03 2.3 0.00e+00 - 0.00e+00 2.55e-07R 4
37r 6.0437976e+08 5.86e+05 9.99e+02 2.3 4.57e+05 - 1.01e-03 1.17e-03f 1
38 6.0437652e+08 5.86e+05 2.33e+05 -1.0 3.41e+06 - 5.44e-01 4.99e-05h 1
39r 6.0437652e+08 5.86e+05 1.00e+03 1.6 0.00e+00 - 0.00e+00 2.50e-07R 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40r 6.0433018e+08 2.27e+05 9.99e+02 1.6 1.58e+05 - 2.28e-02 9.92e-04f 1
41 6.0430589e+08 2.27e+05 6.46e+04 -1.0 3.53e+06 - 5.72e-01 8.94e-06f 1
42r 6.0430589e+08 2.27e+05 1.00e+03 1.1 0.00e+00 - 0.00e+00 4.47e-08R 2
43r 6.0410392e+08 5.60e+04 9.99e+02 1.1 3.16e+05 - 9.12e-03 1.27e-03f 1
44r 6.0342019e+08 2.66e+05 9.90e+02 1.1 2.73e+05 - 3.43e-02 8.42e-03f 1
45r 6.0433443e+08 2.61e+05 9.76e+02 1.1 1.19e+05 - 1.93e-02 1.42e-02f 1
46r 6.0544025e+08 2.56e+05 9.60e+02 1.1 5.78e+04 - 1.64e-01 1.61e-02f 1
47r 6.0593517e+08 2.15e+05 1.07e+03 1.1 2.66e+04 - 2.45e-01 1.59e-01f 1
48r 6.0697151e+08 1.88e+05 8.85e+02 1.1 2.35e+04 - 1.08e-01 1.23e-01f 1
49r 6.0934279e+08 1.30e+05 9.67e+02 1.1 2.22e+04 - 1.02e-01 3.06e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50r 6.1483555e+08 4.08e+04 6.67e+02 1.1 1.78e+04 - 4.89e-01 6.93e-01f 1
51r 6.2608945e+08 1.30e+03 3.08e+01 1.1 1.00e+04 - 9.84e-01 1.00e+00f 1
52r 6.4192961e+08 1.61e+01 8.90e+00 1.1 5.94e+03 - 9.90e-01 1.00e+00f 1
53r 6.3965568e+08 1.28e+01 2.60e+00 1.1 1.37e+03 - 9.91e-01 1.00e+00h 1
54r 6.2161688e+08 1.40e+02 7.86e+00 0.4 3.88e+03 - 1.00e+00 1.00e+00f 1
55r 6.2037630e+08 9.37e+02 4.50e+02 -1.0 4.72e+04 - 4.16e-01 1.46e-01f 1
56r 6.2026030e+08 1.01e+04 4.39e+02 -1.0 3.75e+05 - 7.42e-02 4.83e-02f 1
57 6.2022732e+08 1.01e+04 7.48e+04 -1.0 5.75e+06 - 5.24e-02 4.48e-04f 1
58r 6.2022732e+08 1.01e+04 1.00e+03 1.1 0.00e+00 - 0.00e+00 2.80e-07R 5
59r 6.2024452e+08 5.26e+03 1.03e+03 1.1 5.64e+04 - 7.34e-02 4.68e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60r 6.2063460e+08 6.81e+02 4.41e+03 1.1 2.40e+04 - 9.47e-01 1.02e-01f 1
61r 6.5543204e+08 2.73e+04 2.54e+01 1.1 3.78e+04 - 9.69e-01 1.00e+00f 1
62r 6.5689969e+08 1.34e+02 1.51e+00 1.1 1.85e+03 - 9.90e-01 1.00e+00f 1
63 6.5659386e+08 1.39e+02 1.99e+05 -1.0 6.07e+06 - 6.09e-01 2.28e-03f 1
64 6.5659278e+08 1.39e+02 4.59e+08 -1.0 6.01e+06 - 5.32e-02 1.14e-05f 2
65 6.5659171e+08 1.39e+02 1.80e+13 -1.0 6.00e+06 - 4.58e-01 1.16e-05h 1
66r 6.5659171e+08 1.39e+02 1.00e+03 1.0 0.00e+00 - 0.00e+00 5.78e-08R 2
67r 6.5682370e+08 8.24e+02 3.70e+03 1.0 3.91e+04 - 9.75e-01 1.18e-01f 1
68r 6.9155970e+08 3.66e+04 3.04e+01 1.0 4.11e+04 - 9.88e-01 1.00e+00f 1
69r 6.9759142e+08 6.27e+02 1.92e+00 1.0 1.21e+03 - 9.90e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.7452450e+08 6.28e+02 9.62e+01 -1.0 6.29e+06 - 3.90e-02 1.89e-03f 1
71 6.7448634e+08 6.28e+02 7.24e+05 -1.0 6.28e+06 - 6.31e-01 1.89e-05f 1
72r 6.7448634e+08 6.28e+02 1.00e+03 0.9 0.00e+00 - 0.00e+00 9.45e-08R 2
73r 6.7459022e+08 2.42e+02 3.13e+03 0.9 2.79e+04 - 9.81e-01 4.86e-02f 1
74r 7.1081529e+08 8.28e+04 5.09e+01 0.9 5.01e+04 - 9.60e-01 1.00e+00f 1
75r 7.1199740e+08 4.46e+04 1.99e+02 0.9 3.84e+03 - 9.90e-01 4.82e-01f 1
76r 7.1324031e+08 1.99e+02 1.32e+00 0.9 9.56e+02 - 9.93e-01 1.00e+00f 1
77 6.9322057e+08 1.98e+02 9.82e+01 -1.0 6.45e+06 - 9.85e-03 1.45e-03f 1
78 6.9313426e+08 1.98e+02 2.07e+04 -1.0 6.45e+06 - 3.86e-02 1.45e-05f 1
79r 6.9313426e+08 1.98e+02 1.00e+03 0.7 0.00e+00 - 0.00e+00 7.26e-08R 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 6.9314719e+08 1.96e+02 1.90e+03 0.7 2.57e+04 - 5.61e-01 1.04e-03f 1
81r 6.9855089e+08 9.21e+03 2.53e+03 0.7 2.80e+04 - 9.78e-01 2.66e-01f 1
82r 7.1817372e+08 5.16e+04 1.01e+03 0.7 5.40e+04 - 9.31e-01 6.24e-01f 1
83r 7.1881769e+08 4.81e+04 9.97e+02 0.7 4.24e+04 - 9.27e-01 6.85e-02f 1
84r 7.2422349e+08 1.87e+04 3.51e+02 0.7 2.02e+04 - 9.90e-01 6.12e-01f 1
85r 7.2765164e+08 1.36e+02 5.70e+01 0.7 7.83e+03 - 8.87e-01 1.00e+00f 1
86r 7.0515846e+08 3.66e+01 1.62e+00 0.0 1.87e+03 - 1.00e+00 1.00e+00f 1
87r 7.0432943e+08 1.82e+03 6.02e+01 -2.1 7.75e+04 - 1.37e-01 8.44e-02f 1
88r 7.0430941e+08 1.81e+03 8.01e+02 -2.1 1.48e+06 - 1.11e-01 6.46e-03f 1
89r 7.0398802e+08 7.45e+03 1.61e+02 -2.1 1.46e+06 - 1.00e-03 9.64e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 7.0398531e+08 7.45e+03 1.69e+02 -2.1 6.06e+05 - 1.88e-02 8.31e-04f 1
91r 7.0392990e+08 7.32e+03 7.74e+02 -2.1 8.22e+05 - 4.33e-01 1.68e-02f 1
92r 7.0368842e+08 6.94e+03 7.62e+02 -2.1 6.08e+05 - 8.89e-02 5.39e-02f 1
93r 7.0352172e+08 6.68e+03 7.49e+02 -2.1 1.09e+05 - 1.11e-01 3.67e-02f 1
94r 7.0117147e+08 4.16e+04 4.78e+02 -2.1 3.23e+05 - 1.50e-03 5.00e-01f 1
95r 7.0116120e+08 4.15e+04 4.77e+02 -2.1 4.28e+05 - 2.74e-01 3.03e-03f 1
96r 7.0103000e+08 4.01e+04 6.74e+02 -2.1 7.45e+04 - 9.60e-01 3.40e-02f 1
97r 6.9626445e+08 7.52e+03 1.33e+02 -2.1 7.32e+04 - 1.00e+00 8.11e-01f 1
98r 6.9502580e+08 6.66e+02 4.90e+01 -2.1 1.27e+04 - 1.00e+00 9.11e-01f 1
99r 6.9490371e+08 5.00e+00 3.12e-01 -2.1 3.96e+03 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.9348243e+08 5.00e+00 1.67e+01 -3.1 2.45e+03 - 9.55e-01 9.00e-01f 1
101r 6.9351443e+08 2.55e+01 3.30e+02 -3.1 4.17e+05 - 5.18e-01 1.47e-01f 1
102r 6.9355063e+08 5.33e+01 5.37e+02 -3.1 3.56e+05 - 6.76e-01 1.94e-01f 1
103r 6.9359530e+08 8.69e+01 5.96e+02 -3.1 2.87e+05 - 1.00e+00 2.96e-01f 1
104r 6.9365343e+08 1.24e+02 2.40e+02 -3.1 2.02e+05 - 1.00e+00 5.49e-01f 1
105r 6.9369072e+08 6.17e+01 4.98e+01 -3.1 9.13e+04 - 1.00e+00 7.92e-01f 1
106r 6.9370036e+08 5.00e+00 1.79e-01 -3.1 1.90e+04 - 1.00e+00 1.00e+00f 1
107r 6.9370037e+08 5.00e+00 1.79e-01 -3.1 1.58e+02 - 1.00e+00 1.00e+00h 1
108r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 4.89e+00 - 1.00e+00 1.00e+00h 1
109r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 4.73e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 1.04e-05 - 1.00e+00 1.00e+00h 1
111r 6.9370037e+08 5.00e+00 6.75e-02 -3.1 2.87e-06 - 1.00e+00 5.00e-01h 2
112r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 5.63e-06 - 1.00e+00 1.00e+00h 1
113r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 7.37e-06 - 1.00e+00 1.00e+00h 1
114r 6.9370037e+08 5.00e+00 1.01e-01 -3.1 6.91e-06 - 1.00e+00 2.50e-01h 3
115r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 4.84e-06 - 1.00e+00 1.00e+00h 1
116r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 7.80e-06 - 1.00e+00 1.00e+00h 1
117r 6.9370037e+08 5.00e+00 1.01e-01 -3.1 2.52e-06 - 1.00e+00 2.50e-01h 3
118r 6.9370037e+08 5.00e+00 1.35e-01 -3.1 8.37e-06 - 1.00e+00 1.00e+00h 1
119r 6.9370037e+08 5.00e+00 6.75e-02 -3.1 8.18e-06 - 1.00e+00 5.00e-01h 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 6.9370037e+08 5.00e+00 3.37e-02 -3.1 4.61e-06 - 1.00e+00 5.00e-01h 2
121r 6.9370037e+08 5.00e+00 2.41e-02 -3.1 5.81e-06 - 1.00e+00 5.00e-01h 2
122r 6.9320131e+08 5.00e+00 2.25e+01 -4.7 2.21e+03 - 7.19e-01 9.69e-01f 1
123r 6.9320763e+08 6.69e+01 1.25e+02 -4.7 3.06e+06 - 1.52e-01 3.23e-02f 1
124r 6.9321405e+08 1.38e+02 2.01e+02 -4.7 2.96e+06 - 1.29e-01 3.50e-02f 1
125r 6.9321578e+08 1.42e+02 3.12e+02 -4.7 2.85e+06 - 1.61e-01 1.00e-02f 1
126r 6.9322247e+08 2.24e+02 5.00e+02 -4.7 2.82e+06 - 3.50e-01 3.99e-02f 1
127r 6.9322813e+08 2.80e+02 6.52e+02 -4.7 2.71e+06 - 3.43e-01 3.55e-02f 1
128r 6.9323956e+08 5.39e+02 6.20e+02 -4.7 2.62e+06 - 1.29e-01 7.71e-02f 1
129r 6.9325955e+08 1.33e+03 5.78e+02 -4.7 2.41e+06 - 3.04e-01 1.47e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 6.9326398e+08 1.33e+03 6.74e+02 -4.7 2.06e+06 - 6.09e-01 3.98e-02f 1
131r 6.9327589e+08 1.53e+03 7.37e+02 -4.7 1.98e+06 - 9.96e-01 1.15e-01f 1
132r 6.9327596e+08 1.53e+03 7.59e+02 -4.7 9.68e+05 - 1.00e+00 1.28e-03f 1
133r 6.9329111e+08 8.51e+02 4.19e+02 -4.7 1.31e+05 - 3.57e-01 4.45e-01f 1
134r 6.9329808e+08 5.27e+02 2.68e+02 -4.7 7.27e+04 - 9.39e-01 3.80e-01h 1
135r 6.9330795e+08 4.80e+01 2.45e+01 -4.7 4.51e+04 - 9.67e-01 9.09e-01h 1
136r 6.9330889e+08 5.00e+00 3.00e-01 -4.7 4.07e+03 - 1.00e+00 1.00e+00h 1
137r 6.9330887e+08 5.00e+00 3.00e-01 -4.7 4.58e+02 - 1.00e+00 1.00e+00h 1
138r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 5.59e+01 - 1.00e+00 1.00e+00h 1
139r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.57e+00 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 6.9330886e+08 5.00e+00 1.50e-01 -4.7 1.24e-03 - 1.00e+00 5.00e-01h 2
141r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 6.20e-04 - 1.00e+00 1.00e+00h 1
142r 6.9330886e+08 5.00e+00 1.50e-01 -4.7 6.87e-06 - 1.00e+00 5.00e-01h 2
143r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 6.77e-06 - 1.00e+00 1.00e+00h 1
144r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 5.96e-06 - 1.00e+00 1.00e+00s 22
145r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 8.25e-06 - 1.00e+00 0.00e+00S 22
146r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 9.94e-06 - 1.00e+00 1.00e+00h 1
147r 6.9330886e+08 5.00e+00 2.25e-01 -4.7 1.21e-05 - 1.00e+00 2.50e-01h 3
148r 6.9330886e+08 5.00e+00 1.13e-01 -4.7 9.09e-06 - 1.00e+00 5.00e-01h 2
149r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 4.78e-06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 6.9330886e+08 5.00e+00 2.63e-01 -4.7 8.25e-06 - 1.00e+00 1.25e-01h 4
151r 6.9330886e+08 5.00e+00 1.69e-01 -4.7 8.71e-06 - 1.00e+00 5.00e-01h 2
152r 6.9330886e+08 5.00e+00 8.45e-02 -4.7 8.14e-06 - 1.00e+00 5.00e-01h 2
153r 6.9330886e+08 5.00e+00 8.18e-02 -4.7 1.18e-05 - 1.00e+00 3.12e-02h 6
154r 6.9330886e+08 5.00e+00 7.93e-02 -4.7 1.11e-05 - 1.00e+00 3.12e-02h 6
155r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 5.05e-06 - 1.00e+00 1.00e+00h 1
156r 6.9330886e+08 5.00e+00 1.50e-01 -4.7 1.07e-05 - 1.00e+00 5.00e-01h 2
157r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 7.69e-06 - 1.00e+00 1.00e+00s 23
158r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 5.40e-06 - 1.00e+00 1.00e+00s 23
159r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 7.23e-06 - 0.00e+00 0.00e+00R 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 7.23e-06 - 1.00e+00 1.95e-03f 10
161r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 6.79e-06 - 1.00e+00 9.77e-04h 11
162r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.00e-05 - 1.00e+00 1.00e+00s 42
163r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 7.02e-06 - 1.00e+00 1.00e+00s 42
164r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 0.00e+00 0.00e+00R 1
165r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 6.10e-05f 15
166r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.53e-05h 17
167r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 7.63e-06h 18
168r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 3.81e-06h 19
169r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.91e-06h 20
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 2.44e-04h 13
171r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.22e-04h 14
172r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.53e-05h 17
173r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.49e-08h 27
174r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 2.98e-08h 26
175r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.00e+00w 1
176r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.55e-05 - 1.00e+00 1.00e+00w 1
177r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 6.62e-06 - 1.00e+00 1.00e+00w 1
178r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.11e-05 - 1.00e+00 1.00e+00s 26
179r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.55e-05 - 0.00e+00 0.00e+00R 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.55e-05 - 1.00e+00 1.95e-03f 10
181r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.58e-05 - 1.00e+00 9.77e-04h 11
182r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.43e-05 - 1.00e+00 1.00e+00s 40
183r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.08e-05 - 1.00e+00 1.00e+00s 40
184r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.13e-05 - 0.00e+00 0.00e+00R 1
185r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.13e-05 - 1.00e+00 2.44e-04f 13
186r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.13e-05 - 1.00e+00 6.10e-05h 15
187r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.13e-05 - 1.00e+00 1.00e+00s 42
188r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.54e-05 - 0.00e+00 0.00e+00R 1
189r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.54e-05 - 1.00e+00 1.95e-03f 10
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.57e-05 - 1.00e+00 9.77e-04h 11
191r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 4.88e-04h 12
192r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 4.88e-04h 12
193r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 3.05e-05h 16
194r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 3.81e-06h 19
195r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 3.81e-06h 19
196r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 3.81e-06h 19
197r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 1.91e-06h 20
198r 6.9330886e+08 5.00e+00 2.99e-01 -4.7 1.42e-05 - 1.00e+00 2.38e-07h 23
199r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 1.42e-05 - 1.00e+00 1.00e+00w 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 6.9330886e+08 5.00e+00 3.00e-01 -4.7 9.59e-06 - 1.00e+00 1.00e+00w 1
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 6.9330886026219465e+04 6.9330886026219463e+08
Dual infeasibility......: 1.0000002024339676e+02 1.0000002024339676e+06
Constraint violation....: 4.9999999500000003e+00 4.9999999500000003e+00
Complementarity.........: 1.9140470468592110e-05 1.9140470468592108e-01
Overall NLP error.......: 1.0000002024339676e+02 1.0000002024339676e+06
Number of objective function evaluations = 894
Number of objective gradient evaluations = 58
Number of equality constraint evaluations = 899
Number of inequality constraint evaluations = 899
Number of equality constraint Jacobian evaluations = 218
Number of inequality constraint Jacobian evaluations = 218
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 8.041
Total CPU secs in NLP function evaluations = 706.932
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 455
Realized SOC (MPC) 1930606
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15984
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6071
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.9330886e+08 3.49e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.0331690e+08 3.46e+05 7.85e+01 -1.0 1.92e+06 - 7.68e-01 7.62e-03f 1
2 6.0324080e+08 3.45e+05 2.65e+04 -1.0 2.19e+06 - 7.69e-01 2.28e-03h 1
3 6.0324018e+08 3.45e+05 9.07e+08 -1.0 3.13e+06 - 7.88e-01 2.28e-05h 1
4r 6.0324018e+08 3.45e+05 1.00e+03 5.5 0.00e+00 - 0.00e+00 1.14e-07R 2
5r 6.0684682e+08 1.90e+06 9.29e+04 5.5 1.54e+07 - 3.27e-03 3.21e-04f 1
6r 6.3245857e+08 2.16e+06 9.00e+04 5.5 1.16e+07 - 3.04e-02 5.35e-03f 1
7r 6.6956553e+08 2.01e+06 5.75e+04 5.5 2.02e+06 - 4.01e-01 2.62e-02f 1
8 6.0958216e+08 2.00e+06 8.34e+01 -1.0 1.43e+07 - 3.27e-01 6.50e-03f 1
9 5.8621853e+08 1.91e+06 8.20e+02 -1.0 1.39e+07 - 4.84e-01 2.60e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.8230629e+08 1.53e+06 4.01e+02 -1.0 3.48e+06 - 7.37e-01 3.31e-01f 1
11 5.8069068e+08 1.06e+06 4.23e+01 -1.0 2.36e+06 - 3.80e-01 3.67e-01h 1
12 5.8067100e+08 1.06e+06 5.62e+02 -1.0 3.21e+06 - 9.22e-01 5.79e-03h 1
13 5.8066987e+08 1.06e+06 8.82e+06 -1.0 1.79e+07 - 9.12e-01 5.82e-05h 1
14r 5.8066987e+08 1.06e+06 1.00e+03 4.9 0.00e+00 -4.0 0.00e+00 2.91e-07R 2
15r 6.4302344e+08 2.93e+06 1.94e+04 4.9 4.24e+06 - 4.15e-02 4.96e-03f 1
16 5.9834235e+08 2.91e+06 9.83e+01 -1.0 2.29e+06 - 7.87e-03 6.72e-03f 1
17 5.8692274e+08 2.88e+06 9.72e+01 -1.0 2.30e+06 - 2.34e-02 1.09e-02f 1
18 5.8018573e+08 2.78e+06 9.37e+01 -1.0 2.32e+06 - 2.60e-01 3.97e-02f 1
19 5.8013910e+08 2.72e+06 9.14e+01 -1.0 2.38e+06 - 7.04e-02 2.41e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.8013866e+08 2.72e+06 7.23e+04 -1.0 2.41e+06 - 6.73e-01 2.47e-04h 1
21r 5.8013866e+08 2.72e+06 1.00e+03 4.8 0.00e+00 - 0.00e+00 3.09e-07R 4
22r 7.4026145e+08 2.85e+06 4.01e+04 4.8 4.98e+06 - 1.54e-01 1.21e-02f 1
23 6.0416633e+08 2.83e+06 8.61e+01 -1.0 1.09e+06 - 1.62e-01 8.21e-03f 1
24 5.8820581e+08 2.59e+06 8.09e+01 -1.0 1.14e+06 - 2.73e-01 9.93e-02f 1
25 5.8756770e+08 2.53e+06 1.18e+02 -1.0 1.58e+06 - 4.57e-01 2.36e-02f 1
26 5.8756426e+08 2.53e+06 3.12e+05 -1.0 1.67e+06 - 6.06e-01 2.42e-04h 1
27r 5.8756426e+08 2.53e+06 1.00e+03 2.9 0.00e+00 - 0.00e+00 3.03e-07R 4
28r 5.8776859e+08 1.52e+06 9.99e+02 2.9 6.25e+05 - 2.41e-03 1.29e-03f 1
29 5.8752658e+08 1.52e+06 1.90e+03 -1.0 7.39e+05 - 4.19e-01 2.22e-04f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30r 5.8752658e+08 1.52e+06 1.00e+03 2.4 0.00e+00 - 0.00e+00 2.78e-07R 4
31r 5.8763863e+08 6.36e+05 9.99e+02 2.4 5.52e+05 - 9.76e-04 1.21e-03f 1
32 5.8763722e+08 6.36e+05 1.76e+05 -1.0 7.94e+05 - 5.33e-01 5.72e-05h 1
33r 5.8763722e+08 6.36e+05 1.00e+03 1.7 0.00e+00 - 0.00e+00 2.86e-07R 2
34r 5.8768832e+08 2.36e+05 9.99e+02 1.7 1.43e+05 - 2.43e-02 1.00e-03f 1
35 5.8767752e+08 2.36e+05 5.72e+04 -1.0 7.47e+05 - 5.68e-01 1.00e-05f 1
36r 5.8767752e+08 2.36e+05 1.00e+03 1.1 0.00e+00 - 0.00e+00 5.01e-08R 2
37r 5.8780890e+08 6.14e+04 9.99e+02 1.1 3.15e+05 - 9.18e-03 1.12e-03f 1
38r 5.8845073e+08 2.95e+05 9.90e+02 1.1 2.73e+05 - 3.37e-02 8.86e-03f 1
39r 5.8878069e+08 2.91e+05 9.76e+02 1.1 1.17e+05 - 5.38e-02 1.43e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40r 5.8965212e+08 2.68e+05 9.04e+02 1.1 4.63e+04 - 1.49e-01 7.35e-02f 1
41r 5.9051187e+08 2.31e+05 7.80e+02 1.1 2.34e+04 - 1.95e-01 1.37e-01f 1
42r 5.9267366e+08 1.57e+05 7.00e+02 1.1 2.29e+04 - 9.41e-02 3.19e-01f 1
43r 5.9829997e+08 2.98e+04 1.20e+03 1.1 1.82e+04 - 4.97e-01 8.11e-01f 1
44r 6.0878764e+08 2.49e+03 2.82e+01 1.1 8.93e+03 - 9.86e-01 1.00e+00f 1
45r 6.2668680e+08 2.12e+02 5.01e+01 1.1 6.86e+03 - 9.90e-01 1.00e+00f 1
46 6.2645597e+08 2.12e+02 4.46e+04 -1.0 2.37e+06 - 2.16e-01 2.74e-03f 1
47 6.2645498e+08 2.12e+02 1.16e+09 -1.0 2.37e+06 - 7.10e-01 1.37e-05f 2
48 6.2645424e+08 2.12e+02 1.72e+13 -1.0 2.16e+06 - 2.09e-01 1.39e-05h 1
49r 6.2645424e+08 2.12e+02 1.00e+03 1.1 0.00e+00 - 0.00e+00 6.93e-08R 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50r 6.2694855e+08 2.27e+03 4.06e+03 1.1 3.52e+04 - 9.76e-01 1.96e-01f 1
51r 6.4259202e+08 4.48e+03 2.76e+03 1.1 3.30e+04 - 9.89e-01 3.78e-01f 1
52r 6.5604024e+08 5.79e+03 1.11e+03 1.1 2.06e+04 - 9.91e-01 5.99e-01f 1
53 6.4028900e+08 5.79e+03 9.33e+01 -1.0 2.66e+06 - 8.44e-02 1.95e-03f 1
54 6.4027570e+08 5.79e+03 1.62e+06 -1.0 2.66e+06 - 7.17e-01 1.96e-05f 1
55r 6.4027570e+08 5.79e+03 1.00e+03 1.0 0.00e+00 - 0.00e+00 9.79e-08R 2
56r 6.4029663e+08 2.81e+03 4.49e+03 1.0 2.86e+04 - 9.83e-01 7.72e-03f 1
57r 6.8591362e+08 4.96e+04 3.82e+01 1.0 4.23e+04 - 9.85e-01 1.00e+00f 1
58r 6.8051191e+08 4.88e+02 2.48e+00 1.0 1.05e+03 - 9.90e-01 1.00e+00f 1
59 6.5830829e+08 4.90e+02 9.58e+01 -1.0 2.98e+06 - 4.47e-02 2.11e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.5827636e+08 4.90e+02 8.12e+05 -1.0 2.98e+06 - 7.75e-01 2.11e-05f 1
61r 6.5827636e+08 4.90e+02 1.00e+03 0.9 0.00e+00 - 0.00e+00 1.06e-07R 2
62r 6.5842406e+08 4.46e+02 3.45e+03 0.9 3.31e+04 - 9.82e-01 7.32e-02f 1
63r 6.9599122e+08 7.94e+04 4.75e+01 0.9 4.57e+04 - 9.84e-01 1.00e+00f 1
64r 6.9699902e+08 2.27e+04 7.03e+01 0.9 4.18e+03 - 9.90e-01 7.75e-01f 1
65r 6.9728065e+08 9.88e+02 2.43e+00 0.9 7.55e+02 - 1.00e+00 1.00e+00f 1
66 6.7721623e+08 9.87e+02 9.79e+01 -1.0 3.22e+06 - 1.39e-02 1.64e-03f 1
67 6.7714610e+08 9.87e+02 3.18e+04 -1.0 3.21e+06 - 5.54e-02 1.65e-05f 1
68r 6.7714610e+08 9.87e+02 1.00e+03 0.7 0.00e+00 - 0.00e+00 8.23e-08R 2
69r 6.7716039e+08 9.30e+02 1.85e+03 0.7 2.11e+04 - 5.49e-01 1.33e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70r 6.8369465e+08 2.03e+04 2.15e+03 0.7 2.80e+04 - 9.51e-01 3.58e-01f 1
71r 7.0640345e+08 6.98e+04 6.17e+02 0.7 4.67e+04 - 9.57e-01 7.46e-01f 1
72r 7.0683921e+08 6.44e+04 7.73e+02 0.7 3.22e+04 - 9.89e-01 7.84e-02f 1
73r 7.0961622e+08 2.99e+04 3.97e+02 0.7 2.71e+04 - 7.64e-01 5.36e-01f 1
74r 7.1201745e+08 1.69e+03 3.15e+00 0.7 6.10e+03 - 9.92e-01 1.00e+00f 1
75r 6.8864371e+08 2.97e+02 6.93e+01 -0.7 2.84e+03 - 9.06e-01 8.77e-01f 1
76r 6.8852216e+08 7.44e+03 6.90e+01 -0.7 2.35e+05 - 3.22e-02 5.88e-02f 1
77r 6.8852096e+08 7.43e+03 1.60e+02 -0.7 2.21e+05 - 9.34e-02 6.01e-04f 1
78r 6.8809742e+08 5.90e+03 2.31e+02 -0.7 2.23e+05 - 1.45e-01 2.07e-01f 1
79r 6.8762509e+08 1.75e+04 1.08e+03 -0.7 1.76e+05 - 2.70e-03 2.63e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 6.8762241e+08 1.75e+04 7.81e+02 -0.7 1.23e+05 - 3.14e-01 1.88e-03f 1
81r 6.8754759e+08 1.66e+04 7.43e+02 -0.7 9.33e+04 - 3.13e-03 4.89e-02f 1
82r 6.8753449e+08 1.65e+04 1.09e+03 -0.7 1.22e+05 - 1.00e+00 8.91e-03f 1
83r 6.8580487e+08 2.31e+04 1.39e+02 -0.7 1.25e+05 - 9.24e-02 9.94e-01f 1
84r 6.8579120e+08 1.60e+02 1.87e+00 -0.7 7.99e+03 - 1.00e+00 1.00e+00f 1
85r 6.7918595e+08 2.26e+01 3.52e+01 -2.1 1.46e+03 - 9.84e-01 8.59e-01f 1
86r 6.7917446e+08 2.45e+03 2.20e+02 -2.1 5.70e+05 - 8.87e-02 6.36e-02f 1
87r 6.7917434e+08 2.45e+03 1.27e+03 -2.1 4.59e+05 - 1.78e-01 6.99e-04f 1
88r 6.7916596e+08 2.32e+03 5.54e+02 -2.1 1.25e+05 - 5.48e-01 4.92e-02f 1
89r 6.7913682e+08 1.92e+03 8.63e+02 -2.1 1.20e+05 - 1.00e+00 1.76e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 6.7906395e+08 9.08e+02 4.17e+02 -2.1 9.87e+04 - 9.01e-01 5.26e-01f 1
91r 6.7900207e+08 5.35e+01 2.47e+01 -2.1 4.68e+04 - 1.00e+00 9.41e-01f 1
92r 6.7899828e+08 5.00e+00 1.43e-01 -2.1 2.71e+03 - 1.00e+00 1.00e+00f 1
93r 6.7749274e+08 5.00e+00 9.49e+00 -3.1 1.99e+03 - 9.58e-01 9.18e-01f 1
94r 6.7753268e+08 2.35e+01 7.91e+02 -3.1 3.82e+05 - 9.14e-01 1.55e-01f 1
95r 6.7762213e+08 1.33e+02 5.60e+02 -3.1 3.23e+05 - 1.00e+00 4.10e-01f 1
96r 6.7764341e+08 1.17e+02 4.96e+02 -3.1 1.91e+05 - 1.00e+00 1.67e-01f 1
97r 6.7772271e+08 1.25e+02 1.27e+02 -3.1 1.59e+05 - 1.00e+00 7.46e-01f 1
98r 6.7774951e+08 1.11e+01 1.80e-01 -3.1 4.04e+04 - 1.00e+00 1.00e+00f 1
99r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 7.18e+01 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 6.82e-01 - 1.00e+00 1.00e+00h 1
101r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 6.24e-05 - 1.00e+00 1.00e+00h 1
102r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.34e-06 - 1.00e+00 1.00e+00h 1
103r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.77e-06 - 1.00e+00 1.00e+00h 1
104r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.77e-06 - 1.00e+00 1.00e+00h 1
105r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 5.52e-06 - 1.00e+00 1.00e+00h 1
106r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 1.00e+00 1.00e+00h 1
107r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.02e-05 - 1.00e+00 1.00e+00h 1
108r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 6.91e-06 - 1.00e+00 1.00e+00h 1
109r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.14e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 6.7774951e+08 5.00e+00 1.79e-01 -3.1 8.36e-06 - 1.00e+00 7.81e-03h 8
111r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.09e-06 - 1.00e+00 1.00e+00h 1
112r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.05e-06 - 1.00e+00 1.00e+00h 1
113r 6.7774951e+08 5.00e+00 1.77e-01 -3.1 8.86e-06 - 1.00e+00 1.56e-02h 7
114r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.11e-06 - 1.00e+00 1.00e+00h 1
115r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 6.97e-06 - 1.00e+00 1.00e+00h 1
116r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.17e-05 - 1.00e+00 1.00e+00h 1
117r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.50e-06 - 1.00e+00 6.10e-05h 15
118r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.50e-06 - 1.00e+00 1.00e+00h 1
119r 6.7774951e+08 5.00e+00 1.58e-01 -3.1 7.17e-06 - 1.00e+00 1.25e-01h 4
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 6.95e-06 - 1.00e+00 1.00e+00s 22
121r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.24e-05 - 0.00e+00 0.00e+00R 1
122r 6.7774951e+08 5.00e+00 1.79e-01 -3.1 1.24e-05 - 1.00e+00 7.81e-03h 8
123r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.24e-05 - 1.00e+00 1.00e+00s 35
124r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 0.00e+00 0.00e+00R 1
125r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 1.00e+00 1.00e+00s 59
126r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.12e-05 - 0.00e+00 0.00e+00R 1
127r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.12e-05 - 1.00e+00 1.00e+00s 59
128r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.21e-05 - 0.00e+00 0.00e+00R 1
129r 6.7774951e+08 5.00e+00 1.75e-01 -3.1 1.21e-05 - 1.00e+00 3.12e-02h 6
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 1.00e+00 1.00e+00s 34
131r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.26e-06 - 0.00e+00 0.00e+00R 1
132r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.26e-06 - 1.00e+00 1.00e+00s 59
133r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.10e-05 - 0.00e+00 0.00e+00R 1
134r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.10e-05 - 1.00e+00 1.00e+00s 59
135r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.11e-06 - 0.00e+00 0.00e+00R 1
136r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.11e-06 - 1.00e+00 1.00e+00s 59
137r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.00e-05 - 0.00e+00 0.00e+00R 1
138r 6.7774951e+08 5.00e+00 1.79e-01 -3.1 1.00e-05 - 1.00e+00 7.81e-03h 8
139r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.82e-06 - 1.00e+00 1.00e+00s 35
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 0.00e+00 0.00e+00R 1
141r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 1.00e+00 1.00e+00s 59
142r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.74e-06 - 0.00e+00 0.00e+00R 1
143r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.74e-06 - 1.00e+00 1.00e+00s 59
144r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.91e-06 - 0.00e+00 0.00e+00R 1
145r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.91e-06 - 1.00e+00 1.00e+00s 59
146r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.17e-05 - 0.00e+00 0.00e+00R 1
147r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.17e-05 - 1.00e+00 1.00e+00s 59
148r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.79e-06 - 0.00e+00 0.00e+00R 1
149r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.79e-06 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.33e-06 - 0.00e+00 0.00e+00R 1
151r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.33e-06 - 1.00e+00 1.00e+00s 59
152r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.05e-06 - 0.00e+00 0.00e+00R 1
153r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.05e-06 - 1.00e+00 1.00e+00s 59
154r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.98e-06 - 0.00e+00 0.00e+00R 1
155r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.98e-06 - 1.00e+00 1.00e+00s 59
156r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 0.00e+00 0.00e+00R 1
157r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 1.00e+00 1.00e+00s 59
158r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.87e-06 - 0.00e+00 0.00e+00R 1
159r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.87e-06 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.04e-06 - 0.00e+00 0.00e+00R 1
161r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.04e-06 - 1.00e+00 1.00e+00s 59
162r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 0.00e+00 0.00e+00R 1
163r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.18e-05 - 1.00e+00 1.00e+00s 59
164r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.66e-06 - 0.00e+00 0.00e+00R 1
165r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.66e-06 - 1.00e+00 1.00e+00s 59
166r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.74e-06 - 0.00e+00 0.00e+00R 1
167r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.74e-06 - 1.00e+00 1.00e+00s 59
168r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.04e-06 - 0.00e+00 0.00e+00R 1
169r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.04e-06 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.89e-06 - 0.00e+00 0.00e+00R 1
171r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.89e-06 - 1.00e+00 1.00e+00s 59
172r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 0.00e+00 0.00e+00R 1
173r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 1.00e+00 1.00e+00s 59
174r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.00e-05 - 0.00e+00 0.00e+00R 1
175r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.00e-05 - 1.00e+00 1.00e+00s 59
176r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.82e-06 - 0.00e+00 0.00e+00R 1
177r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.82e-06 - 1.00e+00 1.00e+00s 59
178r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 0.00e+00 0.00e+00R 1
179r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.15e-05 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 0.00e+00 0.00e+00R 1
181r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 1.00e+00 1.00e+00s 59
182r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.38e-06 - 0.00e+00 0.00e+00R 1
183r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.38e-06 - 1.00e+00 1.00e+00s 59
184r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.01e-06 - 0.00e+00 0.00e+00R 1
185r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.01e-06 - 1.00e+00 1.00e+00s 59
186r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.82e-06 - 0.00e+00 0.00e+00R 1
187r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.82e-06 - 1.00e+00 1.00e+00s 59
188r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.17e-05 - 0.00e+00 0.00e+00R 1
189r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.17e-05 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.85e-06 - 0.00e+00 0.00e+00R 1
191r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.85e-06 - 1.00e+00 1.00e+00s 59
192r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.84e-06 - 0.00e+00 0.00e+00R 1
193r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.84e-06 - 1.00e+00 1.00e+00s 59
194r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.22e-05 - 0.00e+00 0.00e+00R 1
195r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 1.22e-05 - 1.00e+00 1.00e+00s 59
196r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 0.00e+00 0.00e+00R 1
197r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.83e-06 - 1.00e+00 1.00e+00s 59
198r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.39e-06 - 0.00e+00 0.00e+00R 1
199r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 9.39e-06 - 1.00e+00 1.00e+00s 59
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 6.7774951e+08 5.00e+00 1.80e-01 -3.1 8.64e-06 - 0.00e+00 0.00e+00R 1
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 6.7774950809347822e+04 6.7774950809347820e+08
Dual infeasibility......: 9.9999864169261372e+01 9.9999864169261372e+05
Constraint violation....: 4.9999999500000003e+00 4.9999999500000003e+00
Complementarity.........: 8.2677668130828733e-04 8.2677668130828721e+00
Overall NLP error.......: 9.9999864169261372e+01 9.9999864169261372e+05
Number of objective function evaluations = 2515
Number of objective gradient evaluations = 53
Number of equality constraint evaluations = 2554
Number of inequality constraint evaluations = 2554
Number of equality constraint Jacobian evaluations = 251
Number of inequality constraint Jacobian evaluations = 251
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 9.118
Total CPU secs in NLP function evaluations = 606.082
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 455
Realized SOC (MPC) 2274499
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15980
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6070
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.7774951e+08 3.44e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.9973391e+08 3.41e+05 8.29e+01 -1.0 1.57e+06 - 8.10e-01 7.61e-03f 1
2 5.9966862e+08 3.40e+05 2.94e+04 -1.0 1.81e+06 - 8.12e-01 2.28e-03h 1
3 5.9966804e+08 3.40e+05 1.05e+09 -1.0 3.07e+06 - 8.26e-01 2.29e-05h 1
4r 5.9966804e+08 3.40e+05 1.00e+03 5.5 0.00e+00 - 0.00e+00 1.15e-07R 2
5r 6.0337860e+08 1.90e+06 9.26e+04 5.5 1.21e+07 - 3.31e-03 3.31e-04f 1
6r 6.1083292e+08 1.73e+06 8.87e+04 4.8 8.79e+06 - 1.58e-01 8.53e-03f 1
7r 6.1969829e+08 6.26e+06 8.63e+04 4.8 5.01e+06 - 2.41e-02 2.80e-02f 1
8 5.9427476e+08 6.22e+06 9.84e+01 -1.0 2.00e+06 - 7.67e-03 5.96e-03f 1
9 5.8373303e+08 6.15e+06 9.72e+01 -1.0 1.94e+06 - 2.19e-02 1.18e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.7851399e+08 5.91e+06 9.36e+01 -1.0 1.83e+06 - 2.31e-01 3.88e-02f 1
11 5.7839014e+08 5.58e+06 8.80e+01 -1.0 1.48e+06 - 7.03e-02 5.91e-02h 1
12 5.7838855e+08 5.57e+06 6.63e+03 -1.0 1.02e+06 - 5.72e-01 8.12e-04h 1
13 5.7838487e+08 5.56e+06 2.61e+05 -1.0 6.02e+06 - 9.01e-02 2.27e-03h 1
14 5.7792109e+08 4.45e+06 1.91e+05 -1.0 6.01e+06 - 9.21e-02 2.84e-01h 1
15 5.7791546e+08 4.43e+06 1.02e+05 -1.0 2.13e+06 - 5.17e-01 3.96e-03h 1
16 5.7791539e+08 4.43e+06 1.15e+07 -1.0 2.10e+06 - 5.67e-01 3.97e-05h 1
17r 5.7791539e+08 4.43e+06 1.00e+03 5.1 0.00e+00 - 0.00e+00 1.99e-07R 2
18r 9.5879952e+08 4.44e+06 6.95e+04 5.1 4.18e+06 - 1.43e-01 1.71e-02f 1
19 5.8489530e+08 4.39e+06 9.81e+01 -1.0 6.82e+06 - 8.70e-03 9.72e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.7803976e+08 4.34e+06 9.63e+01 -1.0 6.58e+06 - 2.80e-02 1.20e-02f 1
21 5.7426530e+08 4.15e+06 9.19e+01 -1.0 6.28e+06 - 4.50e-02 4.58e-02f 1
22 5.7406046e+08 3.90e+06 8.20e+01 -1.0 5.19e+06 - 1.30e-01 6.40e-02h 1
23 5.7405804e+08 3.89e+06 9.37e+01 -1.0 3.40e+06 - 6.84e-03 2.75e-03h 1
24 5.7445373e+08 3.33e+06 1.93e+02 -1.0 3.74e+06 - 4.39e-04 1.71e-01h 1
25 5.7445809e+08 3.32e+06 3.30e+02 -1.0 1.04e+06 - 3.69e-01 2.06e-03h 1
26 5.7445814e+08 3.32e+06 4.85e+06 -1.0 1.01e+06 - 3.03e-01 2.07e-05h 1
27r 5.7445814e+08 3.32e+06 1.00e+03 4.5 0.00e+00 - 0.00e+00 1.03e-07R 2
28r 6.1517748e+08 3.01e+06 3.95e+03 4.5 6.64e+06 - 5.26e-02 4.53e-03f 1
29 5.8567041e+08 2.99e+06 8.23e+01 -1.0 1.52e+06 - 2.63e-01 7.25e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.8494222e+08 2.94e+06 1.62e+02 -1.0 1.42e+06 - 3.03e-01 1.95e-02f 1
31 5.8493855e+08 2.94e+06 3.84e+05 -1.0 1.20e+06 - 4.48e-01 1.99e-04h 1
32r 5.8493855e+08 2.94e+06 1.00e+03 3.0 0.00e+00 - 0.00e+00 4.98e-07R 3
33r 5.8515952e+08 1.50e+06 9.99e+02 3.0 9.28e+05 - 3.54e-03 1.02e-03f 1
34 5.8496211e+08 1.50e+06 1.76e+03 -1.0 3.30e+06 - 3.48e-01 1.99e-04f 1
35r 5.8496211e+08 1.50e+06 1.00e+03 2.4 0.00e+00 - 0.00e+00 4.99e-07R 3
36r 5.8507417e+08 7.69e+05 9.99e+02 2.4 2.12e+05 - 4.19e-03 1.04e-03f 1
37 5.8507282e+08 7.69e+05 1.78e+05 -1.0 3.51e+06 - 4.94e-01 4.86e-05h 1
38r 5.8507282e+08 7.69e+05 1.00e+03 1.8 0.00e+00 - 0.00e+00 2.43e-07R 2
39r 5.8511401e+08 2.66e+05 9.99e+02 1.8 1.63e+05 - 1.24e-02 1.00e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.8510241e+08 2.66e+05 4.25e+04 -1.0 3.70e+06 - 4.97e-01 1.18e-05f 1
41r 5.8510241e+08 2.66e+05 1.00e+03 1.4 0.00e+00 - 0.00e+00 5.90e-08R 2
42r 5.8519331e+08 7.66e+04 9.98e+02 1.4 2.89e+05 - 7.80e-03 1.52e-03f 1
43r 5.8538641e+08 1.93e+05 9.94e+02 1.4 1.98e+05 - 3.29e-02 3.99e-03f 1
44r 5.8608666e+08 2.80e+05 9.69e+02 1.4 1.19e+05 - 1.50e-02 2.55e-02f 1
45r 5.8661198e+08 2.72e+05 1.18e+03 1.4 4.98e+04 - 2.43e-01 3.06e-02f 1
46r 5.8906575e+08 2.18e+05 5.78e+03 1.4 1.93e+04 - 9.66e-01 1.97e-01f 1
47r 6.4800178e+08 2.03e+04 7.60e+02 1.4 2.39e+04 - 3.16e-01 9.10e-01f 1
48r 6.2414653e+08 2.47e+02 1.08e+02 1.4 1.18e+04 - 9.90e-01 1.00e+00f 1
49r 6.2414654e+08 2.36e+01 2.83e+03 1.4 2.83e-03 6.0 9.90e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50r 6.2489894e+08 2.36e+01 1.44e+02 1.4 8.21e+02 - 1.00e+00 1.00e+00f 1
51r 6.1914227e+08 2.36e+01 8.25e+02 -0.0 5.94e+03 - 3.63e-01 2.74e-01f 1
52r 6.1908418e+08 3.78e+01 3.97e+03 -0.0 1.15e+05 - 5.18e-01 1.11e-02f 1
53r 6.1489266e+08 6.72e+04 3.28e+03 -0.0 1.14e+05 - 1.00e+00 5.34e-01f 1
54 6.1476276e+08 6.71e+04 1.86e+04 -1.0 8.33e+05 - 7.54e-02 1.70e-03f 1
55 6.1476155e+08 6.71e+04 9.91e+08 -1.0 8.19e+05 - 8.95e-01 1.70e-05h 1
56r 6.1476155e+08 6.71e+04 1.00e+03 1.3 0.00e+00 - 0.00e+00 8.52e-08R 2
57r 6.1476658e+08 4.56e+04 4.27e+03 1.3 2.93e+04 - 4.80e-01 1.27e-03f 1
58r 6.1826849e+08 4.28e+03 4.32e+03 1.3 3.02e+04 - 9.52e-01 4.81e-01f 1
59r 6.6698665e+08 5.19e+03 4.67e+00 1.3 1.66e+04 - 9.90e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60r 6.5836456e+08 1.85e+01 2.00e+00 1.3 4.02e+02 - 9.92e-01 1.00e+00f 1
61r 6.3545233e+08 1.98e+02 5.77e+02 -0.1 4.60e+03 - 9.07e-01 8.35e-01f 1
62r 6.3387999e+08 6.89e+04 9.68e+02 -0.1 1.24e+05 - 1.00e+00 4.55e-01f 1
63 6.3092852e+08 6.89e+04 9.89e+01 -1.0 8.02e+05 - 1.17e-03 5.01e-04f 1
64 6.3090343e+08 6.89e+04 4.94e+05 -1.0 8.05e+05 - 7.44e-01 5.02e-06f 1
65r 6.3090343e+08 6.89e+04 1.00e+03 1.2 0.00e+00 - 0.00e+00 2.51e-08R 2
66r 6.3090744e+08 4.54e+04 4.09e+03 1.2 2.51e+04 - 5.70e-01 9.87e-04f 1
67r 6.3592615e+08 7.40e+03 2.95e+03 1.2 2.98e+04 - 9.75e-01 5.69e-01f 1
68 6.2479664e+08 7.39e+03 9.48e+01 -1.0 1.07e+06 - 6.63e-02 1.83e-03f 1
69 6.2478478e+08 7.39e+03 4.94e+05 -1.0 1.07e+06 - 2.43e-01 1.83e-05f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70r 6.2478478e+08 7.39e+03 1.00e+03 1.2 0.00e+00 - 0.00e+00 9.15e-08R 2
71r 6.2484595e+08 5.45e+03 5.92e+03 1.2 1.73e+04 - 9.64e-01 7.39e-03f 1
72r 6.7728206e+08 3.30e+04 3.50e+01 1.2 3.55e+04 - 9.82e-01 9.95e-01f 1
73r 6.6677121e+08 1.61e+02 2.38e+00 1.2 1.52e+03 - 9.90e-01 1.00e+00f 1
74 6.4081653e+08 1.72e+02 9.80e+01 -1.0 1.55e+06 - 1.30e-02 2.82e-03f 1
75 6.4073559e+08 1.72e+02 1.94e+04 -1.0 1.56e+06 - 9.77e-02 2.83e-05f 1
76r 6.4073559e+08 1.72e+02 1.00e+03 1.1 0.00e+00 - 0.00e+00 1.41e-07R 2
77r 6.4076353e+08 1.71e+02 4.65e+03 1.1 2.12e+04 - 9.00e-01 1.79e-03f 1
78r 6.8542646e+08 4.34e+04 3.19e+01 1.1 3.47e+04 - 9.82e-01 1.00e+00f 1
79r 6.8296228e+08 5.62e+02 2.03e+00 1.1 5.33e+03 - 9.90e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.8079738e+08 5.66e+02 4.39e+02 -1.0 1.96e+06 - 5.43e-03 2.39e-03f 1
81 6.8077695e+08 5.66e+02 2.24e+07 -1.0 1.96e+06 - 8.58e-01 2.39e-05f 1
82r 6.8077695e+08 5.66e+02 1.00e+03 1.0 0.00e+00 - 0.00e+00 1.20e-07R 2
83r 6.8079712e+08 4.98e+02 4.04e+03 1.0 3.59e+04 - 9.82e-01 9.56e-03f 1
84r 7.2121217e+08 7.19e+04 4.25e+01 1.0 4.42e+04 - 9.87e-01 1.00e+00f 1
85r 7.2475768e+08 1.56e+03 3.65e+01 1.0 1.91e+03 - 8.66e-01 1.00e+00f 1
86 6.9601543e+08 1.56e+03 9.87e+01 -1.0 2.27e+06 - 2.98e-03 1.91e-03f 1
87 6.9583589e+08 1.56e+03 4.75e+03 -1.0 2.27e+06 - 3.55e-02 1.92e-05f 1
88r 6.9583589e+08 1.56e+03 1.00e+03 0.8 0.00e+00 - 0.00e+00 9.58e-08R 2
89r 6.9584596e+08 1.52e+03 9.99e+02 0.8 9.39e+04 - 2.55e-01 5.48e-04f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 7.0172872e+08 5.67e+03 2.46e+03 0.8 1.99e+04 - 9.83e-01 2.71e-01f 1
91r 7.1642651e+08 1.97e+04 1.38e+03 0.8 4.63e+04 - 9.72e-01 3.98e-01f 1
92r 7.2460664e+08 1.13e+04 9.82e+02 0.8 3.51e+04 - 3.19e-01 4.41e-01f 1
93 7.2141577e+08 1.13e+04 1.29e+02 -1.0 2.43e+06 - 2.79e-03 1.02e-03f 1
94 7.2138616e+08 1.13e+04 1.58e+07 -1.0 2.42e+06 - 9.30e-01 1.02e-05f 1
95r 7.2138616e+08 1.13e+04 1.00e+03 0.7 0.00e+00 - 0.00e+00 5.12e-08R 2
96r 7.2138812e+08 5.16e+03 9.98e+02 0.7 5.23e+04 - 4.21e-03 1.87e-03f 1
97r 7.2139583e+08 2.94e+03 2.10e+03 0.7 5.22e+04 - 9.81e-01 7.36e-03f 1
98r 7.2529324e+08 3.00e+03 1.76e+03 0.7 6.12e+04 - 9.42e-02 1.58e-01f 1
99r 7.3280294e+08 1.59e+04 1.19e+03 0.7 5.14e+04 - 4.57e-01 3.27e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 7.5348995e+08 5.05e+04 4.00e+01 0.7 3.46e+04 - 9.89e-01 1.00e+00f 1
101r 7.5736543e+08 1.89e+02 1.04e+00 0.7 6.97e+02 - 9.91e-01 1.00e+00h 1
102r 7.3330472e+08 1.34e+01 1.47e+00 0.0 2.19e+03 - 1.00e+00 1.00e+00f 1
103r 7.2978626e+08 2.37e+04 7.33e+00 -2.1 7.57e+04 - 3.33e-01 3.49e-01f 1
104r 7.2977863e+08 2.39e+04 7.09e+02 -2.1 1.13e+06 - 5.38e-02 2.53e-03f 1
105r 7.2974273e+08 2.37e+04 9.08e+02 -2.1 6.97e+05 - 5.01e-01 1.21e-02f 1
106r 7.2872728e+08 6.67e+04 8.48e+02 -2.1 6.99e+05 - 4.36e-01 2.51e-01f 1
107r 7.2868929e+08 6.61e+04 8.50e+02 -2.1 1.66e+05 - 8.76e-02 9.31e-03f 1
108r 7.2837006e+08 6.10e+04 7.45e+02 -2.1 1.17e+05 - 1.00e+00 7.70e-02f 1
109r 7.2422726e+08 1.20e+04 1.47e+02 -2.1 1.13e+05 - 4.26e-01 8.03e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 7.2331764e+08 1.67e+03 1.04e+02 -2.1 2.13e+04 - 7.35e-01 8.61e-01f 1
111r 7.2316579e+08 5.00e+00 4.72e-01 -2.1 4.09e+03 - 1.00e+00 1.00e+00f 1
112r 7.2316593e+08 5.00e+00 1.38e-01 -2.1 1.57e+03 - 1.00e+00 1.00e+00f 1
113r 7.2174598e+08 5.00e+00 2.66e+00 -3.1 1.91e+03 - 9.05e-01 8.93e-01f 1
114r 7.2176370e+08 7.86e+00 4.68e+02 -3.1 4.12e+05 - 5.58e-01 8.33e-02f 1
115r 7.2182240e+08 9.32e+01 8.16e+02 -3.1 3.77e+05 - 1.00e+00 3.03e-01f 1
116r 7.2185604e+08 9.89e+01 6.05e+02 -3.1 2.63e+05 - 1.00e+00 2.50e-01f 1
117r 7.2189926e+08 1.05e+02 3.34e+02 -3.1 1.97e+05 - 1.00e+00 4.30e-01f 1
118r 7.2192772e+08 7.35e+01 1.79e+02 -3.1 1.13e+05 - 1.00e+00 4.98e-01f 1
119r 7.2195605e+08 2.14e+01 8.66e-02 -3.1 5.65e+04 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.84e+02 - 1.00e+00 1.00e+00h 1
121r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 3.64e+01 - 1.00e+00 1.00e+00h 1
122r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 1.83e-01 - 1.00e+00 1.00e+00h 1
123r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 8.58e-06 - 1.00e+00 1.00e+00h 1
124r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 4.96e-06 - 1.00e+00 1.00e+00h 1
125r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 2.85e-06 - 1.00e+00 1.00e+00h 1
126r 7.2195605e+08 5.00e+00 4.33e-02 -3.1 5.40e-06 - 1.00e+00 5.00e-01h 2
127r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.89e-06 - 1.00e+00 1.00e+00h 1
128r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 4.99e-06 - 1.00e+00 1.00e+00h 1
129r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.47e-06 - 0.00e+00 4.77e-07R 22
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 7.2195605e+08 5.00e+00 8.53e-02 -3.1 5.47e-06 - 1.00e+00 1.56e-02f 7
131r 7.2195605e+08 5.00e+00 8.46e-02 -3.1 6.90e-06 - 1.00e+00 7.81e-03h 8
132r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.01e-06 - 1.00e+00 1.00e+00s 34
133r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.81e-06 - 0.00e+00 0.00e+00R 1
134r 7.2195605e+08 5.00e+00 8.53e-02 -3.1 6.81e-06 - 1.00e+00 1.56e-02f 7
135r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.17e-06 - 1.00e+00 3.91e-03h 9
136r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.79e-06 - 1.00e+00 2.44e-04h 13
137r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 7.63e-06h 18
138r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 1.91e-06h 20
139r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 3.81e-06h 19
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 9.54e-07h 21
141r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 3.05e-05h 16
142r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 3.81e-06h 19
143r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.78e-06 - 1.00e+00 1.22e-04h 14
144r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.79e-06 - 1.00e+00 1.00e+00w 1
145r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.62e-06 - 1.00e+00 1.00e+00w 1
146r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.50e-06 - 1.00e+00 1.00e+00w 1
147r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 5.55e-06 - 1.00e+00 5.96e-08h 24
148r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.79e-06 - 1.00e+00 1.49e-08h 27
149r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.79e-06 - 1.00e+00 9.77e-04h 11
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.14e-06 - 1.00e+00 1.22e-04h 14
151r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 6.10e-05h 15
152r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 1.53e-05h 17
153r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 7.63e-06h 18
154r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 1.22e-04h 14
155r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 3.05e-05h 16
156r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 1.53e-05h 17
157r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.13e-06 - 1.00e+00 1.00e+00w 1
158r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.31e-06 - 1.00e+00 1.00e+00w 1
159r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.57e-06 - 1.00e+00 1.00e+00w 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 5.18e-06 - 1.00e+00 4.77e-07h 21
161r 7.2195605e+08 5.00e+00 4.78e-02 -3.1 6.13e-06 - 1.00e+00 5.96e-08h 25
162r 7.2195605e+08 5.00e+00 4.74e-02 -3.1 6.13e-06 - 1.00e+00 7.81e-03h 8
163r 7.2195605e+08 5.00e+00 4.72e-02 -3.1 6.08e-06 - 1.00e+00 3.91e-03h 9
164r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.06e-06 - 1.00e+00 1.00e+00s 34
165r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.37e-06 - 0.00e+00 0.00e+00R 1
166r 7.2195605e+08 5.00e+00 8.59e-02 -3.1 7.37e-06 - 1.00e+00 7.81e-03f 8
167r 7.2195605e+08 5.00e+00 8.53e-02 -3.1 7.27e-06 - 1.00e+00 7.81e-03h 8
168r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.41e-06 - 1.00e+00 1.00e+00s 34
169r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.69e-06 - 0.00e+00 0.00e+00R 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 7.2195605e+08 5.00e+00 8.59e-02 -3.1 7.69e-06 - 1.00e+00 7.81e-03f 8
171r 7.2195605e+08 5.00e+00 8.56e-02 -3.1 5.95e-06 - 1.00e+00 3.91e-03h 9
172r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.97e-06 - 1.00e+00 1.00e+00s 35
173r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 4.50e-06 - 0.00e+00 0.00e+00R 1
174r 7.2195605e+08 5.00e+00 8.59e-02 -3.1 4.50e-06 - 1.00e+00 7.81e-03f 8
175r 7.2195605e+08 5.00e+00 8.53e-02 -3.1 7.24e-06 - 1.00e+00 7.81e-03h 8
176r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 4.69e-06 - 1.00e+00 1.00e+00s 35
177r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.12e-06 - 0.00e+00 0.00e+00R 1
178r 7.2195605e+08 5.00e+00 8.63e-02 -3.1 6.12e-06 - 1.00e+00 3.91e-03f 9
179r 7.2195605e+08 5.00e+00 8.61e-02 -3.1 6.05e-06 - 1.00e+00 1.95e-03h 10
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 7.2195605e+08 5.00e+00 8.61e-02 -3.1 4.30e-06 - 1.00e+00 4.88e-04h 12
181r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 4.30e-06 - 1.00e+00 1.00e+00s 36
182r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.28e-06 - 0.00e+00 0.00e+00R 1
183r 7.2195605e+08 5.00e+00 8.65e-02 -3.1 5.28e-06 - 1.00e+00 9.77e-04f 11
184r 7.2195605e+08 5.00e+00 8.62e-02 -3.1 6.09e-06 - 1.00e+00 3.91e-03h 9
185r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 5.25e-06 - 1.00e+00 1.00e+00s 35
186r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 7.51e-06 - 0.00e+00 0.00e+00R 1
187r 7.2195605e+08 5.00e+00 8.53e-02 -3.1 7.51e-06 - 1.00e+00 1.56e-02f 7
188r 7.2195605e+08 5.00e+00 8.49e-02 -3.1 6.15e-06 - 1.00e+00 3.91e-03h 9
189r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.53e-06 - 1.00e+00 1.00e+00s 34
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 7.2195605e+08 5.00e+00 8.66e-02 -3.1 6.25e-06 - 0.00e+00 0.00e+00R 1
191r 7.2195605e+08 5.00e+00 8.59e-02 -3.1 6.25e-06 - 1.00e+00 7.81e-03f 8
192r 7.2195605e+08 5.00e+00 8.56e-02 -3.1 6.60e-06 - 1.00e+00 3.91e-03h 9
193r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.78e-06 - 1.00e+00 9.77e-04h 11
194r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 2.44e-04h 13
195r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 2.44e-04h 13
196r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 1.53e-05h 17
197r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 1.22e-04h 14
198r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 3.81e-06h 19
199r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 1.91e-06h 20
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 7.2195605e+08 5.00e+00 8.55e-02 -3.1 5.77e-06 - 1.00e+00 9.54e-07h 21
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 7.2195605492839983e+04 7.2195605492839980e+08
Dual infeasibility......: 9.9999924589760880e+01 9.9999924589760881e+05
Constraint violation....: 4.9999999500000003e+00 4.9999999500000003e+00
Complementarity.........: 7.1554185307518871e-04 7.1554185307518869e+00
Overall NLP error.......: 9.9999924589760880e+01 9.9999924589760881e+05
Number of objective function evaluations = 1209
Number of objective gradient evaluations = 69
Number of equality constraint evaluations = 1218
Number of inequality constraint evaluations = 1218
Number of equality constraint Jacobian evaluations = 224
Number of inequality constraint Jacobian evaluations = 224
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 8.519
Total CPU secs in NLP function evaluations = 632.844
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 455
Realized SOC (MPC) 2609024
Implemented Power (MPC) 455
Realized SOC (MPC) 2609024
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 76700
Number of nonzeros in inequality constraint Jacobian.: 572
Number of nonzeros in Lagrangian Hessian.............: 23760
Total number of variables............................: 29373
variables with only lower bounds: 0
variables with lower and upper bounds: 23997
variables with only upper bounds: 48
Total number of equality constraints.................: 29135
Total number of inequality constraints...............: 336
inequality constraints with only lower bounds: 48
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 288
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 2.1999959e+09 2.53e+06 3.82e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 2.1927079e+09 2.45e+06 4.17e+03 -1.0 5.71e+07 - 3.38e-04 3.43e-02f 1
2 2.1926329e+09 2.45e+06 4.17e+03 -1.0 5.49e+07 - 3.01e-02 3.53e-04f 1
3 2.1925901e+09 2.44e+06 1.22e+04 -1.0 1.19e+08 - 2.99e-02 2.10e-04f 1
4 2.1889400e+09 2.40e+06 1.72e+04 -1.0 1.22e+08 - 3.08e-02 1.75e-02f 1
5 2.1888991e+09 2.40e+06 3.56e+04 -1.0 1.20e+08 - 5.11e-02 2.95e-04f 1
6 2.1891134e+09 2.37e+06 5.47e+04 -1.0 1.20e+08 - 7.38e-02 1.39e-02h 1
7 2.1892724e+09 2.34e+06 7.54e+04 -1.0 1.18e+08 - 8.65e-02 1.01e-02h 1
8 2.1893422e+09 2.34e+06 9.64e+04 -1.0 1.17e+08 - 9.64e-02 3.35e-03h 1
9 2.1913980e+09 2.11e+06 8.79e+04 -1.0 1.17e+08 - 1.03e-01 9.80e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 2.1952266e+09 1.68e+06 3.15e+05 -1.0 1.05e+08 - 2.28e-01 2.03e-01h 1
11 2.1952647e+09 1.67e+06 3.14e+05 -1.0 8.42e+07 - 5.29e-01 2.55e-03h 1
12 2.1952650e+09 1.67e+06 3.14e+05 -1.0 8.40e+07 - 2.23e-03 2.55e-05h 1
13 2.1952654e+09 1.67e+06 3.14e+05 -1.0 8.40e+07 - 1.82e-07 1.82e-05h 1
14 2.1990631e+09 1.38e+06 3.64e+05 -1.0 8.40e+07 - 1.80e-05 1.74e-01h 1
15 2.1991043e+09 1.38e+06 3.64e+05 -1.0 6.96e+07 - 1.75e-01 2.30e-03h 1
16 2.1991105e+09 1.38e+06 3.63e+05 -1.0 7.01e+07 - 6.47e-02 3.44e-04h 1
17 2.2139324e+09 6.14e+05 1.96e+06 -1.0 7.01e+07 - 6.09e-02 8.24e-01h 1
18 2.2168331e+09 2.00e+04 5.05e+04 -1.0 1.27e+07 - 7.94e-01 1.00e+00h 1
19 2.2167442e+09 2.33e+03 5.91e+03 -1.0 1.28e+05 - 9.89e-01 8.83e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 2.2167072e+09 2.31e+02 1.22e+04 -1.0 7.80e+04 - 1.77e-01 9.01e-01f 1
21 2.2166840e+09 3.37e+05 8.66e+02 -1.0 3.45e+06 - 2.45e-02 9.27e-01f 1
22 2.2166821e+09 4.57e+04 2.97e+02 -1.0 2.84e+05 - 9.69e-01 8.57e-01f 1
23 2.2166819e+09 4.47e+01 8.50e-01 -1.0 2.16e+04 - 9.90e-01 1.00e+00f 1
24 2.2166819e+09 5.94e-05 7.59e-03 -1.0 5.20e+04 - 9.91e-01 1.00e+00h 1
25 2.2166819e+09 5.87e-03 6.48e-06 -1.7 2.62e+04 - 1.00e+00 1.00e+00f 1
26 2.2166819e+09 3.61e-04 3.99e-07 -3.8 8.21e+02 - 1.00e+00 1.00e+00f 1
27 2.2166819e+09 1.88e-07 1.52e-08 -5.7 1.33e+03 - 1.00e+00 1.00e+00f 1
In iteration 27, 47 Slacks too small, adjusting variable bounds
28 2.2166819e+09 2.38e-07 1.13e-08 -8.6 1.45e+02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 28
(scaled) (unscaled)
Objective...............: 2.2166819284615989e+09 2.2166819284615989e+09
Dual infeasibility......: 1.1279568256359392e-08 1.1279568256359392e-08
Constraint violation....: 2.5611370801925659e-09 2.3841857910156250e-07
Complementarity.........: 2.7916672749994405e-09 2.7916672749994405e-09
Overall NLP error.......: 2.5611370801925659e-09 2.3841857910156250e-07
Number of objective function evaluations = 29
Number of objective gradient evaluations = 29
Number of equality constraint evaluations = 29
Number of inequality constraint evaluations = 29
Number of equality constraint Jacobian evaluations = 29
Number of inequality constraint Jacobian evaluations = 29
Number of Lagrangian Hessian evaluations = 28
Total CPU secs in IPOPT (w/o function evaluations) = 5.156
Total CPU secs in NLP function evaluations = 158.622
EXIT: Optimal Solution Found.
Pyomo model construction time: 11.45
Pyomo model solve time: 23.68037438392639
Deterministic RUC Cost: 4141771.85
Generator Commitments:
101_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
101_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
101_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
101_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
102_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
102_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
102_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
102_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
107_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
113_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
113_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
115_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
116_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
118_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_STEAM_2 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
123_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
123_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
123_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
201_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
202_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
202_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
202_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
202_STEAM_4 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
207_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
207_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CC_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
213_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
215_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
215_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
216_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
218_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
221_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_2 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_STEAM_3 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
223_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
223_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
223_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
301_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
302_CT_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
307_CT_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
307_CT_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
313_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
315_STEAM_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_3 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_4 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_STEAM_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_7 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
315_CT_8 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
316_STEAM_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
318_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
321_CC_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
322_CT_5 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
322_CT_6 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
323_CC_1 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 | 0 0 0 0 0 0 0 0 0 0 0 0
323_CC_2 : 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 | 0 0 0 0 0 0 0 0 0 0 0 0
114_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
121_NUCLEAR_1 : 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 | 1 1 1 1 1 1 1 1 1 1 1 1
214_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
314_SYNC_COND_1: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 | 0 0 0 0 0 0 0 0 0 0 0 0
Generator Dispatch Levels:
101_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_STEAM_3 : 76.00 76.00 76.00 76.00 76.00 76.00 45.30 45.30 45.30 60.70 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 | 76.00 76.00 76.00 76.00 76.00 76.00 45.30 45.30 45.30 47.01 76.00 76.00
101_STEAM_4 : 76.00 76.00 76.00 76.00 76.00 76.00 45.30 45.30 45.30 50.31 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 76.00 | 76.00 76.00 76.00 76.00 76.00 76.00 45.30 45.30 45.30 45.30 76.00 76.00
102_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_STEAM_3 : 434.68 448.09 447.59 449.17 410.30 350.30 290.30 286.00 286.00 286.00 338.19 353.52 368.19 385.76 429.59 431.18 460.00 460.00 460.00 460.00 458.18 455.58 454.59 449.52 | 449.96 448.15 447.54 449.01 410.30 350.30 290.30 286.00 286.00 286.00 335.49 352.67
102_STEAM_4 : 60.70 45.30 45.30 45.30 45.30 45.30 30.00 38.30 40.00 40.00 45.30 45.30 45.30 45.30 45.30 45.30 55.90 49.15 45.82 56.95 45.30 45.30 45.30 45.30 | 45.30 45.30 45.30 45.30 47.21 45.30 30.00 38.30 40.00 40.00 45.30 45.30
107_CC_1 : 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 231.70 231.70 231.70 239.81 293.30 316.80 329.63 293.30 231.70 231.70 231.70 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
113_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_3 : 124.00 114.77 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00 93.00 124.00 124.00 124.00 124.00 155.00 155.00 155.00 155.00 124.00 124.00 124.00 | 124.00 122.52 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00
116_STEAM_1 : 124.00 124.00 116.81 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00 124.00 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 146.21 155.00 | 124.00 124.00 118.97 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00
118_CC_1 : 231.70 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 231.70 231.70 231.70 231.70 293.30 293.30 293.30 293.30 231.70 231.70 231.70 | 231.70 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
123_STEAM_2 : 124.00 93.00 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00 93.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 124.00 | 124.00 93.00 93.00 93.00 93.00 62.00 62.00 62.00 62.00 62.00 62.00 93.00
123_STEAM_3 : 280.00 280.00 210.00 210.00 210.00 140.00 140.00 140.00 140.00 140.00 140.00 210.00 280.00 280.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 350.00 | 280.00 280.00 210.00 210.00 210.00 140.00 140.00 140.00 140.00 140.00 140.00 210.00
123_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_STEAM_3 : 45.30 45.30 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 45.30 60.70 76.00 76.00 76.00 76.00 76.00 76.00 76.00 60.70 60.70 | 45.30 45.30 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00
202_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_STEAM_3 : 60.70 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 43.23 60.70 60.70 60.70 60.70 60.70 67.16 70.33 76.00 73.03 60.70 60.70 60.70 | 60.70 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 32.28
202_STEAM_4 : 60.70 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 60.70 60.70 60.70 60.70 60.70 60.70 60.70 76.00 60.70 60.70 60.70 60.70 | 60.70 60.70 60.70 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00 30.00
207_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
207_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CC_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
216_STEAM_1 : 124.00 124.00 93.00 93.00 93.00 88.48 62.00 62.00 63.30 67.30 93.00 93.00 123.92 124.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 | 124.00 124.00 93.00 93.00 93.00 79.18 62.00 62.00 63.30 67.30 93.00 93.00
218_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
221_CC_1 : 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 231.70 231.70 293.30 293.30 293.30 293.30 293.30 272.15 231.70 231.70 | 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
223_STEAM_1 : 155.00 155.00 155.00 155.00 150.00 62.00 62.00 62.00 62.00 62.00 93.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 | 155.00 155.00 155.00 155.00 155.00 62.00 62.00 62.00 62.00 62.00 93.00 155.00
223_STEAM_2 : 155.00 155.00 155.00 155.00 154.01 62.00 62.00 62.00 62.00 62.00 93.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 155.00 | 155.00 155.00 155.00 155.00 155.00 62.00 62.00 62.00 62.00 62.00 93.00 155.00
223_STEAM_3 : 243.40 210.00 210.00 210.00 210.00 140.00 140.00 140.00 140.00 140.00 210.00 210.00 210.00 262.59 323.50 350.00 350.00 350.00 350.00 350.00 350.00 350.00 280.00 331.69 | 250.72 210.00 210.00 210.00 210.00 140.00 140.00 140.00 140.00 140.00 210.00 210.00
223_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
313_CC_1 : 231.70 231.70 231.70 231.70 231.70 231.70 206.10 214.10 214.10 231.70 231.70 231.70 231.70 231.70 231.70 231.70 231.70 293.30 293.30 293.30 293.30 231.70 231.70 231.70 | 231.70 231.70 231.70 231.70 231.70 231.70 206.10 214.10 214.10 231.70 231.70 231.70
315_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_7 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_8 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
316_STEAM_1 : 124.00 124.00 124.00 82.70 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00 124.00 124.00 124.00 124.00 124.00 155.00 155.00 155.00 155.00 124.00 124.00 124.00 | 124.00 124.00 124.00 88.96 62.00 62.00 62.00 62.00 62.00 62.00 62.00 62.00
318_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
321_CC_1 : 231.70 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 231.70 231.70 274.67 293.30 293.30 293.30 293.30 293.30 293.30 231.70 231.70 | 231.70 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00 170.00
322_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
322_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 231.70 280.36 293.30 293.30 270.65 231.70 170.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 170.00 220.33 231.70 293.30 293.30 231.70 231.70 170.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
114_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
121_NUCLEAR_1 : 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 | 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00 400.00
214_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
314_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Generator Reserve Headroom:
101_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
101_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 30.70 30.70 30.70 15.30 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 30.70 30.70 30.70 28.99 0.00 0.00
101_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 30.70 30.70 30.70 25.69 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 30.70 30.70 30.70 30.70 0.00 0.00
102_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
102_STEAM_3 : 25.32 11.91 12.41 10.83 49.70 109.70 120.00 64.30 60.00 60.00 7.81 44.67 45.33 42.43 16.17 28.82 0.00 0.00 0.00 0.00 1.82 4.42 5.41 10.48 | 10.04 11.85 12.46 10.99 49.70 109.70 120.00 64.30 60.00 60.00 10.51 42.82
102_STEAM_4 : 15.30 30.70 30.70 30.70 30.70 30.70 46.00 37.70 36.00 36.00 30.70 30.70 30.70 30.70 30.70 30.70 20.10 26.85 30.18 19.05 30.70 30.70 30.70 30.70 | 30.70 30.70 30.70 30.70 28.79 30.70 46.00 37.70 36.00 36.00 30.70 30.70
107_CC_1 : 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 123.30 123.30 123.30 115.19 61.70 38.20 25.37 61.70 123.30 123.30 123.30 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
113_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
113_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
115_STEAM_3 : 31.00 40.23 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00 62.00 31.00 31.00 31.00 31.00 0.00 0.00 0.00 0.00 31.00 31.00 31.00 | 31.00 32.48 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00
116_STEAM_1 : 31.00 31.00 38.19 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00 31.00 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 8.79 0.00 | 31.00 31.00 36.03 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00
118_CC_1 : 123.30 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 123.30 123.30 123.30 123.30 61.70 61.70 61.70 61.70 123.30 123.30 123.30 | 123.30 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
123_STEAM_2 : 31.00 62.00 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00 62.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 31.00 | 31.00 62.00 62.00 62.00 62.00 93.00 93.00 93.00 93.00 93.00 93.00 62.00
123_STEAM_3 : 70.00 70.00 140.00 140.00 140.00 210.00 210.00 210.00 210.00 210.00 210.00 140.00 70.00 70.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 70.00 70.00 140.00 140.00 140.00 210.00 210.00 210.00 210.00 210.00 210.00 140.00
123_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
123_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
201_STEAM_3 : 30.70 30.70 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 30.70 15.30 0.00 0.00 0.00 0.00 0.00 0.00 0.00 15.30 15.30 | 30.70 30.70 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
202_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
202_STEAM_3 : 15.30 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 32.77 15.30 15.30 15.30 15.30 15.30 8.84 5.67 0.00 2.97 15.30 15.30 15.30 | 15.30 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 43.72
202_STEAM_4 : 15.30 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 15.30 15.30 15.30 15.30 15.30 15.30 15.30 0.00 15.30 15.30 15.30 15.30 | 15.30 15.30 15.30 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
207_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
207_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CC_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
213_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
215_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
216_STEAM_1 : 31.00 31.00 62.00 62.00 62.00 66.52 93.00 93.00 91.70 87.70 62.00 62.00 31.08 31.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 31.00 31.00 62.00 62.00 62.00 75.82 93.00 93.00 91.70 87.70 62.00 62.00
218_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
221_CC_1 : 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 123.30 123.30 61.70 61.70 61.70 61.70 61.70 82.85 123.30 123.30 | 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
223_STEAM_1 : 0.00 0.00 0.00 0.00 5.00 93.00 93.00 93.00 93.00 93.00 62.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 93.00 93.00 93.00 93.00 93.00 62.00 0.00
223_STEAM_2 : 0.00 0.00 0.00 0.00 0.99 93.00 93.00 93.00 93.00 93.00 62.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 93.00 93.00 93.00 93.00 93.00 62.00 0.00
223_STEAM_3 : 106.60 140.00 140.00 140.00 140.00 210.00 210.00 210.00 210.00 210.00 140.00 140.00 140.00 87.41 26.50 0.00 0.00 0.00 0.00 0.00 0.00 0.00 70.00 18.31 | 99.28 140.00 140.00 140.00 140.00 210.00 210.00 210.00 210.00 210.00 140.00 140.00
223_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
223_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
301_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
302_CT_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
307_CT_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
313_CC_1 : 123.30 123.30 123.30 123.30 123.30 123.30 148.90 140.90 140.90 123.30 123.30 123.30 123.30 123.30 123.30 123.30 123.30 61.70 61.70 61.70 61.70 123.30 123.30 123.30 | 123.30 123.30 123.30 123.30 123.30 123.30 148.90 140.90 140.90 123.30 123.30 123.30
315_STEAM_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_3 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_4 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_STEAM_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_7 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
315_CT_8 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
316_STEAM_1 : 31.00 31.00 31.00 72.30 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00 31.00 31.00 31.00 31.00 31.00 0.00 0.00 0.00 0.00 31.00 31.00 31.00 | 31.00 31.00 31.00 66.04 93.00 93.00 93.00 93.00 93.00 93.00 93.00 93.00
318_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
321_CC_1 : 123.30 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 123.30 123.30 80.33 61.70 61.70 61.70 61.70 61.70 61.70 123.30 123.30 | 123.30 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00 185.00
322_CT_5 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
322_CT_6 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 123.30 74.64 61.70 61.70 84.35 123.30 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
323_CC_2 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 134.67 123.30 61.70 61.70 123.30 123.30 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
114_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
121_NUCLEAR_1 : 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
214_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
314_SYNC_COND_1: 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 | 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
Total : 1173.42 1372.43 1518.20 1643.13 1708.69 2186.22 2325.30 2253.30 2246.00 2203.99 1947.81 1684.44 1443.02 1125.04 828.77 756.65 886.87 588.43 490.55 445.61 597.94 919.77 870.30 814.89 | 1166.22 1364.63 1516.10 1637.03 1700.79 2195.52 2325.30 2253.30 2246.00 2222.69 1950.51 1693.54
Fixed costs: 2957615.15
Variable costs: 1184156.70
Renewables curtailment summary (time-period, aggregate_quantity):
2020-07-11 06:00 179.34
2020-07-11 07:00 255.22
2020-07-11 08:00 190.51
2020-07-12 06:00 180.44
2020-07-12 07:00 259.72
2020-07-12 08:00 209.41
Solving day-ahead market
Computing day-ahead prices using method LMP.
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16008
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6077
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.9287229e+08 3.08e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.9286219e+08 3.08e+05 9.95e+01 -1.0 1.29e+07 - 2.46e-04 5.51e-04h 1
2 6.9292913e+08 3.07e+05 1.03e+02 -1.0 5.26e+06 - 6.31e-06 3.00e-03h 1
3 6.9305932e+08 3.06e+05 1.03e+02 -1.0 4.66e+05 - 2.07e-03 2.97e-03h 1
4 6.9342773e+08 3.04e+05 1.03e+02 -1.0 4.60e+05 - 6.36e-03 7.30e-03h 1
5 6.9421020e+08 2.99e+05 1.01e+02 -1.0 4.48e+05 - 1.72e-02 1.48e-02h 1
6 7.0124673e+08 2.59e+05 1.02e+02 -1.0 4.26e+05 - 5.92e-02 1.34e-01h 1
7 7.0686661e+08 2.27e+05 7.34e+01 -1.0 3.32e+05 - 2.09e-01 1.24e-01h 1
8 7.2001625e+08 1.52e+05 5.26e+01 -1.0 2.69e+05 - 3.07e-01 3.32e-01h 1
9 7.2016774e+08 1.51e+05 7.21e+02 -1.0 1.73e+05 - 5.53e-01 5.78e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3040443e+08 8.99e+04 1.31e+03 -1.0 3.66e+05 - 5.82e-01 4.04e-01h 1
11 7.3156350e+08 8.17e+04 7.26e+02 -1.0 7.43e+05 - 8.23e-01 9.08e-02h 1
12 7.3137956e+08 7.53e+04 1.12e+03 -1.0 3.97e+06 - 5.32e-01 7.80e-02h 1
13 7.3028406e+08 7.00e+04 1.77e+03 -1.0 8.43e+06 - 9.12e-01 7.02e-02f 1
14 7.2642501e+08 6.86e+04 1.73e+03 -1.0 8.28e+07 - 3.38e-02 2.03e-02f 1
15 7.2357847e+08 6.74e+04 1.73e+03 -1.0 8.49e+07 - 2.01e-01 1.82e-02f 1
16 7.2062058e+08 6.60e+04 1.70e+03 -1.0 7.86e+07 - 7.09e-02 1.98e-02f 1
17 7.1835096e+08 6.44e+04 1.67e+03 -1.0 8.55e+07 - 1.73e-01 2.53e-02f 1
18 7.1802994e+08 6.34e+04 1.65e+03 -1.0 2.54e+07 - 8.27e-02 1.57e-02f 1
19 7.1843312e+08 5.67e+04 1.48e+03 -1.0 1.80e+07 - 1.30e-01 1.05e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.9715074e+08 3.82e+05 5.87e+02 -1.0 7.35e+07 - 3.27e-03 6.02e-01f 1
21 6.9632801e+08 3.78e+05 5.56e+02 -1.0 1.43e+08 - 3.12e-01 1.07e-02f 1
22 6.9631077e+08 3.77e+05 5.89e+02 -1.0 2.95e+07 - 5.21e-01 2.59e-03h 1
23 6.8800594e+08 8.70e+05 9.47e+01 -1.0 6.18e+07 - 9.65e-01 1.00e+00f 1
24 6.8438370e+08 9.34e+05 9.24e+01 -1.0 5.90e+08 - 8.69e-02 3.45e-02f 1
25 6.8431097e+08 9.33e+05 9.23e+01 -1.0 3.77e+08 - 1.43e-01 1.21e-03f 1
26 6.8262644e+08 8.68e+05 8.67e+01 -1.0 1.30e+08 - 2.49e-01 6.01e-02f 1
27 6.8214271e+08 8.34e+05 8.36e+01 -1.0 4.25e+07 - 6.58e-02 3.59e-02f 1
28 6.8088721e+08 7.17e+05 7.40e+01 -1.0 4.22e+07 - 7.54e-02 1.15e-01f 1
29 6.8080449e+08 7.14e+05 7.32e+01 -1.0 3.95e+07 - 9.35e-02 1.09e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.7977591e+08 1.33e+06 6.38e+01 -1.0 4.25e+07 - 1.44e-01 1.29e-01f 1
31 6.7670728e+08 7.96e+06 4.23e+01 -1.0 6.53e+07 - 2.26e-01 3.38e-01f 1
32 6.7656730e+08 7.90e+06 4.17e+01 -1.0 1.26e+08 - 3.95e-01 1.32e-02f 1
33 6.7624553e+08 7.84e+06 4.01e+01 -1.0 9.41e+07 - 6.63e-01 3.96e-02f 1
34 6.7624388e+08 7.24e+06 1.53e+03 -1.0 5.59e+04 -4.0 8.04e-02 7.64e-02h 1
35 6.7624369e+08 7.18e+06 1.56e+03 -1.0 5.51e+06 - 7.16e-03 8.69e-03h 1
36 6.7624512e+08 6.96e+06 1.82e+03 -1.0 6.98e+06 - 4.46e-02 2.96e-02h 1
37 6.7628332e+08 6.18e+06 4.20e+03 -1.0 2.52e+06 - 4.33e-02 1.12e-01h 1
38 6.7628336e+08 6.16e+06 4.78e+03 -1.0 4.40e+04 -4.5 1.77e-01 3.98e-03h 1
39 6.7628359e+08 6.11e+06 4.87e+05 -1.0 4.39e+04 -5.0 6.74e-01 7.47e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.7628429e+08 5.99e+06 4.63e+05 -1.0 4.56e+04 -5.4 9.02e-02 1.97e-02h 1
41 6.7630617e+08 2.34e+06 1.12e+05 -1.0 4.53e+04 -5.9 7.94e-01 6.09e-01h 1
42 6.7631987e+08 4.14e+02 4.32e+04 -1.0 1.77e+04 -6.4 7.39e-01 1.00e+00h 1
43 6.7626108e+08 9.43e+02 1.26e+04 -1.0 6.00e+06 - 9.89e-01 2.01e-02f 1
44 6.7608340e+08 6.35e+04 3.67e+03 -1.0 1.44e+06 - 1.00e+00 7.21e-01f 1
45 6.7598596e+08 6.42e+04 2.87e+03 -1.0 5.31e+06 - 7.39e-01 2.18e-01f 1
46 6.7552329e+08 1.58e+06 4.26e+03 -1.0 7.57e+06 - 1.00e+00 1.00e+00f 1
47 6.7552327e+08 2.06e+02 1.71e+00 -1.0 2.75e+03 -6.9 1.00e+00 1.00e+00h 1
48 6.7540619e+08 1.16e+05 2.58e+01 -1.7 4.20e+07 - 6.15e-01 5.50e-02f 1
49 6.7401966e+08 1.31e+07 3.45e+03 -1.7 2.85e+07 - 1.00e+00 7.99e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.7265742e+08 2.01e+07 3.21e+03 -1.7 2.73e+08 - 4.14e-01 8.35e-02f 1
51 6.7265778e+08 1.72e+07 2.75e+03 -1.7 5.43e+04 -7.3 1.54e-01 1.44e-01h 1
52 6.7264333e+08 1.70e+07 2.73e+03 -1.7 2.66e+07 - 1.00e+00 8.64e-03h 1
53 6.7263215e+08 8.56e+06 1.38e+03 -1.7 4.23e+06 - 1.00e+00 4.92e-01h 1
54 6.7263192e+08 8.50e+06 1.37e+03 -1.7 8.32e+06 - 5.53e-02 7.38e-03h 1
55 6.7268868e+08 1.07e+06 1.09e+02 -1.7 7.42e+06 - 3.61e-03 1.00e+00h 1
56 6.7268872e+08 1.06e+06 1.08e+02 -1.7 2.16e+04 -7.8 6.68e-02 7.86e-03h 1
57 6.7268895e+08 1.05e+06 1.06e+03 -1.7 4.50e+05 -8.3 9.05e-02 1.09e-02h 1
58 6.7269773e+08 8.47e+05 8.23e+02 -1.7 4.47e+05 -8.8 1.87e-01 1.94e-01h 1
59 6.7269607e+08 8.37e+05 9.49e+02 -1.7 1.08e+07 - 9.91e-01 1.11e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.7270335e+08 5.99e+05 5.56e+02 -1.7 3.53e+05 -9.2 3.94e-01 2.82e-01h 1
61 6.7272138e+08 1.48e+04 1.60e+01 -1.7 2.47e+05 -9.7 1.00e+00 1.00e+00h 1
62 6.7271544e+08 7.77e+03 1.25e+02 -1.7 2.08e+04 -10.2 1.00e+00 4.73e-01h 1
63 6.7271212e+08 2.00e+03 3.30e+01 -1.7 1.30e+04 -10.7 1.00e+00 7.42e-01f 1
64 6.7271377e+08 1.03e+01 1.08e-02 -1.7 1.84e+04 -11.2 1.00e+00 1.00e+00f 1
65 6.7270640e+08 4.99e+01 1.40e+00 -3.8 4.99e+04 -11.6 1.00e+00 8.26e-01f 1
66 6.7270509e+08 1.64e+02 6.38e-01 -3.8 1.63e+05 -12.1 1.00e+00 5.43e-01h 1
67 6.7270234e+08 4.88e+03 2.37e-03 -3.8 5.07e+05 -12.6 1.00e+00 1.00e+00h 1
68 6.7269597e+08 4.47e+04 4.43e-03 -3.8 1.53e+06 -13.1 1.00e+00 1.00e+00h 1
69 6.7267610e+08 4.18e+05 4.05e-02 -3.8 4.74e+06 -13.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.7263979e+08 1.47e+06 1.47e-01 -3.8 1.55e+07 -14.0 1.00e+00 5.41e-01h 1
71 6.7263978e+08 1.47e+06 2.53e-01 -3.8 1.16e+07 -14.5 7.88e-01 1.86e-04h 1
72 6.7260165e+08 8.31e+06 1.65e+00 -3.8 9.63e+07 -15.0 6.86e-02 3.11e-01h 1
73 6.7255218e+08 7.08e+06 8.76e-01 -3.8 2.39e+07 -14.5 1.00e+00 8.56e-01h 1
74 6.7253084e+08 7.86e+06 1.02e+00 -3.8 3.05e+08 -15.0 2.65e-01 3.18e-02h 1
75 6.7250830e+08 6.98e+06 9.12e-01 -3.8 3.48e+07 -14.6 1.00e+00 2.58e-01h 1
76 6.7249428e+08 6.94e+06 1.03e+00 -3.8 5.99e+08 -15.1 1.41e-01 9.43e-03h 1
77 6.7249335e+08 6.56e+06 9.04e-01 -3.8 9.37e+06 -14.7 1.00e+00 5.41e-02h 1
78 6.7248991e+08 5.68e+06 7.81e-01 -3.8 2.08e+07 -15.1 1.00e+00 1.35e-01h 1
79 6.7248270e+08 4.82e+06 6.73e-01 -3.8 6.06e+07 -15.6 1.34e-01 1.51e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.7248270e+08 4.82e+06 6.73e-01 -3.8 1.93e+08 - 1.97e-04 1.80e-05h 1
81 6.7248295e+08 4.79e+06 6.69e-01 -3.8 7.27e+07 -16.1 5.03e-02 5.96e-03h 1
82 6.7248221e+08 4.45e+06 6.22e-01 -3.8 7.12e+06 - 3.46e-01 7.10e-02h 1
83 6.7247979e+08 2.50e+06 1.97e+00 -3.8 8.61e+05 - 6.79e-02 4.36e-01h 1
84 6.7247790e+08 9.13e+05 7.99e-01 -3.8 2.50e+05 - 1.00e+00 6.31e-01h 1
85 6.7247730e+08 3.96e+05 3.56e-01 -3.8 5.38e+04 - 1.00e+00 5.66e-01h 1
86 6.7247684e+08 5.55e+02 6.04e-03 -3.8 2.32e+04 - 1.00e+00 1.00e+00h 1
87 6.7247684e+08 3.00e-03 8.40e-08 -3.8 7.88e+01 - 1.00e+00 1.00e+00h 1
88 6.7247677e+08 1.61e+00 8.36e-07 -5.7 9.13e+03 - 1.00e+00 1.00e+00f 1
89 6.7247677e+08 9.54e-07 1.85e-11 -5.7 4.26e+00 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90 6.7247677e+08 2.50e-04 1.29e-10 -8.6 1.13e+02 - 1.00e+00 1.00e+00h 1
91 6.7247677e+08 1.19e-06 2.28e-12 -8.6 6.58e-04 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 91
(scaled) (unscaled)
Objective...............: 6.7247676728485385e+04 6.7247676728485382e+08
Dual infeasibility......: 2.2833481410314619e-12 2.2833481410314619e-08
Constraint violation....: 3.7252902984619141e-09 1.1920928955078125e-06
Complementarity.........: 2.5062278605500618e-09 2.5062278605500617e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5062278605500617e-05
Number of objective function evaluations = 92
Number of objective gradient evaluations = 92
Number of equality constraint evaluations = 92
Number of inequality constraint evaluations = 92
Number of equality constraint Jacobian evaluations = 92
Number of inequality constraint Jacobian evaluations = 92
Number of Lagrangian Hessian evaluations = 91
Total CPU secs in IPOPT (w/o function evaluations) = 4.157
Total CPU secs in NLP function evaluations = 125.601
EXIT: Optimal Solution Found.
Implemented Power (MPC) 402
Realized SOC (MPC) 1431366
Fixed costs: 88758.93
Variable costs: 31779.07
Number on/offs: 1
Sum on/off ramps: 170.00
Sum nominal ramps: 173.58
Simulating time_step 2020-07-10 17:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16004
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6076
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.7267677e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.7266845e+08 1.00e+05 9.90e+01 -1.0 1.16e+06 - 5.09e-04 4.64e-04h 1
2 6.7276253e+08 9.96e+04 9.96e+01 -1.0 1.73e+05 - 5.99e-04 3.24e-03h 1
3 6.7295542e+08 9.92e+04 9.94e+01 -1.0 2.02e+05 - 3.76e-03 4.28e-03h 1
4 6.7347375e+08 9.82e+04 9.86e+01 -1.0 1.12e+05 - 8.96e-03 9.82e-03h 1
5 6.7577700e+08 9.41e+04 9.88e+01 -1.0 1.11e+05 - 2.21e-02 4.25e-02h 1
6 6.8003782e+08 8.64e+04 8.55e+01 -1.0 1.09e+05 - 3.34e-01 8.17e-02h 1
7 7.1906347e+08 1.57e+04 9.36e+01 -1.0 1.29e+05 - 1.81e-01 8.19e-01h 1
8 7.2439593e+08 5.52e+03 5.87e+00 -1.0 1.28e+05 - 9.88e-01 6.48e-01h 1
9 7.2312223e+08 5.29e+03 2.93e+01 -1.0 9.31e+06 - 6.04e-02 4.16e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.2261700e+08 5.19e+03 2.03e+02 -1.0 1.14e+07 - 1.65e-01 1.81e-02f 1
11 7.1845030e+08 4.41e+03 2.32e+02 -1.0 1.36e+07 - 2.11e-01 1.50e-01f 1
12 7.1833262e+08 4.40e+03 9.14e+02 -1.0 1.71e+07 - 8.97e-01 4.18e-03f 1
13 7.1249503e+08 4.29e+03 8.91e+02 -1.0 1.30e+08 - 2.48e-02 2.54e-02f 1
14 7.1161817e+08 4.40e+03 7.11e+02 -1.0 1.12e+08 - 4.14e-01 6.33e-03f 1
15 6.9794710e+08 1.06e+05 6.54e+02 -1.0 2.41e+08 - 6.05e-02 9.92e-02f 1
16 6.8108956e+08 2.58e+05 5.33e+02 -1.0 2.74e+08 - 2.74e-01 1.11e-01f 1
17 6.8091841e+08 2.57e+05 4.69e+02 -1.0 3.06e+08 - 1.97e-01 9.93e-04f 1
18 6.7918062e+08 2.13e+05 2.70e+02 -1.0 5.38e+07 - 3.08e-01 1.71e-01f 1
19 6.7102447e+08 4.44e+05 3.15e+02 -1.0 7.58e+07 - 2.20e-01 5.36e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.7092342e+08 4.42e+05 1.71e+02 -1.0 9.05e+07 - 3.08e-01 5.39e-03f 1
21 6.6600869e+08 6.25e+05 7.61e+01 -1.0 1.25e+08 - 8.83e-01 2.55e-01f 1
22 6.6584870e+08 6.23e+05 7.86e+01 -1.0 4.16e+08 - 7.28e-02 3.01e-03f 1
23 6.6511865e+08 6.13e+05 7.71e+01 -1.0 4.08e+08 - 1.44e-03 1.58e-02f 1
24 6.6509473e+08 6.12e+05 7.65e+01 -1.0 4.94e+07 - 2.56e-01 1.30e-03h 1
25 6.6371294e+08 7.62e+05 6.76e+01 -1.0 5.78e+07 - 1.78e-02 9.27e-02f 1
26 6.6356031e+08 7.52e+05 6.67e+01 -1.0 4.13e+07 - 9.87e-02 1.30e-02f 1
27 6.6169677e+08 2.47e+06 5.64e+01 -1.0 4.16e+07 - 9.99e-02 1.50e-01f 1
28 6.6159579e+08 2.45e+06 5.58e+01 -1.0 4.59e+07 - 1.85e-01 9.93e-03f 1
29 6.5974383e+08 5.37e+06 4.57e+01 -1.0 4.93e+07 - 7.01e-02 1.71e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.5866399e+08 5.91e+06 4.14e+01 -1.0 5.83e+07 - 3.73e-01 9.13e-02f 1
31 6.5682308e+08 7.59e+06 3.62e+01 -1.0 7.48e+07 - 2.21e-01 1.17e-01f 1
32 6.5675160e+08 7.53e+06 3.60e+01 -1.0 7.46e+07 - 4.99e-01 7.07e-03f 1
33 6.5584909e+08 6.94e+06 3.31e+01 -1.0 1.02e+08 - 1.56e-01 7.90e-02f 1
34 6.5515462e+08 7.30e+06 3.68e+01 -1.0 9.99e+07 - 5.30e-01 1.12e-01f 1
35 6.5191985e+08 4.79e+07 1.15e+01 -1.0 8.26e+07 - 5.82e-01 6.58e-01f 1
36 6.5096349e+08 2.38e+07 2.34e+00 -1.0 2.01e+07 - 7.51e-01 7.80e-01h 1
37 6.5097081e+08 1.97e+07 1.10e+04 -1.0 1.01e+05 -4.0 6.10e-02 1.73e-01h 1
38 6.5097089e+08 1.96e+07 1.10e+04 -1.0 8.35e+04 -4.5 2.85e-01 1.78e-03h 1
39 6.5097089e+08 1.96e+07 1.87e+06 -1.0 8.37e+04 -5.0 6.89e-01 1.93e-05h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.5097400e+08 1.92e+07 3.06e+06 -1.0 7.99e+05 -5.4 1.47e-01 2.08e-02h 1
41 6.5098070e+08 1.85e+07 3.17e+06 -1.0 8.04e+05 -5.9 3.79e-01 3.76e-02h 1
42 6.5098340e+08 1.83e+07 2.98e+06 -1.0 8.08e+05 -6.4 8.63e-02 1.31e-02h 1
43 6.5104610e+08 1.26e+07 2.02e+06 -1.0 8.09e+05 -6.9 3.23e-01 3.02e-01h 1
44 6.5104873e+08 1.25e+07 1.29e+06 -1.0 8.17e+05 -7.3 3.32e-01 1.29e-02h 1
45 6.5115699e+08 5.78e+06 1.51e+05 -1.0 8.13e+05 -7.8 1.00e+00 5.16e-01h 1
46 6.5119527e+08 4.21e+06 1.46e+05 -1.0 6.53e+05 -8.3 6.27e-01 2.69e-01h 1
47 6.5127572e+08 1.60e+05 2.67e+04 -1.0 5.26e+05 -8.8 1.00e+00 1.00e+00h 1
48 6.5113425e+08 1.58e+05 2.62e+04 -1.0 5.72e+07 - 2.17e-01 1.67e-02f 1
49 6.5111820e+08 7.89e+04 1.32e+04 -1.0 6.27e+04 -9.2 1.00e+00 4.98e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.5105979e+08 7.03e+04 1.17e+04 -1.0 6.24e+06 - 1.00e+00 1.09e-01f 1
51 6.5105403e+08 2.45e+05 2.39e+02 -1.0 3.41e+06 - 4.23e-01 1.00e+00f 1
52 6.5105418e+08 4.60e+01 1.08e-03 -1.0 3.34e+03 -9.7 1.00e+00 1.00e+00h 1
53 6.5102375e+08 6.97e+00 5.84e+00 -2.5 2.31e+04 -10.2 1.00e+00 8.56e-01f 1
54 6.5101441e+08 1.22e+01 1.44e+00 -2.5 2.88e+04 -10.7 1.00e+00 7.55e-01f 1
55 6.5101194e+08 6.58e+01 2.04e-02 -2.5 4.67e+04 -11.2 1.00e+00 1.00e+00h 1
56 6.5101059e+08 1.03e+02 7.14e-01 -3.8 1.23e+05 -11.6 1.00e+00 3.63e-01h 1
57 6.5100980e+08 1.41e+02 5.91e-01 -3.8 2.90e+05 -12.1 1.00e+00 1.70e-01h 1
58 6.5100781e+08 2.27e+03 4.82e-01 -3.8 6.96e+05 -12.6 1.00e+00 3.94e-01h 1
59 6.5100473e+08 2.54e+04 3.17e-02 -3.8 9.88e+05 -13.1 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.5100059e+08 6.48e+04 1.52e-02 -3.8 3.03e+06 -13.5 1.00e+00 4.52e-01h 1
61 6.5099929e+08 6.80e+04 3.46e-01 -3.8 8.86e+06 -14.0 1.00e+00 5.40e-02h 1
62 6.5099681e+08 2.68e+05 7.39e-02 -3.8 5.41e+06 -14.5 1.00e+00 9.72e-01h 1
63 6.5098964e+08 1.63e+06 3.70e-01 -3.8 4.36e+07 -15.0 1.00e+00 2.80e-01h 1
64 6.5098948e+08 1.54e+06 3.48e-01 -3.8 2.36e+06 -14.5 1.00e+00 5.94e-02h 1
65 6.5098378e+08 3.80e+06 8.82e-01 -3.8 2.00e+07 -15.0 1.00e+00 1.00e+00h 1
66 6.5097079e+08 1.48e+06 1.96e-01 -3.8 1.04e+07 -14.6 1.00e+00 1.00e+00h 1
67 6.5094611e+08 7.05e+06 1.27e+00 -3.8 2.14e+08 -15.1 3.25e-01 1.13e-01h 1
68 6.5094607e+08 7.04e+06 1.27e+00 -3.8 2.20e+07 -14.7 1.00e+00 1.14e-03h 1
69 6.5091093e+08 1.19e+07 2.34e+00 -3.8 1.01e+09 -15.1 8.35e-02 2.43e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.5091089e+08 1.19e+07 2.37e+00 -3.8 2.66e+08 -15.6 3.78e-01 8.21e-05h 1
71 6.5088811e+08 1.13e+07 2.77e+00 -3.8 1.05e+09 -16.1 1.51e-05 1.37e-02h 1
72 6.5088808e+08 1.13e+07 2.77e+00 -3.8 1.95e+07 - 1.94e-03 8.00e-04h 1
73 6.5088471e+08 9.44e+06 2.35e+00 -3.8 4.78e+06 -14.8 1.75e-01 1.50e-01h 1
74 6.5088201e+08 8.07e+06 2.00e+00 -3.8 4.68e+06 - 1.35e-01 1.51e-01h 1
75 6.5087730e+08 5.66e+06 1.41e+00 -3.8 7.43e+05 - 4.72e-02 2.94e-01h 1
76 6.5087691e+08 5.50e+06 1.37e+00 -3.8 1.55e+07 - 1.27e-01 2.68e-02h 1
77 6.5086604e+08 5.82e+04 9.62e-03 -3.8 4.88e+05 - 1.00e+00 1.00e+00h 1
78 6.5086603e+08 3.13e+02 1.51e-06 -3.8 1.22e+04 - 1.00e+00 1.00e+00h 1
79 6.5086603e+08 6.51e-03 2.16e-09 -3.8 1.37e+02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.5086596e+08 9.19e-01 6.82e-04 -5.7 5.50e+03 - 9.89e-01 1.00e+00f 1
81 6.5086596e+08 1.97e-03 1.88e-10 -5.7 2.56e+02 - 1.00e+00 1.00e+00h 1
82 6.5086596e+08 1.65e-04 4.44e-11 -8.6 7.37e+01 - 1.00e+00 1.00e+00h 1
83 6.5086596e+08 7.15e-07 1.37e-12 -8.6 3.96e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 83
(scaled) (unscaled)
Objective...............: 6.5086595548498255e+04 6.5086595548498249e+08
Dual infeasibility......: 1.3738551858570145e-12 1.3738551858570145e-08
Constraint violation....: 2.5611370801925659e-09 7.1525573730468750e-07
Complementarity.........: 2.5065900883137869e-09 2.5065900883137869e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5065900883137869e-05
Number of objective function evaluations = 84
Number of objective gradient evaluations = 84
Number of equality constraint evaluations = 84
Number of inequality constraint evaluations = 84
Number of equality constraint Jacobian evaluations = 84
Number of inequality constraint Jacobian evaluations = 84
Number of Lagrangian Hessian evaluations = 83
Total CPU secs in IPOPT (w/o function evaluations) = 4.990
Total CPU secs in NLP function evaluations = 118.939
EXIT: Optimal Solution Found.
Implemented Power (MPC) 444
Realized SOC (MPC) 1136248
Fixed costs: 60712.24
Variable costs: 38035.81
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 254.80
Simulating time_step 2020-07-10 18:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16000
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6075
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.5106596e+08 2.95e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.5104581e+08 2.95e+05 9.91e+01 -1.0 4.61e+05 - 1.43e-03 1.12e-03h 1
2 6.5107944e+08 2.94e+05 9.88e+01 -1.0 3.55e+05 - 2.88e-03 3.82e-03h 1
3 6.5124083e+08 2.92e+05 9.86e+01 -1.0 3.55e+05 - 5.28e-03 7.19e-03h 1
4 6.5159974e+08 2.88e+05 9.73e+01 -1.0 3.54e+05 - 1.34e-02 1.34e-02h 1
5 6.5356305e+08 2.67e+05 9.80e+01 -1.0 3.54e+05 - 3.45e-02 7.17e-02h 1
6 6.5459367e+08 2.56e+05 8.62e+01 -1.0 3.79e+05 - 3.96e-01 4.02e-02h 1
7 6.5483375e+08 2.54e+05 8.54e+01 -1.0 9.06e+06 - 4.02e-02 9.08e-03h 1
8 6.5494210e+08 2.53e+05 2.54e+02 -1.0 9.46e+06 - 8.01e-02 4.12e-03h 1
9 6.5495002e+08 2.53e+05 1.16e+05 -1.0 1.22e+07 - 1.32e-01 3.05e-04h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.5875564e+08 2.16e+05 2.13e+04 -1.0 1.28e+07 - 4.50e-02 1.48e-01h 1
11 6.6510387e+08 2.45e+05 1.44e+05 -1.0 1.11e+07 - 5.87e-04 2.91e-01h 1
12 6.6524308e+08 2.43e+05 1.42e+05 -1.0 1.01e+07 - 8.41e-04 8.30e-03h 1
13 6.6535025e+08 2.41e+05 2.31e+05 -1.0 1.19e+07 - 6.03e-01 6.21e-03h 1
14 6.7700137e+08 1.57e+06 2.61e+04 -1.0 1.24e+07 - 6.73e-02 7.19e-01h 1
15 6.7889573e+08 7.77e+05 1.11e+04 -1.0 3.13e+06 - 5.36e-01 5.48e-01h 1
16 6.7889114e+08 7.61e+05 3.05e+04 -1.0 1.38e+06 - 7.79e-01 2.11e-02h 1
17 6.7784987e+08 6.31e+05 2.96e+04 -1.0 4.33e+06 - 9.33e-01 1.73e-01f 1
18 6.7624088e+08 6.21e+05 2.91e+04 -1.0 5.58e+07 - 2.83e-02 1.62e-02f 1
19 6.7461814e+08 6.08e+05 2.85e+04 -1.0 5.89e+07 - 9.71e-02 2.05e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.7070415e+08 5.80e+05 2.73e+04 -1.0 6.37e+07 - 1.15e-01 4.58e-02f 1
21 6.7049070e+08 5.77e+05 2.72e+04 -1.0 5.58e+07 - 3.46e-01 5.11e-03f 1
22 6.7010344e+08 5.29e+05 2.50e+04 -1.0 1.19e+07 - 3.96e-01 8.40e-02h 1
23 6.6819610e+08 1.90e+05 8.92e+03 -1.0 2.09e+07 - 9.55e-02 6.41e-01f 1
24 6.6382684e+08 1.18e+05 1.42e+02 -1.0 2.17e+07 - 7.00e-01 1.00e+00f 1
25 6.5787029e+08 2.56e+05 8.88e+01 -1.0 6.82e+07 - 4.42e-01 3.90e-01f 1
26 6.5778824e+08 2.55e+05 8.85e+01 -1.0 1.13e+08 - 2.34e-01 3.59e-03f 1
27 6.5246967e+08 5.12e+05 7.13e+01 -1.0 1.42e+08 - 2.67e-01 2.39e-01f 1
28 6.5239720e+08 5.10e+05 7.11e+01 -1.0 1.56e+08 - 2.54e-01 3.16e-03f 1
29 6.5203167e+08 4.98e+05 6.94e+01 -1.0 1.55e+08 - 1.43e-01 2.35e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.5188043e+08 4.72e+05 6.58e+01 -1.0 1.27e+07 - 5.72e-01 5.14e-02h 1
31 6.5066901e+08 1.81e+06 4.81e+01 -1.0 3.09e+07 - 2.11e-01 2.69e-01f 1
32 6.4780601e+08 8.43e+06 2.32e+01 -1.0 3.82e+07 - 6.13e-01 5.14e-01f 1
33 6.4558695e+08 9.61e+06 1.93e+01 -1.0 8.84e+07 - 1.84e-01 1.70e-01f 1
34 6.4546710e+08 9.53e+06 1.91e+01 -1.0 8.39e+07 - 3.71e-01 8.67e-03f 1
35 6.3974644e+08 4.20e+07 1.44e+01 -1.0 1.24e+08 - 2.83e-02 2.75e-01f 1
36 6.3963490e+08 4.17e+07 1.43e+01 -1.0 9.72e+07 - 1.13e-01 6.90e-03f 1
37 6.3848360e+08 3.96e+07 1.33e+01 -1.0 9.79e+07 - 1.83e-01 6.96e-02f 1
38 6.3809795e+08 3.85e+07 1.29e+01 -1.0 9.32e+07 - 5.05e-01 2.98e-02f 1
39 6.3287105e+08 5.03e+07 1.03e+01 -1.0 9.34e+07 - 6.63e-01 4.08e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.3281162e+08 4.98e+07 1.25e+01 -1.0 5.30e+07 - 4.75e-01 9.22e-03h 1
41 6.3149462e+08 2.33e+07 1.01e+01 -1.0 7.58e+07 - 1.11e-01 5.26e-01h 1
42 6.3077401e+08 1.92e+07 9.04e+00 -1.0 4.74e+07 - 1.64e-02 2.02e-01f 1
43 6.3076234e+08 1.90e+07 2.81e+01 -1.0 4.11e+07 - 8.13e-01 8.01e-03h 1
44 6.3077377e+08 1.79e+07 4.16e+04 -1.0 6.67e+05 -4.0 8.68e-03 5.71e-02h 1
45 6.3077389e+08 1.79e+07 4.16e+04 -1.0 6.29e+05 -4.5 8.89e-02 6.15e-04h 1
46 6.3077495e+08 1.78e+07 6.47e+04 -1.0 6.15e+05 -5.0 5.60e-02 4.81e-03h 1
47 6.3080534e+08 1.54e+07 7.70e+04 -1.0 6.12e+05 -5.4 1.99e-01 1.34e-01h 1
48 6.3080576e+08 1.54e+07 7.21e+04 -1.0 5.29e+05 -5.9 2.27e-01 2.12e-03h 1
49 6.3100542e+08 8.94e+04 5.59e+05 -1.0 5.26e+05 -6.4 8.36e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.3100405e+08 5.88e+01 5.75e+02 -1.0 1.59e+03 -6.9 9.89e-01 1.00e+00h 1
51 6.3100164e+08 1.75e-03 4.57e-02 -1.0 7.27e+02 -7.3 1.00e+00 1.00e+00f 1
52 6.3050346e+08 1.79e+06 5.89e+00 -2.5 5.10e+08 - 6.72e-02 1.17e-02f 1
53 6.3045940e+08 1.75e+06 6.68e+01 -2.5 2.31e+07 - 8.25e-01 2.18e-02f 1
54 6.3025510e+08 3.73e+06 5.85e+01 -2.5 2.35e+07 - 7.30e-01 7.66e-01f 1
55 6.3014490e+08 7.47e+06 5.06e+01 -2.5 1.16e+08 - 1.48e-01 1.86e-01h 1
56 6.3011773e+08 7.07e+06 4.87e+01 -2.5 7.86e+07 - 5.42e-01 5.73e-02h 1
57 6.3011550e+08 6.71e+06 4.54e+01 -2.5 2.76e+07 - 6.57e-01 5.13e-02h 1
58 6.3009391e+08 5.13e+06 2.27e+01 -2.5 2.78e+07 - 1.00e+00 5.33e-01h 1
59 6.3009019e+08 4.89e+06 2.00e+01 -2.5 3.75e+07 - 5.68e-01 1.23e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.3008977e+08 4.65e+06 1.90e+01 -2.5 1.80e+06 - 1.00e+00 4.98e-02h 1
61 6.3008275e+08 2.60e+04 8.58e-02 -2.5 2.09e+05 - 1.00e+00 1.00e+00h 1
62 6.3008275e+08 5.62e+01 1.12e-05 -2.5 3.95e+03 - 1.00e+00 1.00e+00h 1
63 6.3008132e+08 2.71e+02 1.94e-04 -3.8 1.19e+05 - 1.00e+00 1.00e+00f 1
64 6.3008133e+08 1.30e-02 3.57e-09 -3.8 8.70e+02 - 1.00e+00 1.00e+00h 1
65 6.3008125e+08 8.56e-01 6.10e-07 -5.7 6.70e+03 - 1.00e+00 1.00e+00f 1
66 6.3008125e+08 1.19e-06 1.85e-11 -5.7 2.57e+00 - 1.00e+00 1.00e+00h 1
67 6.3008125e+08 1.32e-04 9.38e-11 -8.6 8.31e+01 - 1.00e+00 1.00e+00h 1
68 6.3008125e+08 1.43e-06 1.82e-12 -9.0 7.24e-02 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 68
(scaled) (unscaled)
Objective...............: 6.3008124529537505e+04 6.3008124529537499e+08
Dual infeasibility......: 1.8154512832239963e-12 1.8154512832239963e-08
Constraint violation....: 3.7252902984619141e-09 1.4305114746093750e-06
Complementarity.........: 9.0929553857292995e-10 9.0929553857292999e-06
Overall NLP error.......: 3.7252902984619141e-09 9.0929553857292999e-06
Number of objective function evaluations = 69
Number of objective gradient evaluations = 69
Number of equality constraint evaluations = 69
Number of inequality constraint evaluations = 69
Number of equality constraint Jacobian evaluations = 69
Number of inequality constraint Jacobian evaluations = 69
Number of Lagrangian Hessian evaluations = 68
Total CPU secs in IPOPT (w/o function evaluations) = 3.833
Total CPU secs in NLP function evaluations = 97.417
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1153640
Fixed costs: 60712.24
Variable costs: 42853.64
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 185.37
Simulating time_step 2020-07-10 19:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15996
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6074
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.3027125e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.3021093e+08 9.97e+04 9.88e+01 -1.0 7.86e+05 - 3.73e-03 3.01e-03h 1
2 6.3022038e+08 9.91e+04 1.00e+02 -1.0 3.94e+05 - 7.80e-05 6.48e-03h 1
3 6.3028239e+08 9.82e+04 9.91e+01 -1.0 1.14e+05 - 9.50e-03 8.67e-03h 1
4 6.3068574e+08 9.41e+04 9.89e+01 -1.0 1.06e+05 - 2.16e-02 4.16e-02h 1
5 6.3146736e+08 8.67e+04 8.60e+01 -1.0 9.32e+04 - 4.42e-01 7.87e-02h 1
6 6.4000988e+08 2.33e+03 9.68e+01 -1.0 1.37e+05 - 1.49e-01 9.73e-01h 1
7 6.3997410e+08 1.81e+03 4.00e+01 -1.0 1.46e+05 - 9.88e-01 2.24e-01h 1
8 6.3885959e+08 1.71e+03 4.53e+01 -1.0 9.90e+06 - 2.94e-02 5.62e-02f 1
9 6.3873741e+08 1.70e+03 2.48e+01 -1.0 1.25e+07 - 1.95e-01 7.00e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.3150472e+08 8.02e+03 1.46e+01 -1.0 1.54e+07 - 9.48e-02 3.44e-01f 1
11 6.3142571e+08 7.99e+03 4.17e+01 -1.0 1.68e+07 - 5.93e-01 3.69e-03f 1
12 6.3037479e+08 8.31e+03 4.51e+01 -1.0 3.72e+07 - 1.93e-01 4.01e-02f 1
13 6.3034540e+08 8.17e+03 5.37e+01 -1.0 5.16e+06 - 3.67e-01 1.75e-02h 1
14 6.2854754e+08 1.79e+04 7.05e+01 -1.0 8.37e+06 - 3.56e-01 1.00e+00f 1
15 6.2571649e+08 4.45e+04 2.45e+01 -1.0 1.33e+07 - 4.57e-01 9.73e-01f 1
16 6.2045486e+08 1.53e+05 8.86e+00 -1.0 2.37e+07 - 6.38e-01 1.00e+00f 1
17 6.1882306e+08 1.50e+05 1.55e+01 -1.0 6.18e+07 - 5.55e-01 1.19e-01f 1
18 6.1869568e+08 1.49e+05 1.58e+01 -1.0 1.27e+08 - 5.75e-02 6.21e-03f 1
19 6.1325605e+08 4.57e+05 8.63e+00 -1.0 1.34e+08 - 6.54e-01 2.59e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.1315566e+08 4.56e+05 1.10e+01 -1.0 2.48e+08 - 1.35e-01 3.14e-03f 1
21 6.1252657e+08 4.45e+05 2.18e+01 -1.0 2.68e+08 - 3.22e-01 2.46e-02f 1
22 6.1249554e+08 4.42e+05 1.77e+01 -1.0 2.83e+07 - 3.01e-01 5.41e-03h 1
23 6.1155616e+08 8.36e+05 1.46e+01 -1.0 3.84e+07 - 1.88e-01 1.50e-01f 1
24 6.1149685e+08 8.17e+05 6.22e+01 -1.0 2.09e+07 - 6.57e-01 2.37e-02h 1
25 6.1062722e+08 2.19e+06 4.15e+01 -1.0 4.97e+07 - 8.13e-03 2.06e-01f 1
26 6.0611512e+08 3.65e+07 1.11e+01 -1.0 6.41e+07 - 1.20e-01 7.15e-01f 1
27 6.0607014e+08 3.63e+07 4.30e+00 -1.0 6.30e+07 - 3.72e-01 7.39e-03h 1
28 6.0475269e+08 3.73e+07 8.65e+00 -1.0 7.88e+07 - 6.06e-01 2.77e-01f 1
29 6.0205077e+08 3.56e+07 5.15e+00 -1.0 5.58e+07 - 3.48e-01 7.95e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0201389e+08 1.66e+07 2.36e+00 -1.0 3.97e+06 - 6.24e-01 5.40e-01h 1
31 6.0202208e+08 1.14e+07 4.41e+04 -1.0 5.69e+04 -4.0 1.27e-01 3.09e-01h 1
32 6.0202218e+08 1.14e+07 4.39e+04 -1.0 3.91e+04 -4.5 7.84e-01 4.61e-03h 1
33 6.0203428e+08 6.10e+06 4.66e+04 -1.0 3.90e+04 -5.0 7.43e-01 4.60e-01h 1
34 6.0203438e+08 6.05e+06 4.40e+04 -1.0 2.09e+04 -5.4 1.00e+00 7.14e-03h 1
35 6.0203438e+08 6.05e+06 6.28e+04 -1.0 2.09e+05 -5.9 5.25e-02 8.22e-05h 1
36 6.0203887e+08 5.92e+06 1.73e+05 -1.0 1.63e+06 -6.4 5.72e-02 2.10e-02h 1
37 6.0204118e+08 5.86e+06 2.98e+05 -1.0 1.60e+06 -6.9 1.66e-01 1.05e-02h 1
38 6.0205702e+08 5.52e+06 2.80e+05 -1.0 1.59e+06 -7.3 4.44e-02 5.83e-02h 1
39 6.0208427e+08 4.94e+06 1.84e+05 -1.0 1.53e+06 -7.8 3.77e-01 1.03e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.0215147e+08 3.71e+06 1.41e+05 -1.0 1.42e+06 -8.3 2.37e-01 2.43e-01h 1
41 6.0230165e+08 1.11e+06 1.27e+05 -1.0 1.16e+06 -8.8 1.00e+00 6.69e-01h 1
42 6.0230464e+08 6.51e+05 8.15e+04 -1.0 4.83e+05 -9.2 1.00e+00 4.08e-01h 1
43 6.0231968e+08 7.62e+03 1.55e+04 -1.0 2.95e+05 -9.7 1.00e+00 1.00e+00h 1
44 6.0219618e+08 7.54e+03 1.54e+04 -1.0 8.75e+07 - 1.00e+00 9.17e-03f 1
45 6.0216910e+08 1.99e+01 1.47e+00 -1.0 4.43e+04 -10.2 1.00e+00 1.00e+00f 1
46 6.0211729e+08 1.23e+06 5.35e+00 -1.0 2.97e+07 - 2.35e-01 3.74e-01f 1
47 6.0211213e+08 4.58e+02 1.54e-01 -1.0 8.86e+04 -10.7 1.00e+00 1.00e+00h 1
48 6.0208054e+08 2.49e+01 1.94e+00 -1.7 3.66e+04 -11.2 1.00e+00 9.42e-01f 1
49 6.0207459e+08 1.62e+02 8.08e-03 -1.7 7.32e+04 -11.6 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.0206803e+08 3.28e+02 3.63e+00 -2.5 1.87e+05 -12.1 1.00e+00 4.94e-01f 1
51 6.0206537e+08 1.23e+03 2.15e+00 -2.5 4.81e+05 -12.6 1.00e+00 4.08e-01h 1
52 6.0206277e+08 1.44e+03 1.81e-02 -2.5 3.93e+05 -13.1 1.00e+00 1.00e+00h 1
53 6.0206119e+08 1.39e+04 3.13e-03 -2.5 1.22e+06 -13.5 1.00e+00 1.00e+00h 1
54 6.0205631e+08 1.42e+05 3.75e-02 -2.5 3.88e+06 -14.0 1.00e+00 1.00e+00h 1
55 6.0205222e+08 1.96e+05 5.84e+00 -2.5 1.38e+07 -14.5 1.00e+00 2.21e-01h 1
56 6.0204008e+08 7.96e+06 1.73e+00 -2.5 3.54e+07 -15.0 1.00e+00 7.72e-01h 1
57 6.0203986e+08 7.86e+06 7.65e+00 -2.5 6.86e+06 -14.5 1.00e+00 1.26e-02h 1
58 6.0202317e+08 7.45e+06 1.13e+00 -2.5 2.70e+07 -15.0 1.00e+00 9.53e-01h 1
59 6.0199899e+08 1.08e+06 4.08e-01 -2.5 1.36e+07 -14.6 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.0199354e+08 1.20e+06 4.44e-01 -2.5 2.02e+08 -15.1 5.84e-01 1.94e-02h 1
61 6.0198732e+08 7.30e+05 4.99e-02 -2.5 5.92e+06 -14.7 1.00e+00 1.00e+00h 1
62 6.0198053e+08 3.51e+07 4.83e+00 -2.5 1.27e+08 -15.1 4.82e-01 4.01e-01h 1
63 6.0197996e+08 3.49e+07 5.03e+00 -2.5 2.29e+07 -14.7 1.00e+00 6.26e-03h 1
64 6.0192611e+08 3.60e+06 8.25e-01 -2.5 1.26e+07 - 6.43e-02 1.00e+00h 1
65 6.0192257e+08 3.19e+06 6.60e-01 -2.5 1.97e+07 -15.2 1.00e+00 2.81e-01h 1
66 6.0191486e+08 5.74e+06 9.13e-01 -2.5 6.24e+07 -15.7 2.85e-01 1.99e-01h 1
67 6.0191476e+08 4.56e+06 7.25e-01 -2.5 7.09e+05 - 1.00e+00 2.05e-01h 1
68 6.0191430e+08 2.68e+04 3.34e-03 -2.5 5.72e+05 - 1.00e+00 1.00e+00h 1
69 6.0191429e+08 4.26e+01 6.85e-06 -2.5 3.73e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.0191282e+08 2.21e+02 1.73e-04 -3.8 1.07e+05 - 1.00e+00 1.00e+00f 1
71 6.0191282e+08 1.47e-02 5.00e-07 -3.8 9.12e+02 - 1.00e+00 1.00e+00h 1
72 6.0191275e+08 5.90e-01 4.29e-01 -5.7 6.03e+03 - 1.00e+00 9.16e-01f 1
73 6.0191274e+08 4.68e-03 1.20e-06 -5.7 4.93e+02 - 1.00e+00 1.00e+00h 1
In iteration 73, 1 Slack too small, adjusting variable bound
74 6.0191274e+08 1.30e-04 3.23e-03 -8.6 7.20e+01 - 1.00e+00 9.93e-01h 1
75 6.0191274e+08 9.54e-07 1.08e-12 -8.6 4.60e-01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 75
(scaled) (unscaled)
Objective...............: 6.0191273784138277e+04 6.0191273784138274e+08
Dual infeasibility......: 1.0788152964420463e-12 1.0788152964420463e-08
Constraint violation....: 2.5611370801925659e-09 9.5367431640625000e-07
Complementarity.........: 2.5082265614433174e-09 2.5082265614433173e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5082265614433173e-05
Number of objective function evaluations = 76
Number of objective gradient evaluations = 76
Number of equality constraint evaluations = 76
Number of inequality constraint evaluations = 76
Number of equality constraint Jacobian evaluations = 76
Number of inequality constraint Jacobian evaluations = 76
Number of Lagrangian Hessian evaluations = 75
Total CPU secs in IPOPT (w/o function evaluations) = 4.061
Total CPU secs in NLP function evaluations = 98.901
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1118848
Fixed costs: 64170.19
Variable costs: 45805.42
Number on/offs: 3
Sum on/off ramps: 24.00
Sum nominal ramps: 109.51
Simulating time_step 2020-07-10 20:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15992
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6073
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.0211273e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.0207484e+08 9.98e+04 9.92e+01 -1.0 2.36e+05 - 3.52e-03 2.11e-03h 1
2 6.0208847e+08 9.92e+04 9.86e+01 -1.0 1.69e+05 - 4.15e-03 5.86e-03h 1
3 6.0219965e+08 9.81e+04 9.77e+01 -1.0 9.87e+04 - 9.95e-03 1.13e-02h 1
4 6.0277702e+08 9.36e+04 9.87e+01 -1.0 1.11e+05 - 2.36e-02 4.60e-02h 1
5 6.0400664e+08 8.45e+04 8.40e+01 -1.0 9.31e+04 - 3.83e-01 9.68e-02h 1
6 6.0520371e+08 7.54e+04 7.50e+01 -1.0 1.59e+05 - 2.04e-01 1.08e-01h 1
7 6.0532586e+08 7.44e+04 2.16e+02 -1.0 4.21e+06 - 3.75e-01 1.33e-02h 1
8 6.1057381e+08 1.33e+05 1.01e+02 -1.0 4.55e+06 - 6.79e-01 5.95e-01h 1
9 6.1206669e+08 6.96e+04 3.80e+01 -1.0 1.84e+06 - 9.54e-01 7.33e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.1169004e+08 6.86e+04 4.14e+01 -1.0 1.41e+07 - 8.47e-02 1.44e-02f 1
11 6.0875063e+08 5.93e+04 3.62e+01 -1.0 1.64e+07 - 1.45e-01 1.37e-01f 1
12 6.0490246e+08 5.03e+04 4.47e+01 -1.0 1.90e+07 - 4.74e-01 1.53e-01f 1
13 6.0481345e+08 5.02e+04 4.90e+01 -1.0 3.48e+07 - 1.92e-01 2.93e-03f 1
14 6.0153224e+08 4.47e+04 6.48e+01 -1.0 4.24e+07 - 7.07e-01 1.12e-01f 1
15 6.0147781e+08 4.44e+04 7.62e+01 -1.0 1.65e+07 - 4.26e-01 6.93e-03h 1
16 5.9575710e+08 1.78e+05 7.23e+01 -1.0 2.63e+07 - 2.60e-01 1.00e+00f 1
17 5.9058086e+08 2.19e+05 2.60e+01 -1.0 3.64e+07 - 4.68e-01 6.55e-01f 1
18 5.9051711e+08 2.18e+05 2.36e+01 -1.0 6.38e+07 - 2.18e-01 4.87e-03f 1
19 5.8472608e+08 5.24e+05 1.04e+01 -1.0 8.02e+07 - 6.62e-01 4.68e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.8465255e+08 5.22e+05 1.07e+01 -1.0 1.69e+08 - 1.86e-01 2.88e-03f 1
21 5.8403849e+08 5.04e+05 1.67e+01 -1.0 1.96e+08 - 5.30e-01 3.38e-02f 1
22 5.8399924e+08 5.00e+05 2.18e+01 -1.0 2.45e+07 - 7.76e-01 8.70e-03h 1
23 5.8309345e+08 6.37e+05 2.09e+01 -1.0 6.96e+07 - 1.04e-01 7.12e-02f 1
24 5.8283708e+08 6.70e+05 5.27e+01 -1.0 6.44e+07 - 4.79e-01 4.87e-02f 1
25 5.8282822e+08 5.91e+05 3.18e+03 -1.0 5.74e+04 -4.0 6.90e-02 1.17e-01h 1
26 5.8282813e+08 5.91e+05 2.71e+04 -1.0 5.07e+04 -4.5 9.28e-01 1.35e-03h 1
27 5.8282538e+08 5.63e+05 1.26e+04 -1.0 5.06e+04 -5.0 2.68e-02 4.60e-02h 1
28 5.8282531e+08 5.62e+05 3.55e+04 -1.0 4.74e+04 -5.4 9.45e-02 1.87e-03h 1
29 5.8279325e+08 9.28e+04 3.33e+04 -1.0 4.70e+04 -5.9 6.56e-02 8.35e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.8278737e+08 4.41e+00 8.46e+02 -1.0 7.79e+03 -6.4 9.92e-01 1.00e+00h 1
31 5.8278733e+08 8.73e-05 1.59e-01 -1.0 9.05e+01 -6.9 1.00e+00 1.00e+00f 1
32 5.8277035e+08 5.53e-04 3.65e+00 -2.5 4.25e+02 -7.3 1.00e+00 9.09e-01f 1
33 5.8241628e+08 6.91e+05 3.65e+00 -2.5 2.74e+09 - 4.18e-03 2.15e-03f 1
34 5.8148212e+08 6.45e+06 3.63e+00 -2.5 3.51e+09 - 4.02e-04 4.90e-03f 1
35 5.7964333e+08 2.93e+07 3.59e+00 -2.5 3.69e+09 - 1.02e-02 9.54e-03f 1
36 5.7697930e+08 5.36e+07 3.99e+00 -2.5 3.74e+09 - 2.28e-02 1.35e-02f 1
37 5.7693519e+08 5.35e+07 4.19e+00 -2.5 2.96e+09 - 6.62e-02 2.50e-04f 1
38 5.7638515e+08 4.71e+07 9.70e+00 -2.5 1.84e+09 - 1.20e-01 4.29e-03f 1
39 5.7576186e+08 4.64e+07 1.07e+01 -2.5 7.47e+08 - 3.66e-02 1.37e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.7575929e+08 4.64e+07 1.25e+01 -2.5 3.98e+08 - 3.76e-02 8.75e-05h 1
41 5.7462812e+08 4.34e+07 1.02e+01 -2.5 4.25e+08 - 1.63e-04 6.54e-02f 1
42 5.7461086e+08 4.33e+07 1.03e+01 -2.5 4.91e+08 - 3.67e-02 8.54e-04h 1
43 5.7292891e+08 3.97e+07 2.30e+01 -2.5 4.90e+08 - 1.17e-04 8.37e-02f 1
44 5.7292432e+08 3.97e+07 2.31e+01 -2.5 8.52e+08 - 6.15e-02 1.34e-04h 1
45 5.7292073e+08 3.73e+07 4.56e+01 -2.5 2.02e+07 - 9.46e-01 5.98e-02h 1
46 5.7291694e+08 3.42e+07 4.39e+01 -2.5 1.97e+07 - 1.00e+00 8.32e-02h 1
47 5.7290230e+08 1.99e+06 1.78e+01 -2.5 9.68e+06 - 1.00e+00 1.00e+00h 1
48 5.7290235e+08 1.79e+06 1.75e+01 -2.5 1.40e+04 -7.8 4.39e-02 1.03e-01h 1
49 5.7290225e+08 1.78e+06 3.03e+01 -2.5 4.85e+06 - 1.00e+00 4.05e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.7290226e+08 1.63e+06 2.75e+01 -2.5 1.35e+06 - 1.00e+00 8.30e-02h 1
51 5.7290246e+08 1.63e+06 2.73e+01 -2.5 1.51e+08 - 2.26e-02 2.72e-03h 5
52 5.7291587e+08 1.60e+06 2.41e+01 -2.5 2.36e+07 - 4.72e-04 1.19e-01h 3
53 5.7301653e+08 4.23e+05 1.07e+01 -2.5 5.34e+06 - 1.00e+00 1.00e+00h 1
54 5.7301585e+08 3.31e+05 4.73e+02 -2.5 8.19e+04 -8.3 6.29e-03 2.18e-01h 1
55 5.7301576e+08 2.96e+02 1.47e+01 -2.5 1.43e+04 -8.8 3.04e-01 1.00e+00h 1
56 5.7301528e+08 1.93e+02 8.55e+00 -2.5 7.10e+03 -9.2 1.00e+00 3.47e-01h 1
57 5.7301477e+08 1.00e+01 3.52e-02 -2.5 1.18e+04 -9.7 1.00e+00 1.00e+00f 1
58 5.7301238e+08 9.04e+01 4.20e-03 -2.5 3.53e+04 -10.2 1.00e+00 1.00e+00f 1
59 5.7300793e+08 3.10e+02 4.65e-01 -3.8 1.05e+05 -10.7 1.00e+00 5.84e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.7300608e+08 3.44e+02 5.52e+00 -3.8 2.88e+05 -11.2 1.00e+00 1.05e-01f 1
61 5.7300572e+08 8.89e+01 3.62e+00 -3.8 4.11e+03 -11.6 1.00e+00 7.41e-01h 1
62 5.7300558e+08 1.54e+00 1.14e-03 -3.8 1.28e+04 -12.1 1.00e+00 1.00e+00h 1
63 5.7300549e+08 1.42e+01 2.26e-06 -5.7 3.88e+04 -12.6 1.00e+00 1.00e+00h 1
64 5.7300545e+08 1.26e+02 3.69e-05 -5.7 1.16e+05 -13.1 1.00e+00 1.00e+00h 1
65 5.7300532e+08 1.18e+03 2.69e-04 -5.7 3.54e+05 -13.5 1.00e+00 1.00e+00h 1
66 5.7300491e+08 1.20e+04 2.74e-03 -5.7 1.13e+06 -14.0 1.00e+00 1.00e+00h 1
67 5.7300325e+08 1.65e+05 3.75e-02 -5.7 4.17e+06 -14.5 1.00e+00 1.00e+00h 1
68 5.7299989e+08 5.31e+05 1.22e-01 -5.7 3.31e+07 -15.0 1.00e+00 1.96e-01h 1
69 5.7299910e+08 5.44e+04 1.58e-02 -5.7 1.84e+06 -14.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 5.7299494e+08 3.10e+06 6.67e-01 -5.7 1.81e+07 -15.0 1.00e+00 1.00e+00h 1
71 5.7298415e+08 1.16e+06 1.78e-01 -5.7 9.05e+06 -14.6 1.00e+00 9.37e-01h 1
72 5.7297140e+08 2.58e+06 4.36e-01 -5.7 1.55e+08 -15.1 2.84e-01 7.71e-02h 1
73r 5.7297140e+08 2.58e+06 9.99e+02 2.7 0.00e+00 -15.6 0.00e+00 2.26e-07R 5
74r 5.7297277e+08 2.58e+06 9.99e+02 2.7 3.08e+08 - 1.25e-05 1.15e-05f 1
75r 5.7297743e+08 1.99e+06 9.94e+02 1.3 2.11e+06 - 6.34e-03 1.03e-03f 1
76 5.7297077e+08 2.20e+06 5.03e+01 -5.7 1.10e+13 - 7.38e-06 4.30e-07f 1
77 5.7295554e+08 5.24e+06 5.03e+01 -5.7 3.42e+12 - 2.33e-05 4.78e-06f 1
78 5.7295517e+08 5.24e+06 5.02e+01 -5.7 1.75e+10 - 7.26e-03 1.07e-05h 1
79 5.7295511e+08 5.20e+06 3.94e+01 -5.7 2.38e+06 - 8.97e-01 7.22e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 5.7295073e+08 1.07e+07 1.33e+02 -5.7 2.74e+07 -16.0 1.74e-03 9.43e-01h 1
81 5.7292470e+08 4.48e+06 7.24e+00 -5.7 1.54e+07 -14.7 1.00e+00 9.80e-01h 1
82 5.7292261e+08 3.91e+06 6.25e+00 -5.7 6.75e+06 -14.3 1.00e+00 1.37e-01h 1
83 5.7291941e+08 1.65e+05 4.17e-02 -5.7 4.41e+05 - 1.00e+00 1.00e+00h 1
84 5.7291870e+08 2.14e+03 4.31e-02 -5.7 4.46e+05 - 1.00e+00 9.90e-01h 1
85 5.7291869e+08 4.15e-01 1.71e-02 -5.7 1.62e+02 - 1.00e+00 1.00e+00h 1
86 5.7291869e+08 1.19e-06 4.49e-02 -5.7 1.86e-02 - 1.00e+00 1.00e+00h 1
87 5.7291869e+08 7.15e-07 4.49e-02 -5.7 2.50e-05 - 1.00e+00 1.00e+00h 1
88 5.7291869e+08 9.54e-07 1.85e-11 -5.7 1.60e-05 - 1.00e+00 1.00e+00h 1
89 5.7291869e+08 1.05e-03 2.29e-10 -8.6 2.27e+02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90 5.7291869e+08 9.54e-07 1.10e-12 -8.6 7.56e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 90
(scaled) (unscaled)
Objective...............: 5.7291869030302907e+04 5.7291869030302906e+08
Dual infeasibility......: 1.1042483539180635e-12 1.1042483539180635e-08
Constraint violation....: 2.5611370801925659e-09 9.5367431640625000e-07
Complementarity.........: 2.5061259813713776e-09 2.5061259813713776e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5061259813713776e-05
Number of objective function evaluations = 107
Number of objective gradient evaluations = 90
Number of equality constraint evaluations = 107
Number of inequality constraint evaluations = 107
Number of equality constraint Jacobian evaluations = 92
Number of inequality constraint Jacobian evaluations = 92
Number of Lagrangian Hessian evaluations = 90
Total CPU secs in IPOPT (w/o function evaluations) = 4.275
Total CPU secs in NLP function evaluations = 145.983
EXIT: Optimal Solution Found.
Implemented Power (MPC) 452
Realized SOC (MPC) 1046189
Fixed costs: 60712.24
Variable costs: 45575.26
Number on/offs: 3
Sum on/off ramps: 0.00
Sum nominal ramps: 36.68
Simulating time_step 2020-07-10 21:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15988
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6072
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.7311869e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.7301080e+08 9.94e+04 7.53e+01 -1.0 1.11e+05 - 9.61e-01 6.01e-03h 1
2 5.7297935e+08 7.46e+04 4.41e+01 -1.0 2.49e+06 - 9.90e-02 2.49e-01h 1
3 5.7296494e+08 7.03e+04 4.76e+01 -1.0 6.19e+06 - 2.31e-01 5.82e-02h 1
4 5.7296373e+08 7.00e+04 1.34e+03 -1.0 5.93e+06 - 2.86e-01 4.17e-03h 1
5 5.7288843e+08 5.98e+04 2.27e+03 -1.0 5.86e+06 - 5.81e-01 1.46e-01h 1
6 5.7261261e+08 5.90e+04 1.80e+03 -1.0 4.69e+06 - 3.84e-02 5.22e-01h 1
7 5.7260890e+08 5.83e+04 1.59e+03 -1.0 2.48e+06 - 7.57e-02 1.17e-02h 1
8 5.7300252e+08 4.30e+04 1.89e+03 -1.0 2.53e+06 - 1.28e-02 3.56e-01h 1
9 5.7317571e+08 3.50e+04 2.53e+02 -1.0 1.97e+06 - 6.94e-01 2.03e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.7344518e+08 1.02e+04 3.48e+02 -1.0 3.79e+06 - 5.57e-01 1.00e+00h 1
11 5.7195022e+08 1.08e+04 1.26e+02 -1.0 6.79e+06 - 6.39e-01 1.00e+00f 1
12 5.6787686e+08 8.32e+04 6.49e+01 -1.0 1.87e+07 - 4.85e-01 1.00e+00f 1
13 5.6080203e+08 2.63e+05 2.33e+01 -1.0 3.49e+07 - 6.45e-01 9.18e-01f 1
14 5.6071528e+08 2.62e+05 3.27e+01 -1.0 8.98e+07 - 5.83e-01 4.65e-03f 1
15 5.5531756e+08 5.47e+05 2.92e+01 -1.0 1.89e+08 - 4.31e-02 1.89e-01f 1
16 5.5524820e+08 5.46e+05 2.05e+01 -1.0 1.68e+08 - 8.92e-01 2.81e-03f 1
17 5.5456791e+08 5.33e+05 2.63e+01 -1.0 2.57e+08 - 1.59e-01 2.03e-02f 1
18 5.5372287e+08 8.35e+05 1.92e+01 -1.0 7.89e+07 - 3.52e-01 6.88e-02f 1
19 5.5352628e+08 7.94e+05 4.34e+01 -1.0 4.67e+07 - 4.23e-01 5.00e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.5253546e+08 4.72e+06 2.28e+01 -1.0 6.11e+07 - 7.80e-03 2.28e-01f 1
21 5.4850957e+08 4.89e+07 2.67e+01 -1.0 6.84e+07 - 2.44e-01 9.29e-01f 1
22 5.4822829e+08 3.24e+07 4.52e+00 -1.0 1.36e+07 - 8.70e-01 3.89e-01h 1
23 5.4810243e+08 2.36e+07 4.10e+00 -1.0 5.89e+07 - 5.85e-01 2.85e-01h 1
24 5.4782306e+08 5.35e+07 1.24e+01 -1.0 9.70e+07 - 3.78e-01 6.36e-01h 1
25 5.4781884e+08 5.20e+07 1.38e+01 -1.0 1.27e+07 - 8.25e-01 2.81e-02h 1
26 5.4779150e+08 3.54e+07 9.65e+00 -1.0 5.96e+07 - 3.14e-02 3.27e-01h 1
27 5.4778902e+08 1.98e+07 5.09e+00 -1.0 8.62e+06 - 3.94e-01 4.53e-01h 1
28 5.4778003e+08 5.48e+06 1.90e+00 -1.0 1.12e+07 - 9.92e-01 7.12e-01h 1
29 5.4778337e+08 7.26e+04 8.11e-03 -1.0 7.83e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.4778359e+08 6.40e+01 1.70e-04 -1.0 3.84e+04 - 1.00e+00 1.00e+00h 1
31 5.4774757e+08 2.60e+05 1.79e+01 -2.5 6.41e+06 - 9.57e-01 5.16e-01f 1
32 5.4772482e+08 2.90e+04 2.22e+00 -2.5 4.62e+05 - 1.00e+00 8.87e-01h 1
33 5.4772204e+08 4.15e+02 4.61e-04 -2.5 1.45e+05 - 1.00e+00 1.00e+00h 1
34 5.4772204e+08 8.17e-04 2.83e-08 -2.5 2.06e+02 - 1.00e+00 1.00e+00h 1
35 5.4772054e+08 1.02e+01 2.04e-03 -3.8 2.66e+04 - 1.00e+00 9.98e-01f 1
36 5.4772054e+08 3.41e-02 7.05e-09 -3.8 1.28e+03 - 1.00e+00 1.00e+00h 1
37 5.4772045e+08 2.55e-02 6.71e-08 -5.7 1.48e+03 - 1.00e+00 1.00e+00f 1
38 5.4772045e+08 6.20e-06 1.59e-11 -8.6 1.85e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 38
(scaled) (unscaled)
Objective...............: 5.4772045249444061e+04 5.4772045249444056e+08
Dual infeasibility......: 1.5857529964615223e-11 1.5857529964615223e-07
Constraint violation....: 3.7252902984619141e-09 6.1988830566406250e-06
Complementarity.........: 2.5382083211130782e-09 2.5382083211130781e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5382083211130781e-05
Number of objective function evaluations = 39
Number of objective gradient evaluations = 39
Number of equality constraint evaluations = 39
Number of inequality constraint evaluations = 39
Number of equality constraint Jacobian evaluations = 39
Number of inequality constraint Jacobian evaluations = 39
Number of Lagrangian Hessian evaluations = 38
Total CPU secs in IPOPT (w/o function evaluations) = 2.191
Total CPU secs in NLP function evaluations = 48.240
EXIT: Optimal Solution Found.
Implemented Power (MPC) 451
Realized SOC (MPC) 1464254
Fixed costs: 60712.24
Variable costs: 42390.29
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 117.45
Simulating time_step 2020-07-10 22:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15984
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6071
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.4792045e+08 4.18e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.4781555e+08 4.16e+05 8.61e+01 -1.0 4.18e+05 - 6.39e-01 5.84e-03h 1
2 5.4795509e+08 3.61e+05 1.06e+02 -1.0 1.65e+06 - 1.51e-02 1.32e-01h 1
3 5.5002187e+08 5.16e+04 1.05e+02 -1.0 3.61e+05 - 6.16e-02 8.57e-01h 1
4 5.5010538e+08 2.81e+04 2.47e+01 -1.0 2.04e+05 - 9.47e-01 4.56e-01h 1
5 5.5002012e+08 2.70e+04 2.31e+01 -1.0 3.64e+06 - 2.41e-01 3.80e-02h 1
6 5.4882526e+08 1.65e+04 1.97e+01 -1.0 4.88e+06 - 4.90e-01 3.90e-01h 1
7 5.4881287e+08 1.64e+04 4.25e+01 -1.0 4.20e+06 - 6.60e-01 4.49e-03h 1
8 5.4853344e+08 1.49e+03 1.48e+02 -1.0 2.58e+06 - 1.21e-01 9.74e-01h 1
9 5.4799693e+08 1.86e+03 3.80e+01 -1.0 3.34e+06 - 7.57e-01 7.48e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.4507704e+08 4.50e+04 1.11e+01 -1.0 1.37e+07 - 2.58e-01 1.00e+00f 1
11 5.4115072e+08 8.12e+04 4.48e+00 -1.0 1.81e+07 - 8.16e-01 1.00e+00f 1
12 5.3596411e+08 2.06e+05 4.82e+00 -1.0 9.00e+07 - 3.11e-01 2.66e-01f 1
13 5.3588603e+08 2.05e+05 1.15e+01 -1.0 1.22e+08 - 1.51e-01 3.33e-03f 1
14 5.3088594e+08 4.43e+05 1.13e+01 -1.0 1.40e+08 - 9.26e-01 2.32e-01f 1
15 5.3070185e+08 4.42e+05 1.43e+01 -1.0 4.93e+08 - 6.89e-02 3.01e-03f 1
16 5.2993477e+08 4.34e+05 2.58e+01 -1.0 4.83e+08 - 1.65e-01 1.47e-02f 1
17 5.2981741e+08 4.30e+05 2.39e+01 -1.0 7.56e+07 - 1.07e-01 9.54e-03f 1
18 5.2910327e+08 4.78e+05 2.25e+01 -1.0 5.58e+07 - 5.44e-02 7.25e-02f 1
19 5.2891609e+08 4.98e+05 2.10e+01 -1.0 4.07e+07 - 6.77e-02 6.03e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.2771204e+08 5.70e+06 1.68e+01 -1.0 4.38e+07 - 1.50e-01 3.67e-01f 1
21 5.2733444e+08 5.95e+06 2.23e+01 -1.0 5.38e+07 - 6.32e-01 1.14e-01f 1
22 5.2278414e+08 4.79e+07 1.17e+01 -1.0 9.08e+07 - 3.90e-01 8.27e-01f 1
23 5.2270727e+08 2.55e+07 7.38e+00 -1.0 1.57e+06 - 9.90e-01 4.78e-01h 1
24 5.2272407e+08 2.08e+07 1.13e+05 -1.0 3.40e+05 -4.0 1.80e-02 1.84e-01h 1
25 5.2273561e+08 1.80e+07 1.03e+05 -1.0 2.77e+05 -4.5 2.23e-01 1.30e-01h 1
26 5.2273578e+08 1.80e+07 1.02e+05 -1.0 2.41e+05 -5.0 6.67e-01 2.08e-03h 1
27 5.2280830e+08 1.45e+06 3.08e+05 -1.0 2.41e+05 -5.4 6.15e-01 8.93e-01h 1
28 5.2280852e+08 1.42e+06 3.00e+05 -1.0 2.56e+04 -5.9 1.00e+00 2.67e-02h 1
29 5.2280853e+08 1.41e+06 3.00e+05 -1.0 2.49e+04 -6.4 1.00e+00 2.76e-04h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.2281176e+08 1.38e+06 2.94e+05 -1.0 1.95e+06 -6.9 1.80e-02 2.11e-02h 1
31 5.2282558e+08 1.26e+06 2.67e+05 -1.0 1.91e+06 -7.3 2.37e-01 9.14e-02h 1
32 5.2282747e+08 1.24e+06 2.64e+05 -1.0 1.73e+06 -7.8 1.61e-01 1.09e-02h 1
33 5.2284020e+08 1.17e+06 2.48e+05 -1.0 1.71e+06 -8.3 8.94e-01 6.28e-02h 1
34 5.2293317e+08 7.59e+05 1.74e+05 -1.0 1.60e+06 -8.8 2.24e-01 3.53e-01h 1
35 5.2302981e+08 3.00e+05 1.19e+05 -1.0 1.03e+06 -9.2 1.00e+00 6.14e-01h 1
36 5.2307227e+08 3.05e+03 2.43e+04 -1.0 3.96e+05 -9.7 1.00e+00 1.00e+00h 1
37 5.2295854e+08 1.09e+03 8.64e+03 -1.0 2.40e+05 -10.2 1.00e+00 6.44e-01f 1
38 5.2285374e+08 6.54e+02 5.12e+03 -1.0 3.91e+05 -10.7 1.00e+00 4.07e-01f 1
39 5.2280388e+08 4.71e+02 3.69e+03 -1.0 5.86e+05 -11.2 1.00e+00 2.80e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.2279737e+08 1.30e+04 2.53e+03 -1.0 3.51e+06 - 9.89e-01 3.14e-01h 1
41 5.2280104e+08 1.45e+06 2.31e+01 -1.0 7.96e+06 - 1.00e+00 1.00e+00f 1
42 5.2280105e+08 1.48e+02 2.10e-03 -1.0 3.74e+04 -11.6 1.00e+00 1.00e+00h 1
43 5.2275146e+08 7.10e+02 1.84e+00 -2.5 1.92e+05 -12.1 1.00e+00 9.55e-01f 1
44 5.2274583e+08 1.59e+03 7.09e-01 -2.5 3.71e+05 -12.6 1.00e+00 6.17e-01h 1
45 5.2274496e+08 1.88e+03 9.23e-01 -2.5 7.18e+05 -13.1 1.00e+00 1.97e-01h 1
46 5.2274425e+08 7.06e+01 2.49e-03 -2.5 5.72e+04 -13.5 1.00e+00 1.00e+00h 1
47 5.2274274e+08 7.34e+02 3.02e-04 -3.8 1.85e+05 -14.0 1.00e+00 1.00e+00h 1
48 5.2274271e+08 5.13e+03 5.95e-04 -3.8 5.23e+05 -14.5 1.00e+00 1.00e+00h 1
49 5.2274251e+08 1.14e+05 2.31e-02 -3.8 3.32e+06 -15.0 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.2274215e+08 2.85e+04 5.07e-03 -3.8 1.60e+06 -14.5 1.00e+00 1.00e+00h 1
51 5.2273854e+08 3.25e+06 6.55e-01 -3.8 1.82e+07 -15.0 1.00e+00 1.00e+00h 1
52 5.2272516e+08 1.29e+06 1.64e-01 -3.8 9.52e+06 -14.6 1.00e+00 1.00e+00h 1
53 5.2269596e+08 7.42e+06 1.33e+00 -3.8 1.89e+08 -15.1 3.96e-01 1.33e-01h 1
54 5.2269595e+08 7.42e+06 2.20e+00 -3.8 2.56e+08 -15.6 6.05e-01 3.75e-05h 1
55 5.2269180e+08 5.53e+06 9.91e-01 -3.8 2.76e+06 - 1.00e+00 2.59e-01h 1
56 5.2268189e+08 1.46e+04 1.66e-02 -3.8 4.06e+05 - 1.00e+00 1.00e+00h 1
57 5.2268188e+08 1.45e+00 8.91e-08 -3.8 4.01e+03 - 1.00e+00 1.00e+00h 1
58 5.2268179e+08 3.57e-02 9.38e-08 -5.7 1.27e+03 - 1.00e+00 1.00e+00h 1
59 5.2268179e+08 4.77e-06 1.39e-11 -8.6 1.51e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 59
(scaled) (unscaled)
Objective...............: 5.2268179292020366e+04 5.2268179292020363e+08
Dual infeasibility......: 1.3887258465621773e-11 1.3887258465621773e-07
Constraint violation....: 3.7252902984619141e-09 4.7683715820312500e-06
Complementarity.........: 2.5224939874834616e-09 2.5224939874834615e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5224939874834615e-05
Number of objective function evaluations = 60
Number of objective gradient evaluations = 60
Number of equality constraint evaluations = 60
Number of inequality constraint evaluations = 60
Number of equality constraint Jacobian evaluations = 60
Number of inequality constraint Jacobian evaluations = 60
Number of Lagrangian Hessian evaluations = 59
Total CPU secs in IPOPT (w/o function evaluations) = 2.816
Total CPU secs in NLP function evaluations = 72.049
EXIT: Optimal Solution Found.
Implemented Power (MPC) 449
Realized SOC (MPC) 1143862
Fixed costs: 60712.24
Variable costs: 33207.34
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 351.37
Simulating time_step 2020-07-10 23:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15980
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6070
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.2288179e+08 3.20e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.2276821e+08 3.18e+05 6.82e+01 -1.0 3.21e+05 - 9.33e-01 6.33e-03h 1
2 5.2286571e+08 7.73e+04 1.08e+02 -1.0 2.24e+06 - 1.63e-01 7.57e-01h 1
3 5.2286532e+08 7.49e+04 9.60e+01 -1.0 5.46e+05 - 9.27e-01 3.12e-02h 1
4 5.2304176e+08 4.51e+04 8.10e+01 -1.0 1.97e+06 - 3.21e-02 3.97e-01h 1
5 5.2313318e+08 3.77e+04 6.73e+01 -1.0 1.90e+06 - 6.46e-01 1.65e-01h 1
6 5.2297303e+08 1.30e+04 1.05e+01 -1.0 4.93e+06 - 3.22e-01 1.00e+00h 1
7 5.2146250e+08 1.12e+04 2.90e+00 -1.0 6.87e+06 - 6.62e-01 1.00e+00f 1
8 5.1706844e+08 9.82e+04 1.34e+00 -1.0 2.02e+07 - 8.78e-01 1.00e+00f 1
9 5.1083638e+08 2.75e+05 3.77e+00 -1.0 1.40e+08 - 2.21e-01 2.02e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.1074196e+08 2.74e+05 1.22e+01 -1.0 1.72e+08 - 1.16e-01 2.87e-03f 1
11 5.0531062e+08 5.61e+05 1.06e+01 -1.0 1.88e+08 - 6.64e-01 1.91e-01f 1
12 5.0519943e+08 5.59e+05 1.44e+01 -1.0 3.07e+08 - 1.16e-01 2.95e-03f 1
13 5.0474298e+08 5.48e+05 3.72e+01 -1.0 2.22e+08 - 7.42e-01 2.04e-02f 1
14 5.0398319e+08 7.25e+05 2.32e+01 -1.0 7.80e+07 - 4.97e-01 6.50e-02f 1
15 5.0358877e+08 1.28e+06 1.99e+01 -1.0 5.01e+07 - 9.22e-02 1.22e-01f 1
16 5.0080340e+08 3.53e+07 3.31e+01 -1.0 5.40e+07 - 2.35e-01 8.06e-01f 1
17 4.9953519e+08 2.86e+07 2.07e+01 -1.0 3.61e+07 - 4.18e-01 5.50e-01f 1
18 4.9841937e+08 1.80e+07 4.22e+00 -1.0 2.26e+07 - 7.97e-01 7.89e-01f 1
19 4.9841451e+08 1.50e+07 3.36e+00 -1.0 2.90e+06 - 2.36e-01 1.68e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 4.9845326e+08 1.37e+06 4.11e+01 -1.0 4.85e+06 - 1.32e-01 1.00e+00h 1
21 4.9843929e+08 2.75e+06 1.49e+01 -1.0 1.56e+07 - 3.49e-01 6.54e-01h 1
22 4.9832446e+08 1.11e+08 1.67e+01 -1.0 1.11e+08 - 1.94e-01 5.97e-01h 1
23 4.9823133e+08 3.55e+06 7.21e-01 -1.0 3.18e+06 - 9.67e-01 1.00e+00h 1
24 4.9822543e+08 1.50e+07 1.18e+00 -1.0 2.55e+07 - 3.90e-01 9.42e-01h 1
25 4.9822941e+08 4.34e+06 1.34e+00 -1.0 1.72e+07 - 3.19e-01 1.00e+00h 1
26 4.9822205e+08 5.17e+05 2.01e-01 -1.0 1.99e+06 - 1.00e+00 8.79e-01h 1
27 4.9822896e+08 9.58e+04 9.78e-01 -1.0 3.13e+06 - 4.01e-01 1.00e+00h 1
28 4.9822426e+08 3.04e+04 2.11e-02 -1.0 1.81e+06 - 1.00e+00 1.00e+00h 1
29 4.9822396e+08 1.25e+02 1.91e-04 -1.0 1.15e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 4.9820763e+08 1.86e+01 6.04e+00 -2.5 5.88e+00 -4.0 1.00e+00 8.51e-01f 1
31 4.9817423e+08 6.04e+03 2.08e+01 -2.5 2.08e+07 - 9.22e-01 2.66e-02f 1
32 4.9817033e+08 7.94e+03 1.74e+01 -2.5 1.75e+06 - 1.00e+00 2.35e-01h 1
33 4.9816551e+08 2.74e+02 2.91e+00 -2.5 1.17e+05 - 1.00e+00 1.00e+00h 1
34 4.9816312e+08 5.00e+06 2.35e+00 -2.5 5.49e+07 - 7.37e-01 2.83e-01h 1
35 4.9816375e+08 3.18e+05 2.61e-02 -2.5 3.43e+06 - 1.00e+00 1.00e+00h 1
36 4.9816339e+08 1.82e+05 2.24e-02 -2.5 3.14e+06 - 1.00e+00 1.00e+00h 1
37 4.9816337e+08 6.83e+02 1.19e-04 -2.5 2.23e+05 - 1.00e+00 1.00e+00h 1
38 4.9816337e+08 1.53e-01 2.83e-08 -2.5 2.97e+03 - 1.00e+00 1.00e+00h 1
39 4.9816183e+08 1.04e+03 1.36e-02 -3.8 2.56e+05 - 1.00e+00 9.88e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 4.9816181e+08 3.17e+00 3.89e-07 -3.8 1.29e+04 - 1.00e+00 1.00e+00h 1
41 4.9816173e+08 2.49e+00 1.46e-06 -5.7 1.25e+04 - 1.00e+00 1.00e+00h 1
42 4.9816173e+08 4.15e-05 1.85e-11 -5.7 4.63e+01 - 1.00e+00 1.00e+00h 1
43 4.9816172e+08 3.74e-04 2.22e-10 -8.6 1.54e+02 - 1.00e+00 1.00e+00h 1
44 4.9816172e+08 2.38e-07 9.62e-13 -8.6 7.09e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 44
(scaled) (unscaled)
Objective...............: 4.9816172441164294e+04 4.9816172441164291e+08
Dual infeasibility......: 9.6221554837401835e-13 9.6221554837401835e-09
Constraint violation....: 3.7252902984619141e-09 2.3841857910156250e-07
Complementarity.........: 2.5059781027740572e-09 2.5059781027740571e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5059781027740571e-05
Number of objective function evaluations = 45
Number of objective gradient evaluations = 45
Number of equality constraint evaluations = 45
Number of inequality constraint evaluations = 45
Number of equality constraint Jacobian evaluations = 45
Number of inequality constraint Jacobian evaluations = 45
Number of Lagrangian Hessian evaluations = 44
Total CPU secs in IPOPT (w/o function evaluations) = 2.295
Total CPU secs in NLP function evaluations = 54.323
EXIT: Optimal Solution Found.
Implemented Power (MPC) 451
Realized SOC (MPC) 1153529
Fixed costs: 60712.24
Variable costs: 29781.41
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 146.59
Simulating time_step 2020-07-11 00:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 4.9836172e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 4.9835966e+08 1.00e+05 9.90e+01 -1.0 3.08e+06 - 1.24e-04 1.21e-04h 1
2 4.9864077e+08 9.99e+04 1.00e+02 -1.0 1.34e+06 - 1.27e-04 5.46e-04h 1
3 4.9946918e+08 9.98e+04 1.00e+02 -1.0 4.69e+05 - 6.59e-04 1.44e-03h 1
4 5.0150330e+08 9.94e+04 1.00e+02 -1.0 1.93e+05 - 2.10e-03 3.48e-03h 1
5 5.0536841e+08 9.88e+04 9.98e+01 -1.0 1.46e+05 - 5.75e-03 6.59e-03h 1
6 5.1308754e+08 9.75e+04 9.84e+01 -1.0 1.33e+05 - 1.35e-02 1.32e-02h 1
7 7.5780009e+08 5.62e+04 1.44e+02 -1.0 1.30e+05 - 3.39e-02 4.23e-01h 1
8 7.8067462e+08 5.24e+04 5.29e+01 -1.0 8.61e+04 - 9.75e-01 6.88e-02h 1
9 8.4515265e+08 4.12e+04 4.16e+01 -1.0 2.54e+06 - 1.38e-01 2.13e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 8.9440737e+08 3.26e+04 3.28e+01 -1.0 3.12e+06 - 8.73e-01 2.09e-01h 1
11 8.9776912e+08 3.17e+04 1.19e+02 -1.0 2.35e+07 - 7.45e-02 2.52e-02h 1
12 9.0318877e+08 3.04e+04 1.27e+02 -1.0 2.55e+07 - 5.24e-02 4.39e-02h 1
13 9.0532284e+08 2.98e+04 5.11e+02 -1.0 2.69e+07 - 3.10e-01 1.82e-02h 1
14 9.2013653e+08 2.57e+04 3.32e+02 -1.0 3.82e+07 - 6.99e-02 1.74e-01h 1
15 9.2030483e+08 2.56e+04 7.37e+02 -1.0 4.05e+07 - 5.57e-01 3.20e-03h 1
16 9.1265751e+08 4.45e+04 6.42e+02 -1.0 8.51e+07 - 1.49e-01 1.25e-01f 1
17 9.1247633e+08 4.44e+04 5.94e+02 -1.0 7.52e+07 - 3.80e-01 1.92e-03f 1
18 8.3875341e+08 3.79e+05 4.68e+02 -1.0 1.34e+08 - 1.04e-01 3.50e-01f 1
19 8.3242264e+08 3.73e+05 4.63e+02 -1.0 1.71e+08 - 3.58e-03 1.85e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 8.3233114e+08 3.73e+05 3.76e+02 -1.0 1.58e+08 - 3.37e-01 2.86e-04f 1
21 7.9613814e+08 3.85e+05 3.49e+02 -1.0 2.86e+08 - 1.47e-02 6.89e-02f 1
22 7.9565290e+08 3.85e+05 3.69e+02 -1.0 3.06e+08 - 1.05e-01 8.86e-04f 1
23 7.6979773e+08 3.95e+05 3.46e+02 -1.0 3.68e+08 - 1.15e-02 3.27e-02f 1
24 7.6915383e+08 3.95e+05 3.69e+02 -1.0 3.84e+08 - 8.28e-02 9.05e-04f 1
25 7.5277466e+08 4.00e+05 4.19e+02 -1.0 4.35e+08 - 2.32e-01 2.22e-02f 1
26 7.4802729e+08 3.96e+05 4.24e+02 -1.0 4.68e+08 - 4.01e-02 1.01e-02f 1
27 7.2270590e+08 4.24e+05 4.19e+02 -1.0 5.02e+08 - 1.03e-01 5.06e-02f 1
28 7.2240753e+08 4.23e+05 4.08e+02 -1.0 1.74e+08 - 3.26e-02 1.47e-03f 1
29 7.1516147e+08 4.10e+05 4.11e+02 -1.0 2.42e+08 - 2.72e-04 3.24e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.1682532e+08 1.63e+06 4.12e+02 -1.0 6.61e+08 - 2.48e-02 1.35e-01f 1
31 6.1558752e+08 1.63e+06 3.80e+02 -1.0 7.03e+08 - 9.19e-02 1.27e-03f 1
32 6.1033060e+08 1.62e+06 3.64e+02 -1.0 8.04e+08 - 3.12e-02 6.41e-03f 1
33 5.9606656e+08 1.60e+06 3.39e+02 -1.0 8.78e+08 - 1.06e-01 1.62e-02f 1
34 5.9216365e+08 1.59e+06 3.58e+02 -1.0 1.39e+09 - 3.42e-02 5.33e-03f 1
35 5.6731766e+08 1.54e+06 3.64e+02 -1.0 1.58e+09 - 3.91e-02 3.03e-02f 1
36 5.6707466e+08 1.54e+06 3.87e+02 -1.0 5.72e+08 - 1.59e-01 8.62e-04f 1
37 5.6924603e+08 1.25e+06 2.36e+02 -1.0 2.43e+07 - 3.45e-01 1.86e-01h 1
38 5.7037275e+08 1.10e+06 4.50e+02 -1.0 1.97e+07 - 9.29e-01 1.19e-01h 1
39 5.7038211e+08 1.10e+06 4.50e+02 -1.0 3.26e+07 - 2.67e-02 1.36e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.7038337e+08 1.10e+06 4.50e+02 -1.0 5.13e+08 - 5.79e-05 1.60e-04h 1
41 5.7041157e+08 1.10e+06 4.50e+02 -1.0 2.06e+08 - 2.55e-04 1.46e-03h 1
42 5.7489804e+08 8.91e+05 3.57e+02 -1.0 2.64e+07 - 1.59e-03 1.88e-01h 1
43 5.7730334e+08 8.23e+05 3.12e+02 -1.0 1.38e+07 - 8.34e-02 1.22e-01h 1
44 5.8282006e+08 1.69e+06 1.98e+02 -1.0 2.16e+07 - 1.78e-02 3.51e-01h 1
45 5.8300980e+08 1.66e+06 1.94e+02 -1.0 1.87e+07 - 1.46e-01 2.05e-02h 1
46 5.8866384e+08 4.69e+07 6.69e+01 -1.0 3.94e+07 - 3.92e-03 9.80e-01h 1
47 5.8546096e+08 4.43e+07 5.54e+01 -1.0 1.11e+08 - 7.69e-02 1.95e-01f 1
48 5.8442617e+08 4.24e+07 5.22e+01 -1.0 1.22e+08 - 3.01e-02 6.41e-02f 1
49 5.8441320e+08 4.24e+07 5.17e+01 -1.0 7.63e+07 - 9.12e-02 1.03e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.8292028e+08 3.21e+07 4.64e+01 -1.0 5.10e+07 - 2.67e-01 2.42e-01f 1
51 5.7953242e+08 2.65e+07 4.70e+01 -1.0 9.71e+07 - 3.35e-03 2.45e-01f 1
52 5.7954341e+08 2.49e+07 6.37e+02 -1.0 4.10e+04 -4.0 4.63e-02 5.76e-02h 1
53 5.7954076e+08 2.48e+07 6.35e+02 -1.0 2.80e+06 - 4.48e-02 4.64e-03h 1
54 5.7954478e+08 1.65e+07 8.99e+03 -1.0 2.64e+06 - 4.40e-01 3.35e-01h 1
55 5.7940589e+08 2.98e+06 2.23e+04 -1.0 3.40e+06 - 4.33e-01 8.23e-01h 1
56 5.7890869e+08 1.99e+06 1.57e+04 -1.0 1.40e+07 - 2.79e-01 3.32e-01f 1
57 5.7749769e+08 8.08e+06 9.39e+03 -1.0 2.05e+07 - 6.55e-01 6.50e-01f 1
58 5.7694291e+08 8.03e+06 8.44e+03 -1.0 4.73e+07 - 4.10e-01 1.17e-01f 1
59 5.7413316e+08 3.26e+07 7.11e+03 -1.0 5.33e+07 - 9.92e-01 5.59e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.7410413e+08 3.25e+07 7.08e+03 -1.0 6.97e+07 - 6.67e-01 4.35e-03h 1
61 5.7349629e+08 5.23e+06 6.55e+03 -1.0 1.22e+07 - 5.49e-01 1.00e+00h 1
62 5.7349744e+08 3.96e+06 4.99e+03 -1.0 8.67e+03 -4.5 2.40e-01 2.43e-01h 1
63 5.7349510e+08 3.87e+06 4.87e+03 -1.0 5.09e+05 - 1.00e+00 2.35e-02h 1
64 5.7347946e+08 7.38e+04 9.63e+02 -1.0 4.47e+05 - 1.00e+00 1.00e+00h 1
65 5.7347946e+08 4.25e-01 8.87e-03 -1.0 1.57e+01 -5.0 1.00e+00 1.00e+00h 1
66 5.7346373e+08 6.28e-02 6.04e+00 -2.5 6.05e+00 -5.4 1.00e+00 8.52e-01f 1
67 5.7320311e+08 1.18e+06 6.32e+00 -2.5 8.63e+08 - 9.10e-02 5.72e-03f 1
68 5.7319929e+08 1.17e+06 6.32e+00 -2.5 5.15e+07 - 1.41e-01 2.20e-03h 1
69 5.7305925e+08 1.03e+06 9.27e+00 -2.5 4.79e+07 - 4.03e-01 1.22e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 5.7297465e+08 1.14e+06 1.11e+01 -2.5 5.38e+07 - 2.51e-01 7.58e-02h 1
71 5.7294637e+08 1.14e+06 1.90e+01 -2.5 6.73e+07 - 1.00e+00 4.28e-02h 1
72 5.7291292e+08 1.12e+06 1.69e+01 -2.5 3.37e+07 - 6.55e-01 8.29e-02h 1
73 5.7287449e+08 1.10e+06 1.22e+01 -2.5 3.12e+07 - 1.00e+00 2.26e-01h 1
74 5.7287417e+08 1.08e+06 1.28e+01 -2.5 6.00e+06 - 1.00e+00 1.40e-02h 1
75 5.7285889e+08 7.30e+05 1.45e+01 -2.5 6.29e+06 - 1.00e+00 1.00e+00h 1
76 5.7285912e+08 6.85e+05 9.37e+01 -2.5 1.80e+04 -5.9 1.02e-02 6.21e-02h 1
77 5.7285892e+08 6.82e+05 1.12e+02 -2.5 3.19e+05 - 1.00e+00 4.23e-03h 1
78 5.7285851e+08 5.25e+03 5.21e+01 -2.5 2.29e+05 - 1.00e+00 1.00e+00h 1
79 5.7285850e+08 3.32e-01 4.41e-04 -2.5 4.35e+01 -6.4 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 5.7285792e+08 2.67e-02 1.41e+00 -3.8 4.40e+01 -6.9 1.00e+00 9.19e-01f 1
81 5.7285531e+08 3.88e+04 1.55e+01 -3.8 2.22e+07 - 1.00e+00 5.79e-02f 1
82 5.7284777e+08 4.29e+05 1.27e+01 -3.8 2.40e+07 - 1.00e+00 1.75e-01h 1
83 5.7284640e+08 1.86e+05 2.24e+00 -3.8 3.50e+06 - 1.00e+00 1.00e+00h 1
84 5.7284639e+08 1.54e+05 5.32e+01 -3.8 7.37e+03 -7.3 2.29e-02 1.69e-01h 1
85 5.7284637e+08 1.54e+05 6.15e+01 -3.8 4.86e+05 - 1.00e+00 1.72e-04h 1
86 5.7284607e+08 6.05e+02 5.27e+00 -3.8 2.23e+05 - 1.00e+00 1.00e+00h 1
87 5.7284607e+08 2.10e-04 5.24e-06 -3.8 2.31e+01 -7.8 1.00e+00 1.00e+00h 1
88 5.7284601e+08 8.91e-05 2.97e-01 -5.7 5.27e+01 -8.3 1.00e+00 9.13e-01f 1
89 5.7284600e+08 1.94e-04 5.55e-01 -5.7 1.10e+02 -8.8 1.00e+00 8.73e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90 5.7284600e+08 3.35e-04 8.61e-02 -5.7 2.52e+02 -9.2 1.00e+00 4.21e-01f 1
91 5.7284600e+08 5.47e-04 7.24e-01 -5.7 5.17e+02 -9.7 1.00e+00 1.84e-01f 1
92 5.7284600e+08 3.13e-03 7.02e-01 -5.7 1.08e+03 -10.2 1.00e+00 2.95e-01f 1
93 5.7284600e+08 1.95e-02 5.15e-01 -5.7 2.37e+03 -10.7 1.00e+00 3.19e-01f 1
94 5.7284599e+08 2.58e-02 3.33e-05 -5.7 1.33e+03 -11.2 1.00e+00 1.00e+00f 1
95 5.7284599e+08 2.53e-01 1.12e-06 -5.7 4.17e+03 -11.6 1.00e+00 1.00e+00h 1
96 5.7284599e+08 2.24e+00 1.05e-06 -5.7 1.24e+04 -12.1 1.00e+00 1.00e+00h 1
97 5.7284597e+08 2.02e+01 2.49e-06 -5.7 3.73e+04 -12.6 1.00e+00 1.00e+00h 1
98 5.7284593e+08 1.85e+02 2.27e-05 -5.7 1.13e+05 -13.1 1.00e+00 1.00e+00h 1
99 5.7284579e+08 1.76e+03 2.15e-04 -5.7 3.48e+05 -13.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100 5.7284534e+08 1.87e+04 2.28e-03 -5.7 1.13e+06 -14.0 1.00e+00 1.00e+00h 1
101 5.7284340e+08 2.90e+05 3.51e-02 -5.7 4.43e+06 -14.5 1.00e+00 1.00e+00h 1
102 5.7283325e+08 4.94e+06 5.85e-01 -5.7 4.48e+07 -15.0 9.37e-01 3.96e-01h 1
103 5.7282055e+08 1.43e+06 2.02e-01 -5.7 8.90e+06 -14.5 1.00e+00 1.00e+00h 1
104 5.7281504e+08 1.72e+06 2.29e-01 -5.7 1.22e+08 -15.0 5.17e-01 3.52e-02h 1
105 5.7281372e+08 8.89e+05 2.54e-01 -5.7 8.83e+05 - 1.00e+00 4.78e-01h 1
106 5.7281268e+08 3.76e+03 1.23e-03 -5.7 8.27e+04 - 1.00e+00 1.00e+00h 1
107 5.7281268e+08 1.08e-01 3.34e-11 -5.7 1.14e+02 - 1.00e+00 1.00e+00h 1
108 5.7281268e+08 6.38e-06 8.50e-12 -8.6 2.38e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 108
(scaled) (unscaled)
Objective...............: 5.7281268323415483e+04 5.7281268323415482e+08
Dual infeasibility......: 8.5019087888753899e-12 8.5019087888753899e-08
Constraint violation....: 2.5611370801925659e-09 6.3776969909667969e-06
Complementarity.........: 2.5492975905363494e-09 2.5492975905363491e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5492975905363491e-05
Number of objective function evaluations = 109
Number of objective gradient evaluations = 109
Number of equality constraint evaluations = 109
Number of inequality constraint evaluations = 109
Number of equality constraint Jacobian evaluations = 109
Number of inequality constraint Jacobian evaluations = 109
Number of Lagrangian Hessian evaluations = 108
Total CPU secs in IPOPT (w/o function evaluations) = 4.621
Total CPU secs in NLP function evaluations = 131.247
EXIT: Optimal Solution Found.
Implemented Power (MPC) 434
Realized SOC (MPC) 2159066
Fixed costs: 55834.68
Variable costs: 25392.33
Number on/offs: 1
Sum on/off ramps: 0.00
Sum nominal ramps: 229.00
Simulating time_step 2020-07-11 01:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.7301268e+08 1.01e+06 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.7300678e+08 1.01e+06 9.90e+01 -1.0 1.59e+06 - 3.46e-04 3.25e-04h 1
2 5.7333100e+08 1.00e+06 1.00e+02 -1.0 1.01e+06 - 3.51e-04 1.60e-03h 1
3 5.7405854e+08 1.00e+06 1.00e+02 -1.0 1.00e+06 - 1.92e-03 3.30e-03h 1
4 5.7544561e+08 9.94e+05 9.97e+01 -1.0 1.00e+06 - 5.33e-03 6.13e-03h 1
5 5.7838561e+08 9.81e+05 9.85e+01 -1.0 9.94e+05 - 1.25e-02 1.29e-02h 1
6 5.9261953e+08 9.19e+05 9.78e+01 -1.0 9.81e+05 - 3.47e-02 6.31e-02h 1
7 6.1690470e+08 8.14e+05 8.02e+01 -1.0 9.19e+05 - 2.98e-01 1.15e-01h 1
8 7.2364379e+08 3.49e+05 5.89e+01 -1.0 8.14e+05 - 2.98e-01 5.71e-01h 1
9 7.2495839e+08 3.43e+05 3.81e+02 -1.0 3.49e+05 - 7.71e-01 1.65e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.8657506e+08 6.58e+04 3.43e+01 -1.0 8.15e+05 - 7.76e-01 8.08e-01h 1
11 7.8669874e+08 6.43e+04 8.46e+02 -1.0 2.74e+06 - 3.35e-01 2.31e-02h 1
12 7.8678772e+08 6.02e+04 1.08e+03 -1.0 4.17e+06 - 2.13e-01 6.42e-02h 1
13 7.8646712e+08 4.78e+04 7.52e+02 -1.0 5.28e+06 - 7.75e-03 2.06e-01h 1
14 7.8637423e+08 4.67e+04 8.40e+02 -1.0 5.30e+06 - 7.52e-01 2.23e-02h 1
15 7.6716134e+08 2.86e+04 4.04e+02 -1.0 2.09e+07 - 4.25e-02 3.89e-01f 1
16 7.6692532e+08 2.84e+04 6.43e+02 -1.0 2.15e+07 - 7.70e-01 4.30e-03f 1
17 7.6049930e+08 2.76e+04 6.25e+02 -1.0 8.54e+07 - 2.34e-02 3.04e-02f 1
18 7.5869244e+08 2.73e+04 4.87e+02 -1.0 8.70e+07 - 1.23e-01 9.45e-03f 1
19 6.5212220e+08 5.21e+05 6.78e+02 -1.0 9.74e+07 - 8.33e-02 4.94e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.5100986e+08 5.19e+05 2.15e+02 -1.0 9.60e+07 - 7.88e-01 4.94e-03f 1
21 6.3782524e+08 5.11e+05 2.12e+02 -1.0 9.51e+08 - 1.22e-01 1.48e-02f 1
22 6.1565674e+08 5.02e+05 2.08e+02 -1.0 1.58e+09 - 4.45e-02 1.76e-02f 1
23 6.1501059e+08 5.02e+05 2.08e+02 -1.0 3.30e+08 - 3.91e-01 1.21e-03f 1
24 5.8404445e+08 4.71e+05 1.97e+02 -1.0 4.06e+08 - 5.27e-01 6.13e-02f 1
25 5.8067284e+08 4.65e+05 2.04e+02 -1.0 3.55e+08 - 2.10e-01 1.26e-02f 1
26 5.7092275e+08 4.42e+05 3.44e+02 -1.0 2.83e+08 - 2.48e-01 4.81e-02f 1
27 5.7070335e+08 4.19e+05 1.91e+02 -1.0 1.31e+07 - 6.44e-01 5.33e-02h 1
28 5.6965451e+08 1.38e+06 1.54e+02 -1.0 3.88e+07 - 4.67e-02 1.82e-01f 1
29 5.6951107e+08 1.36e+06 1.49e+02 -1.0 2.90e+07 - 4.27e-01 2.88e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.6691487e+08 1.72e+07 9.27e+01 -1.0 1.96e+07 - 7.80e-02 1.00e+00f 1
31 5.6632694e+08 1.56e+07 4.58e+01 -1.0 3.65e+07 - 4.63e-01 1.15e-01f 1
32 5.6124382e+08 5.19e+07 1.19e+02 -1.0 4.18e+07 - 4.50e-01 9.34e-01f 1
33 5.6124851e+08 4.93e+07 1.42e+03 -1.0 6.69e+04 -4.0 4.01e-02 5.01e-02h 1
34 5.6124693e+08 4.91e+07 1.42e+03 -1.0 3.45e+06 - 6.07e-02 4.45e-03h 1
35 5.6127939e+08 4.23e+07 2.21e+04 -1.0 3.85e+06 - 3.62e-01 1.38e-01h 1
36 5.6147820e+08 2.90e+06 8.10e+05 -1.0 3.24e+06 - 2.06e-01 9.57e-01h 1
37 5.6140096e+08 2.23e+06 6.23e+05 -1.0 2.21e+06 - 9.81e-01 2.30e-01h 1
38 5.6105767e+08 4.44e+05 1.12e+04 -1.0 2.62e+06 - 1.00e+00 1.00e+00f 1
39 5.6105804e+08 4.62e+01 3.12e+00 -1.0 3.76e+02 -4.5 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.6096323e+08 1.45e+04 7.29e+02 -2.5 2.29e+06 - 9.82e-01 2.59e-01f 1
41 5.6095453e+08 1.47e+04 6.79e+02 -2.5 2.20e+06 - 1.00e+00 7.05e-02f 1
42 5.6083823e+08 2.38e+05 2.32e+03 -2.5 2.27e+06 - 1.00e+00 9.46e-01f 1
43 5.6065651e+08 1.17e+06 2.05e+03 -2.5 3.21e+07 - 1.00e+00 1.35e-01f 1
44 5.6065603e+08 1.17e+06 2.04e+03 -2.5 4.64e+06 - 1.00e+00 2.68e-03h 1
45 5.6065705e+08 1.00e+04 2.63e+02 -2.5 9.07e+05 - 1.00e+00 1.00e+00h 1
46 5.6065708e+08 7.23e+03 1.90e+02 -2.5 3.90e+02 -5.0 4.89e-01 2.79e-01h 1
47 5.6065703e+08 7.17e+03 1.89e+02 -2.5 5.77e+04 - 1.00e+00 8.01e-03h 1
48 5.6065705e+08 4.35e+01 1.05e+01 -2.5 5.84e+04 - 1.00e+00 1.00e+00h 1
49 5.6065705e+08 7.15e-07 5.34e-06 -2.5 1.43e+00 -5.4 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.6064996e+08 8.45e+04 6.84e-01 -3.8 1.46e+07 - 8.56e-01 1.90e-01f 1
51 5.6064886e+08 1.15e+01 1.41e-02 -3.8 1.08e+04 - 9.87e-01 1.00e+00h 1
52 5.6064886e+08 3.58e-07 4.84e-06 -3.8 2.24e+00 -5.9 1.00e+00 1.00e+00h 1
53 5.6064883e+08 7.87e-01 1.44e+01 -5.7 1.43e+05 - 8.29e-01 6.50e-02f 1
54 5.6064879e+08 9.15e-02 2.67e+00 -5.7 5.56e+00 -6.4 9.86e-01 8.84e-01h 1
55 5.6064879e+08 9.21e-02 2.65e+00 -5.7 4.19e+07 - 2.13e-03 6.02e-06f 1
56 5.6064877e+08 4.37e+00 7.41e+00 -5.7 6.00e+05 - 9.68e-01 2.00e-02f 1
57 5.6064876e+08 9.61e+01 4.56e+00 -5.7 1.47e+05 - 2.14e-01 3.78e-01h 1
58 5.6064874e+08 1.10e+04 7.51e-01 -5.7 5.97e+05 - 1.00e+00 1.00e+00h 1
59 5.6064874e+08 6.19e+02 4.88e+01 -5.7 2.84e+02 -6.9 1.91e-01 9.44e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.6064874e+08 6.19e+02 6.12e+01 -5.7 2.52e+05 - 1.00e+00 1.17e-06h 2
61 5.6064874e+08 8.57e+00 2.76e-01 -5.7 1.78e+04 - 1.00e+00 1.00e+00h 1
62 5.6064874e+08 4.77e-07 1.12e-08 -5.7 2.46e-01 -7.3 1.00e+00 1.00e+00h 1
63 5.6064873e+08 7.15e-07 1.86e-02 -8.6 3.48e+00 -7.8 9.99e-01 9.45e-01h 1
64 5.6064873e+08 6.17e-07 6.89e-02 -8.6 3.17e+00 -8.3 1.00e+00 7.35e-01f 1
In iteration 64, 1 Slack too small, adjusting variable bound
65 5.6064873e+08 5.66e-07 1.35e-02 -8.6 8.18e-01 -8.8 1.00e+00 9.11e-01f 1
66 5.6064873e+08 7.15e-07 1.37e-09 -8.6 2.43e+00 -9.2 1.00e+00 1.00e+00h 1
Number of Iterations....: 66
(scaled) (unscaled)
Objective...............: 5.6064873468423284e+04 5.6064873468423283e+08
Dual infeasibility......: 1.3744437462968849e-09 1.3744437462968849e-05
Constraint violation....: 3.7252902984619141e-09 7.1525573730468750e-07
Complementarity.........: 2.5150381291695171e-09 2.5150381291695169e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5150381291695169e-05
Number of objective function evaluations = 68
Number of objective gradient evaluations = 67
Number of equality constraint evaluations = 68
Number of inequality constraint evaluations = 68
Number of equality constraint Jacobian evaluations = 67
Number of inequality constraint Jacobian evaluations = 67
Number of Lagrangian Hessian evaluations = 66
Total CPU secs in IPOPT (w/o function evaluations) = 3.028
Total CPU secs in NLP function evaluations = 81.132
EXIT: Optimal Solution Found.
Implemented Power (MPC) 448
Realized SOC (MPC) 2706928
Fixed costs: 55834.68
Variable costs: 21472.26
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 177.75
Simulating time_step 2020-07-11 02:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.6084873e+08 5.48e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.6084283e+08 5.48e+05 9.90e+01 -1.0 1.51e+06 - 3.46e-04 3.25e-04h 1
2 5.6115427e+08 5.47e+05 1.00e+02 -1.0 5.80e+05 - 3.51e-04 1.53e-03h 1
3 5.6188938e+08 5.45e+05 1.00e+02 -1.0 5.47e+05 - 1.84e-03 3.31e-03h 1
4 5.6327088e+08 5.42e+05 9.97e+01 -1.0 5.45e+05 - 5.26e-03 6.03e-03h 1
5 5.6865437e+08 5.29e+05 9.96e+01 -1.0 5.42e+05 - 1.23e-02 2.34e-02h 1
6 5.8935459e+08 4.81e+05 8.69e+01 -1.0 5.29e+05 - 4.60e-01 9.17e-02h 1
7 6.9887425e+08 2.23e+05 5.49e+01 -1.0 4.81e+05 - 1.35e-01 5.35e-01h 1
8 7.7590662e+08 4.18e+04 7.55e+00 -1.0 2.23e+05 - 8.87e-01 8.13e-01h 1
9 7.7921826e+08 3.09e+04 4.56e+01 -1.0 1.28e+06 - 3.97e-02 2.60e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.7938613e+08 3.03e+04 5.67e+01 -1.0 1.33e+06 - 5.48e-01 1.97e-02h 1
11 7.8114458e+08 9.59e+03 8.27e+01 -1.0 2.95e+06 - 1.09e-01 6.84e-01h 1
12 7.8108901e+08 9.51e+03 8.39e+01 -1.0 3.29e+06 - 7.56e-01 7.67e-03h 1
13 7.6031585e+08 1.33e+04 4.02e+01 -1.0 1.33e+07 - 1.65e-01 5.90e-01f 1
14 7.6006988e+08 1.32e+04 4.02e+01 -1.0 1.57e+07 - 5.69e-01 5.57e-03f 1
15 6.9220195e+08 1.61e+05 4.40e+01 -1.0 3.54e+07 - 3.41e-01 7.67e-01f 1
16 6.9153616e+08 1.60e+05 2.16e+01 -1.0 5.03e+07 - 3.92e-01 5.08e-03f 1
17 6.3481929e+08 2.54e+05 3.79e+01 -1.0 7.90e+07 - 1.51e-01 3.17e-01f 1
18 6.3422227e+08 2.53e+05 4.74e+01 -1.0 8.41e+07 - 8.60e-01 2.97e-03f 1
19 6.3422520e+08 2.44e+05 1.10e+02 -1.0 3.48e+04 -4.0 5.66e-03 3.50e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.3422530e+08 2.44e+05 1.07e+02 -1.0 3.37e+04 -4.5 4.65e-02 1.10e-03h 1
21 6.3424746e+08 1.91e+05 3.52e+02 -1.0 3.37e+04 -5.0 1.99e-01 2.16e-01h 1
22 6.3424826e+08 1.89e+05 4.66e+03 -1.0 2.64e+04 -5.4 1.56e-01 9.54e-03h 1
23 6.3433241e+08 6.18e+01 4.86e+03 -1.0 2.62e+04 -5.9 4.69e-01 1.00e+00h 1
24 6.3419439e+08 9.65e+02 5.03e+03 -1.0 3.75e+07 - 2.39e-02 3.74e-03f 1
25 6.3419674e+08 6.48e-04 4.45e+03 -1.0 2.79e+02 -6.4 5.13e-01 1.00e+00h 1
26 5.9019387e+08 3.56e+05 4.44e+03 -1.0 8.61e+09 - 2.95e-03 5.24e-03f 1
27 5.8956228e+08 3.56e+05 4.35e+03 -1.0 4.17e+09 - 2.02e-02 1.09e-04f 1
28 5.6138368e+08 3.53e+05 4.21e+03 -1.0 2.47e+09 - 3.11e-02 8.90e-03f 1
29 5.6006483e+08 3.52e+05 3.70e+03 -1.0 1.61e+09 - 1.22e-01 1.01e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.5058523e+08 3.46e+05 2.64e+03 -1.0 7.72e+08 - 2.86e-01 1.71e-02f 1
31 5.5021960e+08 3.22e+05 8.06e+02 -1.0 2.72e+07 - 6.94e-01 7.04e-02f 1
32 5.4926393e+08 1.47e+06 4.80e+02 -1.0 9.77e+07 - 4.01e-01 7.29e-02f 1
33 5.4918214e+08 1.42e+06 2.93e+02 -1.0 4.09e+07 - 3.40e-01 3.47e-02h 1
34 5.4917950e+08 1.35e+06 2.89e+02 -1.0 9.14e+04 -6.9 3.32e-02 5.04e-02h 1
35 5.4913772e+08 1.33e+06 2.88e+02 -1.0 5.03e+07 - 4.97e-03 1.31e-02h 1
36 5.4913869e+08 1.06e+06 2.76e+02 -1.0 8.63e+04 -7.3 7.77e-02 2.02e-01h 1
37 5.4914838e+08 3.63e+02 2.24e+02 -1.0 6.83e+04 -7.8 2.35e-01 1.00e+00h 1
38 5.4908142e+08 1.58e+03 2.18e+02 -1.0 4.34e+07 - 2.17e-02 6.67e-03f 1
39 5.4871677e+08 6.29e+05 1.77e+02 -1.0 8.48e+07 - 3.78e-01 8.59e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.4827205e+08 2.71e+06 1.60e+02 -1.0 1.24e+08 - 6.48e-02 9.05e-02f 1
41 5.4609206e+08 3.28e+07 3.49e+02 -1.0 8.32e+07 - 5.23e-01 6.49e-01f 1
42 5.4603417e+08 1.42e+07 1.39e+02 -1.0 9.67e+06 - 7.17e-01 5.70e-01h 1
43 5.4603276e+08 1.41e+07 1.38e+02 -1.0 2.95e+07 - 4.15e-01 9.55e-03h 1
44 5.4597699e+08 1.35e+07 9.28e+01 -1.0 3.69e+07 - 2.53e-02 1.00e+00h 1
45 5.4584716e+08 1.41e+07 6.76e+01 -1.0 7.93e+07 - 5.76e-01 2.85e-01h 1
46 5.4586246e+08 5.79e+05 1.36e+00 -1.0 1.20e+06 - 9.67e-01 1.00e+00h 1
47 5.4585861e+08 1.46e+04 2.27e-02 -1.0 1.07e+05 - 1.00e+00 1.00e+00h 1
48 5.4585873e+08 1.45e+01 1.13e-04 -1.0 2.29e+04 - 1.00e+00 1.00e+00h 1
49 5.4582765e+08 7.76e+04 1.88e+01 -2.5 6.07e+06 - 9.74e-01 4.68e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.4580675e+08 1.39e+04 3.40e+00 -2.5 3.90e+05 - 1.00e+00 8.28e-01h 1
51 5.4580286e+08 4.24e+00 1.08e-04 -2.5 2.38e+04 - 1.00e+00 1.00e+00h 1
52 5.4580154e+08 1.05e+01 1.55e-05 -3.8 3.38e+04 - 1.00e+00 1.00e+00h 1
53 5.4580154e+08 6.07e-03 2.17e-09 -3.8 8.07e+02 - 1.00e+00 1.00e+00h 1
54 5.4580147e+08 2.92e-02 4.52e-08 -5.7 1.78e+03 - 1.00e+00 1.00e+00f 1
55 5.4580147e+08 4.05e-06 6.22e-12 -8.6 1.96e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 55
(scaled) (unscaled)
Objective...............: 5.4580146882087829e+04 5.4580146882087827e+08
Dual infeasibility......: 6.2218947569154712e-12 6.2218947569154712e-08
Constraint violation....: 3.7252902984619141e-09 4.0531158447265625e-06
Complementarity.........: 2.5288444772072871e-09 2.5288444772072870e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5288444772072870e-05
Number of objective function evaluations = 56
Number of objective gradient evaluations = 56
Number of equality constraint evaluations = 56
Number of inequality constraint evaluations = 56
Number of equality constraint Jacobian evaluations = 56
Number of inequality constraint Jacobian evaluations = 56
Number of Lagrangian Hessian evaluations = 55
Total CPU secs in IPOPT (w/o function evaluations) = 2.811
Total CPU secs in NLP function evaluations = 74.170
EXIT: Optimal Solution Found.
Implemented Power (MPC) 447
Realized SOC (MPC) 3290366
Fixed costs: 55834.68
Variable costs: 16496.14
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 242.30
Simulating time_step 2020-07-11 03:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.4600147e+08 5.83e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.4599557e+08 5.83e+05 9.90e+01 -1.0 1.57e+06 - 3.46e-04 3.25e-04h 1
2 5.4631724e+08 5.82e+05 1.00e+02 -1.0 5.83e+05 - 3.51e-04 1.53e-03h 1
3 5.4710244e+08 5.80e+05 1.00e+02 -1.0 5.82e+05 - 1.84e-03 3.31e-03h 1
4 5.4978954e+08 5.74e+05 1.00e+02 -1.0 5.80e+05 - 5.26e-03 1.11e-02h 1
5 5.6011271e+08 5.49e+05 9.95e+01 -1.0 5.74e+05 - 2.45e-02 4.28e-02h 1
6 5.7381970e+08 5.17e+05 8.77e+01 -1.0 5.49e+05 - 2.06e-01 5.93e-02h 1
7 7.3449341e+08 1.35e+05 1.05e+02 -1.0 5.17e+05 - 1.91e-01 7.40e-01h 1
8 7.6624181e+08 5.85e+04 1.16e+01 -1.0 1.35e+05 - 9.49e-01 5.65e-01h 1
9 7.6794608e+08 5.25e+04 1.06e+01 -1.0 2.04e+06 - 1.49e-01 1.03e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.6898297e+08 4.87e+04 3.15e+01 -1.0 2.41e+06 - 3.91e-01 7.34e-02h 1
11 7.7130451e+08 3.35e+04 1.26e+01 -1.0 3.99e+06 - 1.71e-01 3.12e-01h 1
12 7.7129979e+08 3.32e+04 1.09e+03 -1.0 4.79e+06 - 6.64e-01 9.93e-03h 1
13 7.5459518e+08 1.52e+04 8.51e+01 -1.0 1.41e+07 - 1.33e-01 5.99e-01f 1
14 7.5435780e+08 1.51e+04 4.53e+02 -1.0 1.60e+07 - 5.75e-01 5.71e-03f 1
15 6.8877781e+08 1.62e+05 4.67e+01 -1.0 3.66e+07 - 3.34e-01 7.40e-01f 1
16 6.8811255e+08 1.61e+05 4.64e+01 -1.0 5.14e+07 - 3.51e-01 4.87e-03f 1
17 6.2388223e+08 2.50e+05 3.04e+02 -1.0 7.62e+07 - 7.73e-02 3.31e-01f 1
18 6.2320193e+08 2.49e+05 1.92e+02 -1.0 7.62e+07 - 3.58e-01 3.29e-03f 1
19 6.1702843e+08 2.42e+05 5.08e+02 -1.0 1.07e+08 - 7.21e-01 2.62e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.0284302e+08 2.38e+05 4.86e+02 -1.0 7.68e+08 - 3.67e-02 1.57e-02f 1
21 6.0284564e+08 2.37e+05 5.74e+02 -1.0 4.14e+04 -4.0 3.41e-03 4.88e-03h 1
22 6.0249329e+08 2.33e+05 1.12e+03 -1.0 1.22e+07 - 4.80e-01 1.83e-02f 1
23 5.9086448e+08 3.76e+05 1.58e+04 -1.0 1.51e+07 - 8.19e-03 5.66e-01f 1
24 5.8824435e+08 3.61e+05 1.52e+04 -1.0 3.37e+07 - 1.52e-01 5.24e-02f 1
25 5.6384183e+08 1.04e+06 1.92e+04 -1.0 3.80e+07 - 5.81e-02 4.43e-01f 1
26 5.6356450e+08 1.04e+06 1.92e+04 -1.0 5.40e+07 - 3.17e-01 3.27e-03f 1
27 5.5658040e+08 9.44e+05 1.71e+04 -1.0 6.14e+07 - 1.44e-02 1.14e-01f 1
28 5.4282781e+08 4.34e+06 1.44e+04 -1.0 8.33e+07 - 1.56e-01 1.74e-01f 1
29 5.4264725e+08 4.34e+06 1.43e+04 -1.0 2.07e+08 - 3.92e-02 1.05e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.4129299e+08 4.38e+06 1.43e+04 -1.0 2.51e+08 - 1.93e-03 6.77e-03f 1
31 5.4125750e+08 4.38e+06 1.42e+04 -1.0 4.94e+07 - 2.02e-01 8.21e-04f 1
32 5.4039431e+08 4.25e+06 1.38e+04 -1.0 4.92e+07 - 2.40e-01 2.92e-02f 1
33 5.3704540e+08 3.83e+06 1.23e+04 -1.0 5.04e+07 - 2.28e-01 1.10e-01f 1
34 5.3698858e+08 3.80e+06 1.22e+04 -1.0 7.85e+06 - 3.46e-01 7.80e-03f 1
35 5.3665059e+08 3.31e+06 1.05e+04 -1.0 5.80e+06 - 2.41e-01 1.36e-01f 1
36 5.3630592e+08 2.25e+06 7.30e+03 -1.0 8.11e+06 - 7.23e-01 3.43e-01f 1
37 5.3596779e+08 1.61e+06 5.35e+03 -1.0 5.76e+06 - 3.33e-01 2.95e-01f 1
38 5.3594203e+08 1.57e+06 5.24e+03 -1.0 2.71e+07 - 1.92e-01 2.14e-02h 1
39 5.3470112e+08 8.03e+06 2.53e+03 -1.0 3.12e+07 - 6.38e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.3455284e+08 7.93e+06 2.46e+03 -1.0 1.27e+08 - 2.20e-01 2.91e-02f 1
41 5.3308089e+08 2.74e+07 1.53e+03 -1.0 9.13e+07 - 6.13e-01 4.02e-01f 1
42 5.3292261e+08 1.92e+07 9.87e+02 -1.0 1.12e+07 - 9.91e-01 3.56e-01h 1
43 5.3292244e+08 1.86e+07 9.56e+02 -1.0 1.54e+06 - 1.00e+00 3.04e-02h 1
44 5.3298197e+08 2.19e+06 2.63e+00 -1.0 1.44e+06 - 7.86e-01 1.00e+00h 1
45 5.3301708e+08 1.65e+05 1.82e-01 -1.0 8.67e+05 - 1.00e+00 1.00e+00h 1
46 5.3301487e+08 6.91e+02 3.31e-04 -1.0 6.13e+04 - 1.00e+00 1.00e+00h 1
47 5.3298116e+08 7.43e+04 1.53e+01 -2.5 4.54e+06 - 9.50e-01 5.39e-01f 1
48 5.3296169e+08 6.73e+03 1.40e+00 -2.5 2.97e+05 - 1.00e+00 9.19e-01h 1
49 5.3296030e+08 1.54e+00 1.91e-05 -2.5 5.24e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.3295898e+08 1.53e+01 1.81e-05 -3.8 3.56e+04 - 1.00e+00 1.00e+00f 1
51 5.3295898e+08 6.29e-03 2.27e-09 -3.8 7.16e+02 - 1.00e+00 1.00e+00h 1
52 5.3295891e+08 4.31e-02 5.33e-08 -5.7 1.89e+03 - 1.00e+00 1.00e+00f 1
53 5.3295891e+08 5.30e-06 7.36e-12 -8.6 2.13e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 53
(scaled) (unscaled)
Objective...............: 5.3295890835198108e+04 5.3295890835198104e+08
Dual infeasibility......: 7.3609083714902204e-12 7.3609083714902204e-08
Constraint violation....: 2.5611370801925659e-09 5.3048133850097656e-06
Complementarity.........: 2.5286620261672731e-09 2.5286620261672730e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5286620261672730e-05
Number of objective function evaluations = 54
Number of objective gradient evaluations = 54
Number of equality constraint evaluations = 54
Number of inequality constraint evaluations = 54
Number of equality constraint Jacobian evaluations = 54
Number of inequality constraint Jacobian evaluations = 54
Number of Lagrangian Hessian evaluations = 53
Total CPU secs in IPOPT (w/o function evaluations) = 3.480
Total CPU secs in NLP function evaluations = 82.065
EXIT: Optimal Solution Found.
Implemented Power (MPC) 446
Realized SOC (MPC) 3335770
Fixed costs: 55834.68
Variable costs: 14669.23
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 86.32
Simulating time_step 2020-07-11 04:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.3315891e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.3315305e+08 1.00e+05 9.90e+01 -1.0 1.56e+06 - 3.46e-04 3.25e-04h 1
2 5.3341857e+08 9.98e+04 9.98e+01 -1.0 4.67e+05 - 3.51e-04 1.44e-03h 1
3 5.3413488e+08 9.95e+04 1.00e+02 -1.0 2.61e+05 - 1.76e-03 3.32e-03h 1
4 5.3555249e+08 9.89e+04 9.98e+01 -1.0 1.56e+05 - 5.18e-03 6.41e-03h 1
5 5.4074693e+08 9.65e+04 9.96e+01 -1.0 1.55e+05 - 1.26e-02 2.34e-02h 1
6 5.5789769e+08 8.89e+04 8.81e+01 -1.0 1.51e+05 - 4.92e-01 7.89e-02h 1
7 6.7584584e+08 3.64e+04 5.54e+01 -1.0 1.55e+05 - 1.23e-01 5.90e-01h 1
8 7.5060884e+08 3.04e+03 3.01e+00 -1.0 1.22e+05 - 9.84e-01 9.17e-01h 1
9 7.5043011e+08 3.01e+03 1.07e+02 -1.0 8.72e+06 - 9.35e-02 9.03e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.4819183e+08 2.72e+03 1.14e+02 -1.0 9.75e+06 - 1.17e-01 1.04e-01f 1
11 7.4709243e+08 2.61e+03 4.94e+02 -1.0 1.10e+07 - 3.44e-01 4.29e-02f 1
12 7.4262615e+08 2.45e+03 4.43e+02 -1.0 1.66e+07 - 1.31e-01 1.20e-01f 1
13 7.2893272e+08 5.32e+03 8.63e+02 -1.0 1.90e+07 - 7.45e-01 3.09e-01f 1
14 7.2851946e+08 5.31e+03 8.42e+02 -1.0 6.83e+07 - 3.51e-02 2.30e-03f 1
15 6.7224880e+08 7.35e+04 7.61e+02 -1.0 7.05e+07 - 6.68e-02 3.15e-01f 1
16 6.7164620e+08 7.33e+04 4.89e+02 -1.0 7.22e+07 - 2.63e-01 3.06e-03f 1
17 6.3345858e+08 9.78e+04 4.50e+02 -1.0 9.43e+07 - 1.11e-01 1.69e-01f 1
18 6.3299928e+08 9.76e+04 2.28e+02 -1.0 1.01e+08 - 3.89e-01 1.86e-03f 1
19 6.2431696e+08 9.69e+04 1.83e+02 -1.0 1.61e+08 - 1.68e-01 2.53e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.2030073e+08 9.54e+04 3.25e+02 -1.0 2.11e+08 - 4.50e-01 1.58e-02f 1
21 6.0674084e+08 1.15e+05 3.25e+02 -1.0 6.16e+08 - 4.79e-02 2.82e-02f 1
22 6.0587263e+08 1.16e+05 4.21e+02 -1.0 7.17e+08 - 2.06e-01 2.13e-03f 1
23 5.9319891e+08 2.03e+05 4.07e+02 -1.0 1.23e+09 - 2.35e-03 1.90e-02f 1
24 5.9266563e+08 2.03e+05 4.04e+02 -1.0 1.44e+08 - 2.74e-04 3.35e-03f 1
25 5.9058808e+08 2.00e+05 3.98e+02 -1.0 1.59e+08 - 1.59e-02 1.55e-02f 1
26 5.5640964e+08 3.42e+05 2.18e+02 -1.0 1.65e+08 - 2.18e-02 2.46e-01f 1
27 5.5606420e+08 3.42e+05 3.68e+02 -1.0 1.47e+08 - 4.21e-01 2.73e-03f 1
28 5.5605077e+08 3.32e+05 4.66e+02 -1.0 2.41e+06 - 5.51e-01 2.70e-02h 1
29 5.5529091e+08 5.41e+05 3.53e+01 -1.0 5.23e+06 - 1.23e-02 8.16e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.5527300e+08 5.34e+05 8.67e+01 -1.0 5.03e+06 - 8.45e-01 1.37e-02h 1
31 5.5121198e+08 4.77e+07 1.96e+01 -1.0 3.83e+07 - 7.04e-02 1.00e+00f 1
32 5.4872992e+08 3.02e+07 1.65e+01 -1.0 4.80e+07 - 2.23e-01 5.67e-01f 1
33 5.4806980e+08 2.67e+07 4.34e+01 -1.0 5.20e+07 - 4.11e-01 1.44e-01f 1
34 5.4327548e+08 5.51e+07 5.46e+00 -1.0 5.86e+07 - 5.78e-01 9.30e-01f 1
35 5.4303973e+08 2.85e+07 8.05e+00 -1.0 1.77e+07 - 8.86e-01 4.79e-01h 1
36 5.4295512e+08 2.37e+07 7.21e+00 -1.0 1.04e+08 - 3.74e-01 1.69e-01h 1
37 5.4290104e+08 1.90e+07 6.82e+00 -1.0 2.97e+07 - 8.91e-01 1.97e-01h 1
38 5.4281860e+08 2.03e+06 7.92e-01 -1.0 8.72e+06 - 9.87e-01 8.90e-01h 1
39 5.4281353e+08 9.88e+04 1.47e-02 -1.0 2.45e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.4281295e+08 5.14e+02 4.18e-04 -1.0 1.58e+05 - 1.00e+00 1.00e+00h 1
41 5.4277846e+08 1.97e+05 1.41e+01 -2.5 7.56e+06 - 8.89e-01 5.12e-01f 1
42 5.4276018e+08 3.81e+04 3.48e+00 -2.5 3.60e+05 - 1.00e+00 8.09e-01h 1
43 5.4275629e+08 1.26e+02 1.59e-04 -2.5 5.49e+04 - 1.00e+00 1.00e+00h 1
44 5.4275496e+08 1.82e+01 2.46e-02 -3.8 3.81e+04 - 9.76e-01 1.00e+00h 1
45 5.4275496e+08 1.62e-01 3.67e-08 -3.8 2.61e+03 - 1.00e+00 1.00e+00h 1
46 5.4275489e+08 8.91e-02 8.78e-08 -5.7 1.23e+03 - 1.00e+00 1.00e+00h 1
47 5.4275489e+08 2.80e-05 1.64e-11 -8.6 1.86e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 47
(scaled) (unscaled)
Objective...............: 5.4275488588326734e+04 5.4275488588326728e+08
Dual infeasibility......: 1.6355175985423827e-11 1.6355175985423827e-07
Constraint violation....: 2.5611370801925659e-09 2.7962028980255127e-05
Complementarity.........: 2.7469550421776618e-09 2.7469550421776616e-05
Overall NLP error.......: 2.7469550421776618e-09 2.7962028980255127e-05
Number of objective function evaluations = 48
Number of objective gradient evaluations = 48
Number of equality constraint evaluations = 48
Number of inequality constraint evaluations = 48
Number of equality constraint Jacobian evaluations = 48
Number of inequality constraint Jacobian evaluations = 48
Number of Lagrangian Hessian evaluations = 47
Total CPU secs in IPOPT (w/o function evaluations) = 3.606
Total CPU secs in NLP function evaluations = 73.713
EXIT: Optimal Solution Found.
Implemented Power (MPC) 440
Realized SOC (MPC) 2951800
Fixed costs: 55834.68
Variable costs: 12902.59
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 88.76
Simulating time_step 2020-07-11 05:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.4293489e+08 2.00e+06 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.4292466e+08 2.00e+06 9.90e+01 -1.0 1.30e+06 - 3.46e-04 3.25e-04h 1
2 5.4314322e+08 2.00e+06 9.98e+01 -1.0 1.29e+06 - 3.51e-04 1.44e-03h 1
3 5.4386008e+08 1.99e+06 1.00e+02 -1.0 1.29e+06 - 1.76e-03 3.85e-03h 1
4 5.4561940e+08 1.97e+06 9.99e+01 -1.0 1.29e+06 - 7.22e-03 9.14e-03h 1
5 5.5176589e+08 1.91e+06 9.45e+01 -1.0 1.28e+06 - 3.27e-01 3.20e-02h 1
6 6.6821656e+08 7.15e+05 9.43e+01 -1.0 1.24e+06 - 4.84e-02 6.25e-01h 1
7 6.6938133e+08 7.03e+05 6.48e+01 -1.0 4.64e+05 - 9.54e-01 1.67e-02h 1
8 6.8216832e+08 5.67e+05 5.69e+01 -1.0 7.14e+06 - 5.55e-02 1.94e-01h 1
9 7.1760947e+08 1.81e+05 2.19e+02 -1.0 5.76e+06 - 3.71e-01 6.80e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.1768765e+08 1.80e+05 5.60e+02 -1.0 3.00e+06 - 5.90e-01 8.59e-03h 1
11 7.1748294e+08 1.67e+05 1.54e+03 -1.0 7.29e+06 - 7.31e-01 7.27e-02h 1
12 7.1393764e+08 1.56e+05 1.45e+03 -1.0 2.59e+07 - 1.25e-01 6.39e-02f 1
13 7.1067698e+08 1.48e+05 1.34e+03 -1.0 2.84e+07 - 2.19e-01 4.95e-02f 1
14 7.0972069e+08 1.46e+05 1.21e+03 -1.0 3.19e+07 - 1.14e-01 1.32e-02f 1
15 7.0760358e+08 1.42e+05 7.41e+02 -1.0 3.64e+07 - 5.24e-01 2.62e-02f 1
16 7.0149473e+08 1.37e+05 7.08e+02 -1.0 8.27e+07 - 7.11e-02 3.67e-02f 1
17 6.9243916e+08 1.30e+05 6.60e+02 -1.0 9.05e+07 - 1.57e-01 4.97e-02f 1
18 6.7424462e+08 1.20e+05 6.04e+02 -1.0 1.11e+08 - 2.18e-03 8.24e-02f 1
19 6.7240426e+08 1.19e+05 6.03e+02 -1.0 1.03e+08 - 1.34e-01 8.14e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.6926029e+08 1.17e+05 5.93e+02 -1.0 1.13e+08 - 1.71e-03 1.57e-02f 1
21 6.5730211e+08 1.10e+05 5.55e+02 -1.0 1.13e+08 - 9.03e-02 5.58e-02f 1
22 6.5673972e+08 1.10e+05 5.42e+02 -1.0 1.30e+08 - 6.86e-02 2.84e-03f 1
23 6.5106932e+08 1.07e+05 5.14e+02 -1.0 1.43e+08 - 2.83e-01 2.79e-02f 1
24 6.4387020e+08 1.04e+05 4.85e+02 -1.0 2.30e+08 - 1.46e-01 3.07e-02f 1
25 6.0718885e+08 2.57e+05 4.28e+02 -1.0 2.99e+08 - 2.28e-03 1.21e-01f 1
26 6.0677702e+08 2.57e+05 4.24e+02 -1.0 3.22e+08 - 4.36e-02 1.36e-03f 1
27 6.0467803e+08 2.57e+05 3.90e+02 -1.0 3.32e+08 - 4.69e-02 1.17e-02f 1
28 6.0464915e+08 2.56e+05 2.24e+02 -1.0 3.30e+07 - 2.10e-01 3.53e-03h 1
29 6.0222585e+08 2.92e+05 5.01e+02 -1.0 3.97e+07 - 3.36e-02 7.30e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0092711e+08 2.58e+05 2.26e+02 -1.0 4.12e+07 - 7.12e-01 2.30e-01f 1
31 6.0091352e+08 2.58e+05 2.26e+02 -1.0 4.47e+07 - 9.70e-01 2.13e-03h 1
32 6.0096807e+08 2.08e+05 1.83e+02 -1.0 7.91e+06 - 7.99e-01 1.92e-01h 1
33 6.0128725e+08 2.22e+05 5.39e+00 -1.0 2.62e+06 - 3.01e-01 9.98e-01h 1
34 6.0127695e+08 1.38e+05 2.03e+00 -1.0 3.33e+06 - 9.63e-01 6.36e-01h 1
35 6.0127359e+08 2.09e+05 8.07e-02 -1.0 4.13e+06 - 5.74e-01 1.00e+00h 1
36 6.0127541e+08 1.56e+01 1.37e+03 -1.0 6.86e+03 -4.0 8.98e-01 1.00e+00h 1
37 6.0127380e+08 2.71e-01 2.87e+02 -1.0 3.61e+03 - 1.00e+00 1.00e+00h 1
38 6.0127266e+08 1.77e+05 8.78e+00 -1.0 4.01e+06 - 8.26e-01 1.00e+00f 1
39 6.0127483e+08 1.09e+01 5.12e+02 -1.0 7.80e+03 -4.5 8.17e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.0127218e+08 1.46e-01 2.18e+02 -1.0 9.25e+03 - 1.00e+00 1.00e+00h 1
41 6.0127018e+08 9.00e+05 2.19e+01 -1.0 8.58e+06 - 8.41e-01 1.00e+00f 1
42 6.0127525e+08 4.50e+05 8.55e+02 -1.0 3.46e+04 -5.0 2.07e-01 5.00e-01h 2
43 6.0127027e+08 2.36e+02 2.41e+03 -1.0 4.02e+04 - 1.00e+00 1.00e+00h 1
44 6.0127101e+08 2.11e-04 8.34e-02 -1.0 1.70e+02 -5.4 1.00e+00 1.00e+00f 1
45 6.0125679e+08 7.00e-06 2.38e-03 -1.7 7.72e+00 -5.9 1.00e+00 1.00e+00f 1
46 6.0124079e+08 4.37e+03 2.18e+01 -3.8 1.02e+07 - 8.85e-01 6.12e-02f 1
47 6.0122136e+08 8.77e+04 1.30e+01 -3.8 4.74e+06 - 8.53e-01 5.81e-01f 1
48 6.0120418e+08 1.98e+06 3.97e+01 -3.8 1.48e+07 - 1.00e+00 8.78e-01h 1
49 6.0120434e+08 1.95e+06 1.09e+02 -3.8 8.99e+04 -6.4 2.81e-04 1.47e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.0120426e+08 1.95e+06 1.11e+02 -3.8 2.08e+06 - 1.00e+00 2.50e-04h 1
51 6.0120022e+08 1.43e+05 1.08e+01 -3.8 1.25e+05 - 1.00e+00 9.26e-01h 1
52 6.0119906e+08 5.03e+03 6.27e+00 -3.8 6.76e+05 - 1.00e+00 1.00e+00h 1
53 6.0119907e+08 7.17e-03 1.89e+01 -3.8 2.80e+02 -6.9 2.13e-01 1.00e+00h 1
54 6.0119906e+08 7.14e-03 2.40e+01 -3.8 6.95e+05 - 1.00e+00 9.17e-05f 2
55 6.0119831e+08 3.51e+03 9.24e+00 -3.8 5.86e+05 - 1.00e+00 1.00e+00f 1
56 6.0119831e+08 4.24e-03 2.18e+00 -3.8 2.27e+02 -7.3 7.14e-01 1.00e+00h 1
57 6.0119830e+08 3.38e-03 7.61e+00 -3.8 2.26e+06 - 1.00e+00 1.29e-04f 2
58 6.0119538e+08 5.22e+04 1.16e+01 -3.8 2.26e+06 - 1.00e+00 1.00e+00f 1
59 6.0119532e+08 7.18e+03 3.01e+01 -3.8 3.48e+03 -7.8 1.35e-01 8.62e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.0119530e+08 7.18e+03 3.57e+01 -3.8 7.54e+05 - 1.00e+00 1.75e-04h 1
61 6.0119457e+08 2.69e+03 1.24e+01 -3.8 5.17e+05 - 1.00e+00 1.00e+00h 1
62 6.0119456e+08 2.59e-03 1.20e-04 -3.8 1.84e+02 -8.3 1.00e+00 1.00e+00h 1
63 6.0113414e+08 2.15e+07 1.68e+01 -5.7 8.30e+07 - 2.90e-01 5.19e-01f 1
64 6.0113414e+08 2.15e+07 1.68e+01 -5.7 7.23e+06 - 9.42e-01 1.45e-05h 1
65 6.0109342e+08 2.88e+05 7.53e-01 -5.7 1.66e+06 - 1.00e+00 1.00e+00h 1
66 6.0109314e+08 1.99e+02 7.57e-05 -5.7 7.99e+04 - 1.00e+00 1.00e+00h 1
67 6.0109314e+08 1.04e-04 1.85e-11 -5.7 5.19e+01 - 1.00e+00 1.00e+00h 1
68 6.0109314e+08 8.76e-06 1.25e-11 -8.6 2.71e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 68
(scaled) (unscaled)
Objective...............: 6.0109313637811698e+04 6.0109313637811697e+08
Dual infeasibility......: 1.2453084389431814e-11 1.2453084389431814e-07
Constraint violation....: 2.5611370801925659e-09 8.7618827819824219e-06
Complementarity.........: 2.5377467665750402e-09 2.5377467665750402e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5377467665750402e-05
Number of objective function evaluations = 74
Number of objective gradient evaluations = 69
Number of equality constraint evaluations = 74
Number of inequality constraint evaluations = 74
Number of equality constraint Jacobian evaluations = 69
Number of inequality constraint Jacobian evaluations = 69
Number of Lagrangian Hessian evaluations = 68
Total CPU secs in IPOPT (w/o function evaluations) = 3.553
Total CPU secs in NLP function evaluations = 94.099
EXIT: Optimal Solution Found.
Implemented Power (MPC) 411
Realized SOC (MPC) 1972390
Fixed costs: 55834.68
Variable costs: 9349.54
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 179.54
Simulating time_step 2020-07-11 06:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.0127314e+08 2.00e+06 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.0124452e+08 2.00e+06 9.90e+01 -1.0 1.82e+06 - 3.99e-04 3.71e-04h 1
2 6.0132158e+08 2.00e+06 9.98e+01 -1.0 1.82e+06 - 4.11e-04 1.55e-03h 1
3 6.0177405e+08 1.98e+06 1.01e+02 -1.0 1.82e+06 - 1.91e-03 5.70e-03h 1
4 6.0316204e+08 1.95e+06 1.01e+02 -1.0 1.81e+06 - 8.09e-03 1.58e-02h 1
5 6.0754795e+08 1.86e+06 9.19e+01 -1.0 1.79e+06 - 1.37e-01 5.01e-02h 1
6 6.2938283e+08 1.37e+06 8.79e+01 -1.0 1.76e+06 - 8.89e-02 2.63e-01h 1
7 6.3699894e+08 1.20e+06 5.97e+01 -1.0 1.38e+06 - 8.51e-01 1.25e-01h 1
8 6.3713378e+08 1.19e+06 8.96e+01 -1.0 1.84e+07 - 2.84e-02 2.16e-03h 1
9 6.3804795e+08 1.18e+06 5.89e+01 -1.0 5.61e+07 - 3.03e-03 1.10e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.4503648e+08 1.63e+05 4.59e+03 -1.0 2.02e+07 - 8.35e-05 1.00e+00h 1
11 7.4317109e+08 1.62e+02 5.48e+01 -1.0 4.63e+05 - 8.94e-01 1.00e+00f 1
12 7.4039295e+08 3.36e+02 4.59e+01 -1.0 4.54e+06 - 9.82e-01 1.59e-01f 1
13 7.3368011e+08 1.15e+03 4.55e+01 -1.0 3.10e+08 - 8.22e-03 8.31e-03f 1
14 7.2728528e+08 2.04e+03 7.68e+01 -1.0 2.99e+08 - 3.12e-02 8.66e-03f 1
15 7.2246983e+08 2.62e+03 2.44e+02 -1.0 2.92e+08 - 9.05e-02 6.87e-03f 1
16 6.7888071e+08 4.58e+04 2.11e+02 -1.0 3.39e+08 - 1.24e-02 4.88e-02f 1
17 6.7805449e+08 4.57e+04 2.41e+02 -1.0 2.95e+08 - 6.10e-02 9.91e-04f 1
18 6.4357047e+08 7.14e+04 2.78e+02 -1.0 3.30e+08 - 1.45e-01 4.22e-02f 1
19 6.4207127e+08 7.14e+04 2.99e+02 -1.0 4.57e+08 - 5.86e-02 1.66e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.2712433e+08 8.46e+04 3.68e+02 -1.0 5.19e+08 - 1.24e-01 1.75e-02f 1
21 6.0544689e+08 1.41e+05 3.74e+02 -1.0 7.22e+08 - 5.64e-02 2.56e-02f 1
22 5.8228171e+08 2.07e+05 4.24e+02 -1.0 8.65e+08 - 1.30e-01 2.39e-02f 1
23 5.8038169e+08 2.06e+05 4.82e+02 -1.0 7.07e+08 - 1.49e-01 3.30e-03f 1
24 5.7193797e+08 1.99e+05 2.14e+02 -1.0 2.33e+08 - 6.06e-01 3.58e-02f 1
25 5.7066340e+08 1.93e+05 2.61e+02 -1.0 6.05e+07 - 4.63e-01 2.89e-02f 1
26 5.6978182e+08 2.56e+05 2.40e+02 -1.0 2.64e+07 - 8.42e-02 1.50e-01f 1
27 5.6666132e+08 3.47e+06 2.11e+02 -1.0 3.30e+07 - 1.34e-01 4.35e-01f 1
28 5.6155838e+08 1.09e+07 1.13e+02 -1.0 3.99e+07 - 4.71e-01 6.01e-01f 1
29 5.6105118e+08 1.06e+07 9.74e+01 -1.0 6.74e+07 - 1.33e-01 3.57e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.6104580e+08 1.06e+07 1.12e+02 -1.0 8.45e+06 - 9.14e-01 2.81e-03h 1
31 5.6102199e+08 9.56e+06 1.24e+02 -1.0 6.21e+06 - 9.53e-01 9.96e-02h 1
32 5.6091154e+08 5.52e+06 5.79e+01 -1.0 3.68e+07 - 1.98e-01 5.29e-01h 1
33 5.6089239e+08 5.17e+05 3.11e+00 -1.0 3.39e+06 - 3.52e-01 1.00e+00h 1
34 5.6084712e+08 2.29e+06 1.76e+00 -1.0 1.38e+07 - 5.96e-01 8.65e-01h 1
35 5.6083498e+08 4.65e+05 4.88e-02 -1.0 3.34e+06 - 1.00e+00 1.00e+00h 1
36 5.6083626e+08 8.82e+03 3.34e-03 -1.0 3.49e+05 - 1.00e+00 1.00e+00h 1
37 5.6080204e+08 7.08e+04 9.24e+00 -1.7 2.75e+06 - 1.00e+00 6.99e-01f 1
38 5.6079153e+08 1.51e+02 7.55e-04 -1.7 7.37e+04 - 1.00e+00 1.00e+00h 1
39 5.6078302e+08 1.18e+03 1.92e-01 -2.5 2.64e+05 - 1.00e+00 9.71e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.6078293e+08 1.20e+01 5.46e-06 -2.5 2.51e+04 - 1.00e+00 1.00e+00h 1
41 5.6078161e+08 1.77e+01 1.90e-05 -3.8 3.15e+04 - 1.00e+00 1.00e+00h 1
42 5.6078161e+08 9.27e-03 3.02e-09 -3.8 7.07e+02 - 1.00e+00 1.00e+00h 1
43 5.6078154e+08 4.88e-02 5.78e-08 -5.7 1.65e+03 - 1.00e+00 1.00e+00f 1
44 5.6078154e+08 5.99e-06 8.97e-12 -8.6 1.83e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 44
(scaled) (unscaled)
Objective...............: 5.6078153802946523e+04 5.6078153802946520e+08
Dual infeasibility......: 8.9731566805993049e-12 8.9731566805993049e-08
Constraint violation....: 2.5611370801925659e-09 5.9902667999267578e-06
Complementarity.........: 2.5274738797011774e-09 2.5274738797011773e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5274738797011773e-05
Number of objective function evaluations = 45
Number of objective gradient evaluations = 45
Number of equality constraint evaluations = 45
Number of inequality constraint evaluations = 45
Number of equality constraint Jacobian evaluations = 45
Number of inequality constraint Jacobian evaluations = 45
Number of Lagrangian Hessian evaluations = 44
Total CPU secs in IPOPT (w/o function evaluations) = 2.481
Total CPU secs in NLP function evaluations = 57.173
EXIT: Optimal Solution Found.
Implemented Power (MPC) 375
Realized SOC (MPC) 897065
Fixed costs: 55834.68
Variable costs: 2266.41
Renewables curtailment reported at t=1 - total= 21.28
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 388.26
Simulating time_step 2020-07-11 07:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.6097154e+08 1.08e+06 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.6096505e+08 1.07e+06 9.90e+01 -1.0 2.34e+06 - 3.49e-04 3.27e-04h 1
2 5.6121776e+08 1.07e+06 9.99e+01 -1.0 2.34e+06 - 3.52e-04 1.36e-03h 1
3 5.6207205e+08 1.07e+06 1.00e+02 -1.0 2.34e+06 - 1.68e-03 3.79e-03h 1
4 5.6343168e+08 1.06e+06 9.97e+01 -1.0 2.36e+06 - 6.54e-03 5.91e-03h 1
5 5.6922615e+08 1.04e+06 9.95e+01 -1.0 2.41e+06 - 1.31e-02 2.52e-02h 1
6 5.6937377e+08 1.04e+06 1.32e+02 -1.0 9.80e+06 - 4.65e-02 6.63e-04h 1
7 5.7193155e+08 1.02e+06 5.73e+02 -1.0 3.36e+07 - 5.13e-02 1.18e-02h 1
8 5.8694404e+08 9.52e+05 2.49e+02 -1.0 3.32e+07 - 4.06e-02 7.02e-02h 1
9 7.5100782e+08 1.14e+07 2.23e+04 -1.0 3.09e+07 - 3.02e-01 8.25e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.5263336e+08 1.08e+07 2.13e+04 -1.0 5.40e+06 - 8.96e-01 4.73e-02h 1
11 7.5502044e+08 9.97e+06 1.95e+04 -1.0 1.16e+07 - 3.75e-01 7.97e-02h 1
12 7.6145180e+08 7.45e+06 1.41e+04 -1.0 1.00e+07 - 1.06e-01 2.59e-01h 1
13 7.6157942e+08 7.39e+06 1.40e+04 -1.0 7.99e+06 - 3.06e-02 8.23e-03h 1
14 7.6159165e+08 7.38e+06 1.40e+04 -1.0 8.06e+06 - 3.69e-02 6.64e-04h 1
15 7.6406442e+08 6.41e+06 1.21e+04 -1.0 8.20e+06 - 1.34e-01 1.33e-01h 1
16 7.6409184e+08 6.40e+06 1.21e+04 -1.0 8.44e+06 - 2.05e-01 1.94e-03h 1
17 7.6681056e+08 5.18e+06 9.63e+03 -1.0 9.53e+06 - 5.34e-02 1.92e-01h 1
18 7.6695355e+08 5.10e+06 9.49e+03 -1.0 8.67e+06 - 2.57e-01 1.46e-02h 1
19 7.6751794e+08 4.66e+06 8.64e+03 -1.0 9.06e+06 - 4.48e-01 8.76e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.6749906e+08 4.61e+06 8.55e+03 -1.0 8.65e+06 - 1.22e-01 1.01e-02h 1
21 7.6297477e+08 7.19e+05 7.50e+03 -1.0 8.59e+06 - 1.80e-01 1.00e+00f 1
22 7.5974453e+08 6.33e+05 6.59e+03 -1.0 8.64e+06 - 8.83e-01 1.21e-01f 1
23 7.5686622e+08 6.24e+05 6.51e+03 -1.0 6.46e+07 - 1.09e-01 1.31e-02f 1
24 7.4981248e+08 6.04e+05 6.29e+03 -1.0 6.96e+07 - 5.03e-02 3.27e-02f 1
25 7.4695925e+08 5.96e+05 6.21e+03 -1.0 7.41e+07 - 6.99e-02 1.37e-02f 1
26 7.3409708e+08 5.59e+05 5.82e+03 -1.0 8.06e+07 - 2.06e-01 6.23e-02f 1
27 7.1298446e+08 5.15e+05 5.36e+03 -1.0 1.06e+08 - 8.95e-02 7.87e-02f 1
28 7.1244690e+08 5.14e+05 5.35e+03 -1.0 1.02e+08 - 1.33e-01 2.09e-03f 1
29 6.7036543e+08 4.35e+05 4.53e+03 -1.0 1.22e+08 - 1.91e-01 1.53e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.6970373e+08 4.34e+05 4.52e+03 -1.0 1.67e+08 - 6.91e-02 1.96e-03f 1
31 6.5130312e+08 4.10e+05 4.27e+03 -1.0 1.84e+08 - 1.86e-01 5.55e-02f 1
32 6.5011907e+08 4.09e+05 4.26e+03 -1.0 2.53e+08 - 9.30e-02 3.35e-03f 1
33 6.3529710e+08 3.93e+05 4.09e+03 -1.0 2.95e+08 - 2.59e-01 3.90e-02f 1
34 6.2684828e+08 3.85e+05 4.01e+03 -1.0 5.13e+08 - 4.70e-02 1.88e-02f 1
35 6.1642249e+08 3.77e+05 3.93e+03 -1.0 5.50e+08 - 1.43e-01 2.17e-02f 1
36 6.1424111e+08 3.73e+05 3.89e+03 -1.0 4.17e+08 - 7.81e-02 9.46e-03f 1
37 6.0636160e+08 3.61e+05 3.76e+03 -1.0 4.45e+08 - 5.94e-02 3.31e-02f 1
38 6.0628212e+08 3.58e+05 3.73e+03 -1.0 2.03e+07 - 7.80e-01 7.31e-03f 1
39 6.0602242e+08 1.74e+05 5.15e+02 -1.0 1.82e+06 - 3.63e-02 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.0261338e+08 4.37e+06 5.12e+02 -1.0 1.98e+07 - 1.56e-02 7.37e-01f 1
41 6.0256039e+08 4.32e+06 2.15e+02 -1.0 1.75e+07 - 5.73e-01 1.27e-02f 1
42 6.0216042e+08 4.10e+06 1.17e+02 -1.0 2.51e+07 - 4.11e-01 6.40e-02f 1
43 6.0196990e+08 3.77e+06 1.21e+02 -1.0 1.39e+07 - 4.51e-03 8.29e-02f 1
44 5.8593156e+08 1.74e+08 1.07e+02 -1.0 5.23e+07 - 1.18e-01 1.00e+00f 1
45 5.7167893e+08 5.48e+07 4.26e+01 -1.0 5.32e+07 - 5.34e-01 9.40e-01f 1
46 5.6956243e+08 1.69e+07 3.76e+01 -1.0 4.19e+07 - 5.86e-02 5.15e-01f 1
47 5.6932948e+08 1.59e+07 2.93e+01 -1.0 4.17e+07 - 2.07e-01 6.17e-02h 1
48 5.6932694e+08 1.58e+07 4.05e+01 -1.0 6.95e+06 - 7.90e-01 3.85e-03h 1
49 5.6929311e+08 7.33e+06 2.70e+01 -1.0 2.11e+06 - 9.23e-01 5.30e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.6928143e+08 3.74e+05 3.19e-01 -1.0 3.75e+06 - 9.85e-01 1.00e+00h 1
51 5.6928201e+08 2.15e+04 3.96e-03 -1.0 1.37e+06 - 1.00e+00 1.00e+00h 1
52 5.6928189e+08 8.55e+01 5.73e-06 -1.0 4.82e+04 - 1.00e+00 1.00e+00h 1
53 5.6925073e+08 1.21e+06 9.60e+00 -2.5 2.13e+07 - 6.70e-01 4.27e-01f 1
54 5.6922936e+08 3.29e+05 6.21e+00 -2.5 3.60e+05 - 1.00e+00 7.26e-01h 1
55 5.6922228e+08 4.43e+02 2.54e-04 -2.5 8.10e+04 - 1.00e+00 1.00e+00h 1
56 5.6922229e+08 1.36e-02 1.58e-07 -2.5 6.69e+02 - 1.00e+00 1.00e+00h 1
57 5.6922100e+08 2.25e+01 2.35e-02 -3.8 3.98e+04 - 1.00e+00 9.78e-01f 1
58 5.6922097e+08 5.25e-02 2.03e-08 -3.8 1.56e+03 - 1.00e+00 1.00e+00h 1
59 5.6922090e+08 5.42e-02 5.42e-08 -5.7 1.95e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.6922090e+08 3.81e-06 7.39e-12 -8.6 1.71e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 60
(scaled) (unscaled)
Objective...............: 5.6922089895031335e+04 5.6922089895031333e+08
Dual infeasibility......: 7.3899392756983774e-12 7.3899392756983774e-08
Constraint violation....: 2.5611370801925659e-09 3.8146972656250000e-06
Complementarity.........: 2.5495165233038209e-09 2.5495165233038209e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5495165233038209e-05
Number of objective function evaluations = 61
Number of objective gradient evaluations = 61
Number of equality constraint evaluations = 61
Number of inequality constraint evaluations = 61
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 60
Total CPU secs in IPOPT (w/o function evaluations) = 2.918
Total CPU secs in NLP function evaluations = 79.596
EXIT: Optimal Solution Found.
Implemented Power (MPC) 317
Realized SOC (MPC) 897065
Fixed costs: 55834.68
Variable costs: 1137.80
Renewables curtailment reported at t=1 - total= 237.05
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 63.00
Simulating time_step 2020-07-11 08:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.6941090e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.6941427e+08 1.00e+05 9.90e+01 -1.0 1.17e+06 - 3.99e-04 3.71e-04h 1
2 5.6966229e+08 9.98e+04 9.99e+01 -1.0 4.54e+05 - 4.11e-04 1.55e-03h 1
3 5.7073647e+08 9.93e+04 1.01e+02 -1.0 2.36e+05 - 1.91e-03 5.52e-03h 1
4 5.7384997e+08 9.77e+04 1.01e+02 -1.0 1.92e+05 - 7.86e-03 1.55e-02h 1
5 5.8406202e+08 9.27e+04 1.01e+02 -1.0 1.28e+05 - 2.14e-02 5.15e-02h 1
6 5.9678437e+08 8.64e+04 1.05e+02 -1.0 1.20e+05 - 1.47e-02 6.77e-02h 1
7 6.2140864e+08 7.43e+04 8.28e+01 -1.0 1.15e+05 - 1.79e-01 1.40e-01h 1
8 6.7899461e+08 4.59e+04 5.92e+01 -1.0 1.16e+05 - 3.30e-01 3.82e-01h 1
9 7.7145188e+08 1.86e+02 1.78e+00 -1.0 1.29e+05 - 9.81e-01 9.96e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.7127577e+08 1.84e+02 1.52e+02 -1.0 5.04e+06 - 1.71e-01 9.65e-03f 1
11 7.7028850e+08 1.75e+02 6.59e+02 -1.0 5.71e+06 - 4.13e-01 5.03e-02f 1
12 7.6754436e+08 1.83e+02 6.40e+02 -1.0 9.65e+06 - 1.42e-01 9.17e-02f 1
13 7.6673176e+08 1.83e+02 1.68e+03 -1.0 1.12e+07 - 8.10e-01 2.68e-02f 1
14 7.5955762e+08 1.02e+03 1.61e+03 -1.0 5.53e+07 - 3.76e-02 4.18e-02f 1
15 7.5452965e+08 1.45e+03 1.56e+03 -1.0 5.79e+07 - 2.84e-02 2.96e-02f 1
16 7.2080685e+08 2.13e+04 1.40e+03 -1.0 6.00e+07 - 2.30e-02 1.87e-01f 1
17 7.2036706e+08 2.12e+04 1.21e+03 -1.0 6.30e+07 - 1.97e-01 2.39e-03f 1
18 6.9976008e+08 2.85e+04 1.00e+03 -1.0 8.04e+07 - 1.97e-01 9.60e-02f 1
19 6.9928899e+08 2.85e+04 8.93e+02 -1.0 8.73e+07 - 1.61e-01 1.95e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.7580643e+08 3.79e+04 6.98e+02 -1.0 1.08e+08 - 2.99e-01 8.77e-02f 1
21 6.7444157e+08 3.78e+04 6.14e+02 -1.0 1.77e+08 - 1.11e-01 3.89e-03f 1
22 6.6015034e+08 4.70e+04 5.27e+02 -1.0 2.09e+08 - 2.35e-01 3.69e-02f 1
23 6.5085541e+08 5.45e+04 5.09e+02 -1.0 3.25e+08 - 9.75e-02 2.14e-02f 1
24 6.2220067e+08 1.41e+05 4.79e+02 -1.0 3.97e+08 - 2.07e-01 5.78e-02f 1
25 6.1548129e+08 1.48e+05 4.98e+02 -1.0 6.59e+08 - 1.02e-01 1.09e-02f 1
26 6.0780459e+08 1.55e+05 5.54e+02 -1.0 6.04e+08 - 2.31e-01 1.27e-02f 1
27 6.0497218e+08 1.50e+05 2.48e+02 -1.0 1.71e+08 - 5.90e-01 3.07e-02f 1
28 6.0475064e+08 7.76e+04 2.02e+02 -1.0 3.95e+06 - 2.80e-01 4.84e-01h 1
29 6.0467701e+08 7.68e+04 1.13e+02 -1.0 5.72e+06 - 4.01e-01 1.43e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.0468103e+08 1.73e+03 1.16e+02 -1.0 3.16e+05 - 6.45e-01 1.00e+00h 1
31 6.0460678e+08 2.51e+04 1.14e+02 -1.0 9.02e+05 - 1.97e-02 7.17e-01f 1
32 6.0334741e+08 1.10e+07 7.08e+01 -1.0 1.26e+07 - 3.61e-01 1.00e+00f 1
33 5.9364448e+08 5.45e+08 8.99e+01 -1.0 9.91e+07 - 1.29e-01 1.00e+00f 1
34 5.9172601e+08 5.06e+08 8.79e+01 -1.0 3.86e+08 - 1.43e-01 5.70e-02f 1
35 5.9170694e+08 5.04e+08 8.70e+01 -1.0 6.58e+07 - 6.79e-01 3.49e-03h 1
36 5.9161791e+08 3.14e+08 5.46e+01 -1.0 1.94e+07 - 7.13e-01 3.73e-01h 1
37 5.9154918e+08 2.52e+08 4.39e+01 -1.0 3.34e+07 - 7.44e-01 1.98e-01h 1
38 5.9147023e+08 1.84e+08 3.24e+01 -1.0 4.21e+07 - 8.05e-01 2.70e-01h 1
39 5.9147663e+08 1.77e+08 2.78e+03 -1.0 2.74e+05 -4.0 2.15e-02 3.58e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.9147586e+08 1.76e+08 2.78e+03 -1.0 6.83e+06 - 2.57e-02 5.52e-03h 1
41 5.9163345e+08 1.46e+08 4.64e+04 -1.0 5.85e+06 - 8.22e-03 1.71e-01h 1
42 5.9206527e+08 7.70e+07 2.80e+05 -1.0 4.96e+06 - 6.92e-02 4.80e-01h 1
43 5.9211608e+08 3.30e+07 1.20e+05 -1.0 1.14e+05 -4.5 1.33e-02 5.71e-01h 1
44 5.9216234e+08 1.32e+04 2.67e+04 -1.0 4.95e+04 -5.0 6.39e-01 1.00e+00h 1
45 5.9216216e+08 4.51e-01 2.19e+02 -1.0 1.74e+02 -5.4 1.00e+00 1.00e+00h 1
46 5.9216201e+08 3.40e-06 2.13e-02 -1.0 2.68e+01 -5.9 1.00e+00 1.00e+00h 1
47 5.9167922e+08 3.44e+05 3.45e+00 -2.5 5.87e+08 - 5.80e-02 7.32e-03f 1
48 5.9163290e+08 3.36e+05 2.51e+01 -2.5 1.23e+07 - 3.61e-01 2.27e-02f 1
49 5.9148946e+08 2.31e+05 4.35e+01 -2.5 9.69e+06 - 9.52e-01 3.13e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.9141888e+08 1.12e+06 7.08e+01 -2.5 1.47e+07 - 1.00e+00 7.13e-01h 1
51 5.9138634e+08 2.43e+06 6.62e+01 -2.5 9.40e+07 - 1.00e+00 1.30e-01h 1
52 5.9138306e+08 2.12e+06 5.77e+01 -2.5 2.02e+07 - 9.37e-01 1.28e-01h 1
53 5.9136848e+08 6.33e+06 3.46e+01 -2.5 4.83e+07 - 1.00e+00 4.03e-01h 1
54 5.9136802e+08 6.19e+06 3.38e+01 -2.5 2.41e+06 - 1.00e+00 2.29e-02h 1
55 5.9135123e+08 9.02e+04 3.22e-01 -2.5 3.13e+05 - 1.00e+00 1.00e+00h 1
56 5.9135124e+08 9.48e+02 1.80e-05 -2.5 2.93e+03 - 1.00e+00 1.00e+00h 1
57 5.9135124e+08 4.87e-02 9.41e-08 -2.5 1.29e+02 - 1.00e+00 1.00e+00h 1
58 5.9134994e+08 1.89e+01 1.76e-02 -3.8 2.54e+04 - 1.00e+00 9.84e-01f 1
59 5.9134992e+08 4.49e-02 1.63e-08 -3.8 1.60e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.9134985e+08 4.62e-02 4.96e-08 -5.7 1.23e+03 - 1.00e+00 1.00e+00h 1
61 5.9134984e+08 3.38e-06 7.44e-12 -8.6 1.09e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 61
(scaled) (unscaled)
Objective...............: 5.9134984499932936e+04 5.9134984499932933e+08
Dual infeasibility......: 7.4395346058892014e-12 7.4395346058892014e-08
Constraint violation....: 3.7252902984619141e-09 3.3788383007049561e-06
Complementarity.........: 2.5471431991436234e-09 2.5471431991436232e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5471431991436232e-05
Number of objective function evaluations = 62
Number of objective gradient evaluations = 62
Number of equality constraint evaluations = 62
Number of inequality constraint evaluations = 62
Number of equality constraint Jacobian evaluations = 62
Number of inequality constraint Jacobian evaluations = 62
Number of Lagrangian Hessian evaluations = 61
Total CPU secs in IPOPT (w/o function evaluations) = 3.090
Total CPU secs in NLP function evaluations = 76.994
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 897065
Fixed costs: 55834.68
Variable costs: 762.72
Renewables curtailment reported at t=1 - total= 163.67
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 39.10
Simulating time_step 2020-07-11 09:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.9154984e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.9154330e+08 1.00e+05 9.90e+01 -1.0 1.17e+06 - 3.99e-04 3.71e-04h 1
2 5.9174923e+08 9.98e+04 9.99e+01 -1.0 4.81e+05 - 4.11e-04 1.55e-03h 1
3 5.9266757e+08 9.93e+04 1.01e+02 -1.0 2.36e+05 - 1.91e-03 5.51e-03h 1
4 5.9535674e+08 9.77e+04 1.01e+02 -1.0 1.90e+05 - 7.85e-03 1.57e-02h 1
5 6.0395921e+08 9.28e+04 9.71e+01 -1.0 1.23e+05 - 4.35e-02 5.06e-02h 1
6 6.2066872e+08 8.31e+04 9.98e+01 -1.0 1.21e+05 - 3.51e-02 1.04e-01h 1
7 6.5541267e+08 6.32e+04 6.25e+01 -1.0 1.14e+05 - 6.18e-01 2.40e-01h 1
8 7.5031725e+08 8.37e+03 3.41e+01 -1.0 1.89e+05 - 3.89e-01 8.67e-01h 1
9 7.5565616e+08 5.13e+03 2.17e+01 -1.0 2.44e+05 - 9.87e-01 3.87e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.5577708e+08 5.06e+03 5.96e+03 -1.0 3.40e+03 -4.0 9.90e-01 1.35e-02h 1
11 7.5587144e+08 5.01e+03 8.55e+05 -1.0 5.42e+03 -4.5 9.89e-01 1.07e-02h 1
12 7.6012909e+08 2.56e+03 1.50e+05 -1.0 5.43e+03 -5.0 9.90e-01 4.88e-01h 1
13 7.6024055e+08 2.50e+03 9.32e+04 -1.0 2.78e+03 -5.4 1.00e+00 2.50e-02h 1
14 7.6273468e+08 1.07e+03 5.45e+04 -1.0 3.00e+03 -5.9 1.00e+00 5.74e-01h 1
15 7.6458946e+08 1.84e-01 4.33e+00 -1.0 1.74e+03 -6.4 1.00e+00 1.00e+00h 1
16 7.6457862e+08 1.92e-04 3.36e+00 -1.7 2.38e+02 -6.9 9.99e-01 1.00e+00f 1
17 7.6457662e+08 6.19e-02 1.74e-02 -1.7 9.24e+02 -7.3 1.00e+00 1.00e+00f 1
18 7.5420447e+08 1.48e+04 1.58e+00 -2.5 8.04e+10 - 1.46e-04 1.03e-04f 1
19 7.5419400e+08 2.24e+03 2.45e+01 -2.5 2.55e+03 -7.8 9.45e-01 8.48e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.4200408e+08 6.76e+03 2.51e+01 -2.5 2.57e+10 - 1.32e-04 2.54e-04f 1
21 7.2668233e+08 1.83e+04 2.59e+01 -2.5 3.11e+10 - 1.33e-04 2.62e-04f 1
22 7.1643615e+08 3.19e+04 2.65e+01 -2.5 5.94e+10 - 3.86e-05 1.35e-04f 1
23 7.1643345e+08 2.85e+04 4.80e+01 -2.5 8.19e+03 -8.3 1.00e+00 1.05e-01h 1
24 7.1641722e+08 2.23e+04 4.05e+01 -2.5 1.92e+04 -8.8 1.00e+00 2.18e-01h 1
25 7.1635159e+08 1.49e+04 5.34e+01 -2.5 5.49e+04 -9.2 1.00e+00 3.34e-01h 1
26 7.1622653e+08 1.11e+04 6.06e+01 -2.5 1.64e+05 -9.7 1.00e+00 2.50e-01f 1
27 7.1558537e+08 6.37e+03 3.53e+01 -2.5 4.91e+05 -10.2 1.00e+00 4.29e-01f 1
28 7.1543244e+08 6.15e+03 7.13e+01 -2.5 1.49e+06 -10.7 7.43e-01 3.48e-02f 1
29 7.1442196e+08 5.76e+03 6.80e+01 -2.5 4.49e+06 -11.2 1.36e-01 7.81e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.1357053e+08 5.69e+03 6.60e+01 -2.5 1.37e+07 -11.6 4.54e-03 2.22e-02f 1
31 7.1351776e+08 5.69e+03 6.62e+01 -2.5 4.13e+07 -12.1 5.57e-02 5.63e-04f 1
32 7.1003001e+08 6.07e+03 6.54e+01 -2.5 1.24e+08 -12.6 6.85e-03 1.27e-02f 1
33 7.0698806e+08 6.08e+03 6.40e+01 -2.5 3.72e+08 -13.1 3.30e-02 3.79e-03f 1
34 6.8979416e+08 1.51e+04 6.32e+01 -2.5 1.10e+09 -13.5 1.61e-02 7.33e-03f 1
35 6.8952011e+08 1.51e+04 6.30e+01 -2.5 3.16e+09 -14.0 3.94e-03 5.59e-05f 1
36 6.8778515e+08 1.55e+04 6.29e+01 -2.5 1.24e+09 -13.6 1.79e-03 1.12e-03f 1
37 6.8442854e+08 1.67e+04 6.29e+01 -2.5 3.54e+09 -14.1 1.19e-05 7.49e-04f 1
38 6.8428445e+08 1.67e+04 6.10e+01 -2.5 1.39e+09 -13.6 4.36e-02 9.64e-05f 1
39 6.4595735e+08 2.70e+05 6.07e+01 -2.5 3.95e+09 -14.1 4.09e-03 9.39e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.4583761e+08 2.70e+05 5.64e+01 -2.5 1.53e+09 -13.7 1.02e-01 7.60e-05f 1
41 6.3260187e+08 3.18e+05 5.58e+01 -2.5 4.22e+09 -14.2 1.23e-02 5.78e-03f 1
42 6.3256433e+08 3.18e+05 4.38e+01 -2.5 6.01e+08 -13.7 3.80e-01 1.15e-04f 1
43 6.3255485e+08 3.07e+05 4.08e+01 -2.5 2.41e+07 -14.2 1.69e-03 3.57e-02h 1
44 6.3043346e+08 3.28e+07 1.09e+02 -2.5 5.87e+07 -13.8 1.86e-02 3.53e-01f 1
45 6.3013392e+08 3.15e+07 1.07e+02 -2.5 7.45e+07 -14.3 3.02e-01 4.16e-02f 1
46 6.2454528e+08 8.41e+07 4.76e+02 -2.5 6.23e+07 -13.8 2.78e-01 9.04e-01f 1
47 6.2067135e+08 6.68e+07 2.73e+02 -2.5 9.40e+07 -13.4 2.26e-02 4.44e-01f 1
48 6.1936731e+08 6.62e+07 2.58e+02 -2.5 2.57e+08 -13.9 1.13e-02 5.60e-02f 1
49 6.1936362e+08 6.62e+07 2.58e+02 -2.5 6.84e+08 -14.4 2.70e-02 5.98e-05h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.1935264e+08 5.58e+07 2.18e+02 -2.5 1.24e+07 -14.0 8.75e-01 1.58e-01h 1
51 6.1932865e+08 5.12e+07 2.00e+02 -2.5 4.41e+07 -14.4 2.15e-01 8.09e-02h 1
52 6.1923340e+08 4.88e+07 1.92e+02 -2.5 3.52e+08 -14.9 2.70e-01 4.80e-02h 1
53 6.1923245e+08 4.85e+07 1.91e+02 -2.5 3.60e+07 -14.5 2.37e-01 5.55e-03h 1
54 6.1919765e+08 4.65e+07 1.83e+02 -2.5 2.01e+08 -15.0 3.27e-02 4.21e-02h 1
55 6.1919743e+08 4.61e+07 1.82e+02 -2.5 1.22e+07 -14.5 1.00e+00 7.41e-03h 1
56 6.1919604e+08 4.49e+07 1.77e+02 -2.5 3.85e+07 - 1.00e+00 2.62e-02h 1
57 6.1919238e+08 1.63e+05 2.04e+00 -2.5 7.46e+05 - 1.00e+00 1.00e+00h 1
58 6.1919202e+08 1.34e+03 5.85e-05 -2.5 3.73e+04 - 1.00e+00 1.00e+00h 1
59 6.1919202e+08 1.05e-01 1.02e-07 -2.5 3.85e+01 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.1919072e+08 1.62e+01 1.25e-02 -3.8 2.34e+04 - 1.00e+00 9.89e-01f 1
61 6.1919071e+08 3.89e-02 1.32e-08 -3.8 1.51e+03 - 1.00e+00 1.00e+00h 1
62 6.1919063e+08 3.98e-02 4.71e-08 -5.7 1.14e+03 - 1.00e+00 1.00e+00h 1
63 6.1919063e+08 3.10e-06 7.96e-12 -8.6 1.14e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 63
(scaled) (unscaled)
Objective...............: 6.1919063389743511e+04 6.1919063389743507e+08
Dual infeasibility......: 7.9565344937328051e-12 7.9565344937328051e-08
Constraint violation....: 2.5611370801925659e-09 3.1031668186187744e-06
Complementarity.........: 2.5449689897912701e-09 2.5449689897912700e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5449689897912700e-05
Number of objective function evaluations = 64
Number of objective gradient evaluations = 64
Number of equality constraint evaluations = 64
Number of inequality constraint evaluations = 64
Number of equality constraint Jacobian evaluations = 64
Number of inequality constraint Jacobian evaluations = 64
Number of Lagrangian Hessian evaluations = 63
Total CPU secs in IPOPT (w/o function evaluations) = 3.348
Total CPU secs in NLP function evaluations = 79.789
EXIT: Optimal Solution Found.
Implemented Power (MPC) 286
Realized SOC (MPC) 897065
Fixed costs: 55834.68
Variable costs: 818.25
Renewables curtailment reported at t=1 - total= 140.65
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 3.00
Simulating time_step 2020-07-11 10:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.1939063e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.1938282e+08 1.00e+05 9.90e+01 -1.0 1.17e+06 - 4.81e-04 4.40e-04h 1
2 6.1953464e+08 9.98e+04 9.97e+01 -1.0 4.29e+05 - 5.59e-04 1.73e-03h 1
3 6.2016626e+08 9.92e+04 1.00e+02 -1.0 1.96e+05 - 2.18e-03 5.55e-03h 1
4 6.2210891e+08 9.76e+04 1.00e+02 -1.0 1.85e+05 - 8.16e-03 1.64e-02h 1
5 6.2850730e+08 9.24e+04 9.28e+01 -1.0 1.23e+05 - 6.44e-02 5.38e-02h 1
6 6.4393583e+08 7.97e+04 8.19e+01 -1.0 1.22e+05 - 1.27e-01 1.37e-01h 1
7 6.9379268e+08 3.87e+04 9.25e+01 -1.0 1.17e+05 - 1.84e-01 5.15e-01h 1
8 7.1636253e+08 2.00e+04 1.99e+01 -1.0 1.03e+05 - 9.79e-01 4.82e-01h 1
9 7.1809045e+08 1.75e+04 5.28e+01 -1.0 3.76e+06 - 9.84e-01 1.26e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.1420136e+08 1.76e+04 4.01e+02 -1.0 2.75e+08 - 2.14e-01 8.13e-03f 1
11 6.9695526e+08 2.26e+04 3.96e+02 -1.0 3.80e+08 - 4.53e-02 2.67e-02f 1
12 6.9347668e+08 2.24e+04 3.95e+02 -1.0 3.08e+08 - 1.16e-02 5.92e-03f 1
13 6.8786760e+08 2.22e+04 3.97e+02 -1.0 3.16e+08 - 2.60e-02 1.01e-02f 1
14 6.7769263e+08 2.18e+04 3.83e+02 -1.0 3.39e+08 - 7.27e-04 2.00e-02f 1
15 6.7284242e+08 2.30e+04 3.79e+02 -1.0 3.36e+08 - 6.97e-03 9.41e-03f 1
16 6.7251130e+08 2.30e+04 4.34e+02 -1.0 3.43e+08 - 1.42e-01 9.11e-04f 1
17 6.6729112e+08 2.81e+04 4.31e+02 -1.0 5.00e+08 - 2.62e-02 1.48e-02f 1
18 6.5997786e+08 6.41e+04 4.50e+02 -1.0 5.42e+08 - 1.26e-01 2.63e-02f 1
19 6.5155582e+08 1.10e+05 4.52e+02 -1.0 7.38e+08 - 6.44e-02 2.20e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.5148889e+08 1.09e+05 6.73e+01 -1.0 7.86e+07 - 7.80e-01 2.36e-03h 1
21 6.5426748e+08 7.39e+04 4.76e+01 -1.0 1.08e+07 - 6.07e-01 3.46e-01h 1
22 6.5597542e+08 5.06e+04 3.04e+01 -1.0 7.10e+06 - 1.83e-02 3.28e-01h 1
23 6.5718941e+08 2.88e+05 2.33e+01 -1.0 1.08e+07 - 1.51e-01 3.72e-01h 1
24 6.5857776e+08 6.23e+06 4.80e+01 -1.0 1.01e+07 - 1.81e-01 1.00e+00h 1
25 6.5778243e+08 5.54e+06 3.93e+01 -1.0 1.99e+07 - 1.73e-01 3.10e-01f 1
26 6.5765944e+08 5.35e+06 2.99e+01 -1.0 2.99e+07 - 2.99e-01 3.70e-02f 1
27 6.5213416e+08 5.82e+07 2.70e+01 -1.0 4.63e+07 - 1.22e-01 1.00e+00f 1
28 6.4910636e+08 4.05e+07 2.29e+01 -1.0 5.91e+07 - 1.05e-01 2.79e-01f 1
29 6.4907150e+08 4.04e+07 2.17e+01 -1.0 7.79e+07 - 2.00e-01 2.60e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.4754256e+08 3.47e+07 2.03e+01 -1.0 1.15e+08 - 3.77e-01 1.42e-01f 1
31 6.4234285e+08 8.86e+07 1.06e+01 -1.0 1.30e+08 - 3.37e-01 4.29e-01f 1
32 6.4229037e+08 8.76e+07 1.36e+01 -1.0 5.59e+07 - 3.06e-01 1.04e-02h 1
33 6.4214297e+08 5.93e+07 1.71e+01 -1.0 2.62e+07 - 1.77e-02 3.23e-01h 1
34 6.4211760e+08 5.69e+07 8.30e+00 -1.0 2.27e+07 - 2.63e-01 4.07e-02h 1
35 6.4209289e+08 4.98e+07 3.03e+01 -1.0 2.23e+07 - 9.09e-01 1.25e-01h 1
36 6.4209678e+08 4.82e+07 1.10e+03 -1.0 2.45e+05 -4.0 1.23e-02 3.21e-02h 1
37 6.4211383e+08 4.41e+07 1.31e+03 -1.0 1.48e+06 - 5.12e-02 8.55e-02h 1
38 6.4219495e+08 2.92e+07 2.46e+04 -1.0 1.67e+06 - 1.49e-01 3.39e-01h 1
39 6.4238370e+08 1.18e+05 8.47e+04 -1.0 8.03e+05 - 2.51e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.4238346e+08 9.09e-01 1.98e+00 -1.0 4.61e+02 -4.5 9.94e-01 1.00e+00h 1
41 6.4236866e+08 1.29e-04 1.00e-02 -1.7 1.86e+00 -5.0 1.00e+00 1.00e+00f 1
42 6.4217539e+08 5.44e+04 6.12e+00 -2.5 6.12e+08 - 1.93e-01 2.81e-03f 1
43 6.4210289e+08 1.18e+05 4.96e+01 -2.5 3.04e+07 - 9.17e-01 9.53e-02f 1
44 6.4207658e+08 2.28e+05 4.95e+01 -2.5 3.10e+07 - 9.79e-01 8.72e-02h 1
45 6.4204219e+08 4.76e+05 4.27e+01 -2.5 2.73e+07 - 1.00e+00 1.43e-01h 1
46 6.4200551e+08 1.45e+06 3.34e+01 -2.5 3.64e+07 - 1.00e+00 2.23e-01h 1
47 6.4200356e+08 1.38e+06 3.21e+01 -2.5 4.31e+06 - 1.00e+00 5.07e-02h 1
48 6.4196752e+08 3.67e+05 1.83e+01 -2.5 5.37e+06 - 1.00e+00 1.00e+00h 1
49 6.4196773e+08 3.33e+05 9.22e+01 -2.5 1.17e+04 -5.4 1.60e-02 9.09e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.4196754e+08 3.32e+05 1.13e+02 -2.5 2.57e+05 - 1.00e+00 4.84e-03h 1
51 6.4196715e+08 1.74e+02 3.83e+01 -2.5 2.82e+04 - 1.00e+00 1.00e+00h 1
52 6.4196715e+08 2.78e-05 4.13e-06 -2.5 3.37e+00 -5.9 1.00e+00 1.00e+00h 1
53 6.4196657e+08 7.24e-06 2.88e-04 -3.8 2.88e+01 -6.4 1.00e+00 1.00e+00f 1
54 6.4196620e+08 9.08e+01 1.96e+01 -5.7 2.89e+06 - 9.78e-01 2.90e-02f 1
55 6.4196517e+08 3.66e+04 4.16e+00 -5.7 1.86e+06 - 1.00e+00 9.08e-01h 1
56 6.4196518e+08 2.88e+04 2.60e+01 -5.7 1.59e+03 -6.9 3.75e-02 2.14e-01h 1
57 6.4196517e+08 2.88e+04 3.01e+01 -5.7 2.21e+07 - 1.00e+00 2.91e-06h 1
58 6.4196508e+08 1.19e+04 1.29e+01 -5.7 1.55e+05 - 1.00e+00 5.90e-01h 1
59 6.4196489e+08 2.06e+03 2.91e+00 -5.7 3.91e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.4196488e+08 2.05e-03 2.98e-04 -5.7 9.93e+01 -7.3 1.00e+00 1.00e+00h 1
61 6.4196409e+08 4.61e+04 3.98e+00 -5.7 1.95e+06 - 1.00e+00 9.64e-01f 1
62 6.4196402e+08 1.09e+00 2.26e+01 -5.7 2.29e+03 -7.8 2.05e-01 1.00e+00h 1
63 6.4196402e+08 1.09e+00 2.84e+01 -5.7 2.56e+05 - 1.00e+00 5.99e-06h 3
64 6.4196389e+08 8.74e+02 4.41e+00 -5.7 2.56e+05 - 1.00e+00 1.00e+00h 1
65 6.4196389e+08 3.62e-04 6.14e-06 -5.7 4.26e+01 -8.3 1.00e+00 1.00e+00h 1
66 6.4196389e+08 1.04e-05 6.50e-03 -8.6 1.13e+01 -8.8 1.00e+00 9.67e-01h 1
67 6.4196389e+08 2.86e-06 2.68e-02 -8.6 2.36e+01 -9.2 1.00e+00 7.48e-01f 1
In iteration 67, 1 Slack too small, adjusting variable bound
68 6.4196389e+08 3.70e-05 4.54e-04 -8.6 5.28e+01 -9.7 1.00e+00 9.95e-01f 1
69 6.4196389e+08 3.33e-04 1.24e-08 -8.6 1.58e+02 -10.2 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.4196389e+08 3.00e-03 9.88e-09 -8.6 4.73e+02 -10.7 1.00e+00 1.00e+00h 1
71 6.4196388e+08 2.70e-02 9.88e-09 -8.6 1.42e+03 -11.2 1.00e+00 1.00e+00h 1
72 6.4196388e+08 2.43e-01 3.46e-08 -8.6 4.26e+03 -11.6 1.00e+00 1.00e+00h 1
73 6.4196388e+08 2.19e+00 3.12e-07 -8.6 1.28e+04 -12.1 1.00e+00 1.00e+00h 1
74 6.4196386e+08 1.99e+01 2.82e-06 -8.6 3.85e+04 -12.6 1.00e+00 1.00e+00h 1
75 6.4196380e+08 1.82e+02 2.59e-05 -8.6 1.16e+05 -13.1 1.00e+00 1.00e+00h 1
76 6.4196361e+08 1.73e+03 2.46e-04 -8.6 3.59e+05 -13.5 1.00e+00 1.00e+00h 1
77 6.4196298e+08 1.85e+04 2.63e-03 -8.6 1.17e+06 -14.0 1.00e+00 1.00e+00h 1
78 6.4196025e+08 2.89e+05 4.20e-02 -8.6 4.68e+06 -14.5 1.00e+00 1.00e+00h 1
79 6.4193057e+08 1.91e+07 2.82e+00 -8.6 5.46e+07 -15.0 1.00e+00 6.99e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 6.4193057e+08 1.91e+07 9.99e+02 3.7 0.00e+00 -14.5 0.00e+00 2.85e-09R 2
81r 6.4205591e+08 1.70e+07 9.99e+02 3.7 1.06e+10 - 1.21e-04 1.21e-04f 1
82r 6.4324197e+08 6.70e+06 1.42e+04 3.7 3.56e+06 - 9.16e-03 1.17e-03f 1
83r 6.4515860e+08 4.31e+06 1.37e+04 3.7 7.56e+05 - 5.45e-04 2.74e-03f 1
84r 6.4732788e+08 2.56e+06 3.84e+04 3.7 6.40e+05 - 9.72e-02 3.29e-03f 1
85r 8.9341029e+08 2.58e+06 3.68e+03 3.7 3.73e+01 2.0 9.90e-01 1.00e+00f 1
86r 8.9277789e+08 1.20e+06 1.28e+04 3.0 1.27e+06 - 1.73e-01 9.60e-03f 1
87r 8.8736861e+08 8.09e+05 3.65e+04 3.0 1.24e+06 - 6.04e-01 1.67e-01f 1
88r 8.4971598e+08 4.70e+05 1.89e+04 3.0 1.03e+06 - 1.00e+00 7.06e-01f 1
89r 8.3131296e+08 1.37e+04 3.26e+03 2.3 3.21e+00 2.4 9.40e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 8.0782191e+08 7.53e+04 1.79e+04 1.6 3.28e+05 - 5.54e-01 1.88e-01f 1
91r 7.7051368e+08 5.72e+04 1.65e+04 1.6 2.61e+05 - 1.00e+00 4.97e-01f 1
92r 7.2409576e+08 1.68e+04 9.63e+03 1.6 1.30e+05 - 1.00e+00 7.23e-01f 1
93r 6.9791505e+08 3.28e+03 4.64e+03 1.6 3.65e+04 - 1.00e+00 8.93e-01f 1
94r 6.9165904e+08 4.95e+02 8.47e+00 1.6 5.19e+03 - 1.00e+00 1.00e+00f 1
95r 6.7088011e+08 2.58e+03 8.49e+01 -0.5 9.78e+03 - 8.49e-01 8.42e-01f 1
96r 6.7049136e+08 9.49e+03 2.34e+02 -0.5 2.18e+05 - 2.69e-01 2.22e-01f 1
97r 6.7048366e+08 9.45e+03 6.90e+02 -0.5 1.40e+05 - 1.79e-01 3.52e-03f 1
98r 6.7037760e+08 9.06e+03 1.13e+03 -0.5 1.62e+05 - 2.62e-01 4.16e-02f 1
99r 6.6860789e+08 6.53e+04 1.24e+02 -0.5 1.55e+05 - 3.19e-01 5.59e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.6707372e+08 4.44e+04 2.76e+02 -0.5 6.87e+04 - 6.39e-01 4.42e-01f 1
101r 6.6644628e+08 3.89e+04 5.68e+02 -0.5 3.82e+04 - 1.00e+00 1.24e-01f 1
102r 6.5789111e+08 2.66e+02 8.94e+00 -0.5 3.33e+04 - 1.00e+00 1.00e+00f 1
103r 6.5132378e+08 1.43e+01 8.89e+00 -1.2 1.99e+03 - 1.00e+00 9.94e-01f 1
104r 6.5134901e+08 2.05e+01 9.82e+02 -1.2 2.91e+05 - 3.52e-01 7.10e-02f 1
105r 6.5164416e+08 2.04e+02 2.25e+02 -1.2 2.80e+05 - 7.67e-01 7.60e-01f 1
106r 6.5185291e+08 2.01e+01 8.94e+00 -1.2 6.67e+04 - 1.00e+00 1.00e+00f 1
107r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 1.41e+03 - 1.00e+00 1.00e+00h 1
108r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 2.56e+02 - 1.00e+00 1.00e+00h 1
109r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 8.93e+00 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 1.17e-02 - 1.00e+00 1.00e+00h 1
111r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 7.79e-04 - 1.00e+00 1.00e+00h 1
112r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 7.79e-04 - 1.00e+00 1.00e+00h 1
113r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 7.79e-04 - 1.00e+00 1.00e+00h 1
114r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 7.78e-04 - 1.00e+00 1.00e+00h 1
115r 6.5186877e+08 7.05e-01 7.81e+00 -1.2 7.78e-04 - 1.00e+00 1.25e-01h 4
116r 6.5186877e+08 7.05e-01 8.93e+00 -1.2 1.02e-04 - 1.00e+00 1.00e+00h 1
117r 6.5186877e+08 7.05e-01 6.69e+00 -1.2 7.78e-04 - 1.00e+00 2.50e-01h 3
118r 6.5186877e+08 7.05e-01 2.23e+00 -1.2 1.94e-04 - 1.00e+00 9.54e-07h 21
119r 6.4790645e+08 4.64e+00 8.94e+00 -1.9 1.52e+03 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 6.4791294e+08 4.61e+00 4.39e+02 -1.9 6.28e+05 - 5.72e-01 1.27e-02f 1
121r 6.4792885e+08 4.61e+00 6.70e+02 -1.9 4.17e+05 - 1.00e+00 2.69e-02f 1
122r 6.4808884e+08 1.61e+01 5.28e+02 -1.9 2.47e+05 - 1.00e+00 2.33e-01f 1
123r 6.4823123e+08 2.44e+01 3.84e+02 -1.9 1.89e+05 - 4.75e-01 2.74e-01f 1
124r 6.4860782e+08 1.06e+02 2.70e+00 -1.9 1.35e+05 - 1.00e+00 1.00e+00f 1
125r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 5.97e+02 - 1.00e+00 1.00e+00h 1
126r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 1.87e+00 - 1.00e+00 1.00e+00h 1
127r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 5.31e-04 - 1.00e+00 1.00e+00h 1
128r 6.4860801e+08 3.34e-01 2.69e+00 -1.9 5.17e-04 - 1.00e+00 3.91e-03h 9
129r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 5.18e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 5.20e-04 - 1.00e+00 1.00e+00h 1
131r 6.4860801e+08 3.34e-01 1.35e+00 -1.9 5.22e-04 - 1.00e+00 5.00e-01h 2
132r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.77e-04 - 1.00e+00 1.00e+00h 1
133r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.51e-04 - 1.00e+00 1.00e+00h 1
134r 6.4860801e+08 3.34e-01 1.35e+00 -1.9 2.52e-04 - 1.00e+00 5.00e-01h 2
135r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 1.26e-04 - 1.00e+00 1.00e+00h 1
136r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.52e-04 - 1.00e+00 1.00e+00h 1
137r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.52e-04 - 1.00e+00 1.95e-03h 10
138r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.51e-04 - 1.00e+00 1.00e+00h 1
139r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.52e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 6.4860801e+08 3.34e-01 2.70e+00 -1.9 2.52e-04 - 1.00e+00 9.77e-04h 11
141r 6.4860801e+08 3.34e-01 1.35e+00 -1.9 2.51e-04 - 1.00e+00 5.00e-01h 2
142r 6.4860801e+08 3.34e-01 6.75e-01 -1.9 1.26e-04 - 1.00e+00 5.00e-01h 2
143r 6.4860801e+08 3.34e-01 3.38e-01 -1.9 6.30e-05 - 1.00e+00 5.00e-01h 2
144r 6.4571255e+08 3.36e-01 3.32e+00 -2.9 1.74e+03 - 1.00e+00 9.83e-01f 1
145r 6.4573240e+08 1.65e+02 8.19e+01 -2.9 9.15e+05 - 2.93e-01 1.80e-01f 1
146r 6.4573243e+08 1.65e+02 6.25e+02 -2.9 6.89e+05 - 9.87e-01 3.18e-04f 1
147r 6.4573892e+08 1.66e+02 1.09e+03 -2.9 6.85e+05 - 6.08e-01 5.52e-02f 1
148r 6.4573925e+08 1.66e+02 1.47e+03 -2.9 2.66e+04 - 1.00e+00 4.04e-03h 1
149r 6.4581786e+08 2.97e+00 2.64e+01 -2.9 2.66e+04 - 1.00e+00 9.82e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 6.4581917e+08 1.44e-02 6.62e-01 -2.9 4.74e+02 - 1.00e+00 1.00e+00f 1
151r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 1.07e+02 - 1.00e+00 1.00e+00h 1
152r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 5.50e+00 - 1.00e+00 1.00e+00h 1
153r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 1.43e-02 - 1.00e+00 1.00e+00h 1
154r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 3.12e-05 - 1.00e+00 1.00e+00h 1
155r 6.4581918e+08 1.37e-03 5.49e-01 -2.9 1.95e-05 - 1.00e+00 1.00e+00h 1
156r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 1.05e-05 - 1.00e+00 1.00e+00h 1
157r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 2.12e-05 - 1.00e+00 1.00e+00h 1
158r 6.4581918e+08 1.37e-03 5.07e-01 -2.9 3.27e-05 - 1.00e+00 2.50e-01h 3
159r 6.4581918e+08 1.37e-03 5.49e-01 -2.9 2.50e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 2.56e-05 - 1.00e+00 1.00e+00h 1
161r 6.4581918e+08 1.37e-03 3.38e-01 -2.9 2.73e-05 - 1.00e+00 5.00e-01h 2
162r 6.4581918e+08 1.37e-03 6.76e-01 -2.9 1.64e-05 - 1.00e+00 1.00e+00h 1
163r 6.4581918e+08 1.37e-03 3.38e-01 -2.9 3.11e-05 - 1.00e+00 5.00e-01h 2
164r 6.4581918e+08 1.37e-03 1.69e-01 -2.9 2.09e-05 - 1.00e+00 5.00e-01h 2
165r 6.4581918e+08 1.37e-03 5.49e-01 -2.9 1.26e-05 - 1.00e+00 1.00e+00h 1
166r 6.4581918e+08 1.37e-03 2.74e-01 -2.9 1.11e-05 - 1.00e+00 5.00e-01h 2
167r 6.4581918e+08 1.37e-03 5.49e-01 -2.9 1.35e-05 - 1.00e+00 1.00e+00h 1
168r 6.4581918e+08 1.37e-03 4.11e-01 -2.9 1.21e-05 - 1.00e+00 2.50e-01h 3
169r 6.4581918e+08 1.37e-03 1.03e-01 -2.9 1.01e-05 - 1.00e+00 2.50e-01h 3
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 6.4581918e+08 1.37e-03 5.49e-01 -2.9 8.90e-06 - 1.00e+00 1.00e+00h 1
171r 6.4581918e+08 1.37e-03 5.40e-01 -2.9 8.44e-06 - 1.00e+00 1.56e-02h 7
172r 6.4581918e+08 1.37e-03 7.09e-02 -2.9 7.29e-06 - 1.00e+00 5.00e-01h 2
173r 6.4581918e+08 1.37e-03 5.31e-02 -2.9 7.03e-06 - 1.00e+00 2.50e-01h 3
174r 6.4410643e+08 1.17e-02 6.76e+00 -4.3 2.15e+03 - 8.95e-01 9.36e-01f 1
175r 6.4409672e+08 2.82e-01 1.26e+02 -4.3 2.19e+05 - 2.21e-01 8.81e-02f 1
176r 6.4408769e+08 2.76e-01 5.48e+02 -4.3 1.99e+05 - 6.48e-01 6.79e-02f 1
177r 6.4403899e+08 4.85e-01 4.45e+02 -4.3 1.86e+05 - 2.88e-01 2.21e-01f 1
178r 6.4402270e+08 4.77e-01 5.14e+02 -4.3 1.44e+05 - 6.32e-01 7.58e-02f 1
179r 6.4397080e+08 5.48e-01 4.31e+02 -4.3 1.32e+05 - 4.91e-01 2.01e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 6.4393902e+08 5.25e-01 4.02e+02 -4.3 1.02e+05 - 1.00e+00 1.37e-01f 1
181r 6.4380105e+08 9.73e-01 1.57e+02 -4.3 8.06e+04 - 9.02e-01 6.11e-01f 1
182r 6.4376713e+08 6.28e-01 9.43e+01 -4.3 3.09e+04 - 1.00e+00 3.97e-01f 1
183r 6.4374315e+08 3.46e-01 5.12e+01 -4.3 1.83e+04 - 1.00e+00 4.57e-01h 1
184r 6.4371548e+08 2.53e-02 1.03e+00 -4.3 6.78e+03 - 1.00e+00 1.00e+00f 1
185r 6.4371543e+08 1.16e-03 1.03e+00 -4.3 4.18e+02 - 1.00e+00 1.00e+00h 1
186r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 4.83e+01 - 1.00e+00 1.00e+00h 1
187r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 6.65e-01 - 1.00e+00 1.00e+00h 1
188r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 1.26e-04 - 1.00e+00 1.00e+00h 1
189r 6.4371541e+08 1.16e-03 5.13e-01 -4.3 1.18e-05 - 1.00e+00 5.00e-01h 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 1.05e-05 - 1.00e+00 1.00e+00h 1
191r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 1.06e-05 - 1.00e+00 1.00e+00h 1
192r 6.4371541e+08 1.16e-03 1.02e+00 -4.3 1.19e-05 - 1.00e+00 1.95e-03h 10
193r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 1.14e-05 - 1.00e+00 1.00e+00h 1
194r 6.4371541e+08 1.16e-03 1.01e+00 -4.3 1.01e-05 - 1.00e+00 1.56e-02h 7
195r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 6.04e-06 - 1.00e+00 1.00e+00h 1
196r 6.4371541e+08 1.16e-03 9.62e-01 -4.3 1.00e-05 - 1.00e+00 6.25e-02h 5
197r 6.4371541e+08 1.16e-03 9.58e-01 -4.3 6.64e-06 - 1.00e+00 3.91e-03h 9
198r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 6.64e-06 - 1.00e+00 1.00e+00h 1
199r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 1.12e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 6.4371541e+08 1.16e-03 1.03e+00 -4.3 9.90e-06 - 1.00e+00 4.88e-04h 12
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 6.4371541377234913e+04 6.4371541377234912e+08
Dual infeasibility......: 9.9999687135404955e+01 9.9999687135404954e+05
Constraint violation....: 1.1621312885556900e-03 1.1621312885556900e-03
Complementarity.........: 4.8285632672494319e-05 4.8285632672494316e-01
Overall NLP error.......: 9.9999687135404955e+01 9.9999687135404954e+05
Number of objective function evaluations = 341
Number of objective gradient evaluations = 82
Number of equality constraint evaluations = 341
Number of inequality constraint evaluations = 341
Number of equality constraint Jacobian evaluations = 202
Number of inequality constraint Jacobian evaluations = 202
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 7.882
Total CPU secs in NLP function evaluations = 458.384
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 286
Realized SOC (MPC) 897110
Fixed costs: 55834.68
Variable costs: 4322.25
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 202.14
Simulating time_step 2020-07-11 11:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.4371541e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.4326811e+08 9.97e+04 9.93e+01 -1.0 1.05e+06 - 5.25e-03 2.56e-03f 1
2 6.4349338e+08 9.93e+04 9.88e+01 -1.0 8.90e+05 - 2.89e-03 4.38e-03h 1
3 6.4475858e+08 9.83e+04 9.96e+01 -1.0 9.74e+05 - 3.17e-03 1.03e-02h 1
4 6.4616711e+08 9.73e+04 9.71e+01 -1.0 1.02e+06 - 1.75e-02 9.89e-03h 1
5 6.4858405e+08 9.57e+04 9.56e+01 -1.0 1.01e+06 - 2.15e-02 1.64e-02h 1
6 6.5013711e+08 9.47e+04 9.87e+01 -1.0 9.92e+05 - 4.86e-03 1.04e-02h 1
7 6.5959165e+08 8.86e+04 9.63e+01 -1.0 9.81e+05 - 4.26e-02 6.41e-02h 1
8 7.1164021e+08 5.53e+04 9.96e+01 -1.0 9.09e+05 - 1.57e-01 3.76e-01h 1
9 7.9606893e+08 1.15e+03 8.24e+01 -1.0 5.34e+05 - 4.47e-01 9.79e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.9623366e+08 1.01e+03 3.36e+02 -1.0 1.57e+05 - 9.90e-01 1.23e-01h 1
11 7.9332872e+08 9.21e+02 2.22e+02 -1.0 1.19e+07 - 1.83e-02 8.86e-02f 1
12 7.9242484e+08 8.97e+02 3.68e+02 -1.0 1.49e+07 - 1.54e-01 2.57e-02f 1
13 7.9122211e+08 8.72e+02 5.08e+02 -1.0 1.73e+07 - 1.85e-01 3.22e-02f 1
14 7.8942421e+08 8.56e+02 7.19e+02 -1.0 1.91e+07 - 3.34e-01 4.19e-02f 1
15 7.8741935e+08 8.78e+02 1.01e+03 -1.0 1.89e+07 - 7.33e-01 4.84e-02f 1
16 7.6255090e+08 3.10e+04 9.42e+02 -1.0 7.94e+07 - 4.14e-02 1.30e-01f 1
17 7.6213958e+08 3.09e+04 8.45e+02 -1.0 8.58e+07 - 1.43e-01 2.19e-03f 1
18 7.4242828e+08 5.53e+04 7.90e+02 -1.0 1.03e+08 - 5.42e-02 9.73e-02f 1
19 7.4219943e+08 5.52e+04 6.25e+02 -1.0 9.69e+07 - 3.01e-01 1.20e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.3230518e+08 5.18e+04 6.00e+02 -1.0 1.51e+08 - 9.78e-03 6.09e-02f 1
21 7.3200878e+08 5.17e+04 5.99e+02 -1.0 1.58e+08 - 8.89e-04 1.51e-03f 1
22 6.8498296e+08 3.87e+05 6.48e+02 -1.0 1.66e+08 - 5.08e-02 2.70e-01f 1
23 6.8449548e+08 3.86e+05 5.74e+02 -1.0 1.96e+08 - 8.00e-02 2.39e-03f 1
24 6.8392800e+08 3.84e+05 4.15e+02 -1.0 2.20e+08 - 1.79e-01 4.73e-03f 1
25 6.8042654e+08 3.82e+05 1.91e+02 -1.0 2.83e+08 - 5.91e-01 2.28e-02f 1
26 6.8037592e+08 3.69e+05 4.54e+02 -1.0 2.39e+06 - 8.16e-01 3.38e-02h 1
27 6.8019037e+08 3.25e+05 4.16e+02 -1.0 6.20e+06 - 3.42e-01 1.19e-01h 1
28 6.8006681e+08 2.60e+05 3.22e+02 -1.0 4.78e+06 - 7.17e-03 2.01e-01h 1
29 6.7970801e+08 3.34e+05 2.17e+02 -1.0 6.50e+06 - 4.89e-01 3.49e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.7820364e+08 7.95e+06 6.50e+01 -1.0 1.71e+07 - 9.72e-02 6.51e-01f 1
31 6.7726315e+08 7.32e+06 5.29e+01 -1.0 2.61e+07 - 1.39e-01 2.56e-01f 1
32 6.7605044e+08 8.02e+06 4.46e+01 -1.0 3.50e+07 - 4.41e-01 2.50e-01f 1
33 6.7577667e+08 7.88e+06 4.30e+01 -1.0 6.17e+07 - 1.27e-01 3.87e-02f 1
34 6.7026029e+08 1.03e+08 6.12e+01 -1.0 7.53e+07 - 9.79e-02 6.76e-01f 1
35 6.7013939e+08 1.02e+08 6.06e+01 -1.0 1.18e+08 - 1.43e-01 1.08e-02h 1
36 6.6662879e+08 8.56e+07 4.36e+01 -1.0 1.22e+08 - 1.17e-01 3.03e-01f 1
37 6.6515181e+08 7.34e+07 3.62e+01 -1.0 9.14e+07 - 1.06e-01 1.74e-01f 1
38 6.6513628e+08 7.32e+07 3.61e+01 -1.0 5.48e+07 - 1.51e-01 2.93e-03h 1
39 6.6496214e+08 4.58e+07 2.27e+01 -1.0 9.85e+06 - 4.25e-02 3.73e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.6492386e+08 4.22e+07 2.11e+01 -1.0 1.40e+07 - 7.74e-01 8.05e-02h 1
41 6.6486562e+08 3.44e+07 2.61e+01 -1.0 1.54e+07 - 7.92e-01 1.83e-01h 1
42 6.6486710e+08 3.31e+07 5.79e+02 -1.0 8.58e+04 -4.0 1.49e-02 3.71e-02h 1
43 6.6488626e+08 2.84e+07 2.07e+03 -1.0 8.58e+05 - 1.31e-01 1.45e-01h 1
44 6.6499230e+08 1.16e+05 7.06e+04 -1.0 7.34e+05 - 2.39e-01 1.00e+00h 1
45 6.6499281e+08 6.72e-01 4.51e-01 -1.0 2.23e+02 -4.5 9.93e-01 1.00e+00h 1
46 6.6497779e+08 2.75e-05 9.76e-03 -1.7 2.91e+00 -5.0 1.00e+00 1.00e+00f 1
47 6.6481424e+08 1.12e+05 7.72e+00 -3.8 4.63e+08 - 1.92e-01 2.84e-03f 1
48 6.6473488e+08 2.04e+05 4.28e+01 -3.8 1.82e+07 - 7.70e-01 8.70e-02f 1
49 6.6470526e+08 3.54e+05 3.69e+01 -3.8 1.50e+07 - 6.66e-01 2.54e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.6469560e+08 3.78e+05 3.45e+01 -3.8 1.06e+07 - 9.86e-01 1.64e-01h 1
51 6.6468420e+08 1.76e+05 1.62e+01 -3.8 3.04e+06 - 1.00e+00 5.34e-01h 1
52 6.6467210e+08 6.25e+06 7.04e+00 -3.8 2.00e+07 - 1.00e+00 9.82e-01h 1
53 6.6467215e+08 6.24e+06 1.00e+02 -3.8 1.53e+05 -5.4 1.59e-04 1.47e-03h 1
54 6.6467211e+08 6.24e+06 1.02e+02 -3.8 1.16e+06 - 1.07e-01 2.55e-04h 1
55 6.6467085e+08 4.47e+06 8.07e+01 -3.8 1.76e+06 - 1.00e+00 2.82e-01h 1
56 6.6466742e+08 8.72e+04 1.07e+02 -3.8 1.12e+06 - 3.18e-01 1.00e+00h 1
57 6.6466742e+08 8.58e+04 1.05e+02 -3.8 8.00e+02 -5.9 2.75e-02 1.71e-02h 1
58 6.6466742e+08 8.05e+04 9.89e+01 -3.8 1.30e+03 -6.4 2.24e-01 6.16e-02h 1
59 6.6466752e+08 4.39e+04 5.61e+01 -3.8 1.18e+03 -6.9 1.25e-01 4.55e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.6466744e+08 2.70e+04 3.32e+01 -3.8 7.18e+02 -7.3 1.00e+00 3.84e-01h 1
61 6.6466743e+08 4.76e+00 1.31e-02 -3.8 4.11e+02 -7.8 1.00e+00 1.00e+00h 1
62 6.6466740e+08 3.51e+00 3.52e+00 -3.8 6.44e+02 -8.3 1.00e+00 2.62e-01h 1
63 6.6466741e+08 1.13e-03 1.64e-04 -3.8 4.70e+01 -8.8 1.00e+00 1.00e+00f 1
64 6.6466734e+08 6.18e-04 9.87e-03 -5.7 1.47e+02 -9.2 1.00e+00 9.72e-01f 1
65 6.6466734e+08 1.92e-03 7.97e-02 -5.7 4.05e+02 -9.7 1.00e+00 7.31e-01f 1
66 6.6466733e+08 4.10e-02 9.57e-06 -5.7 1.41e+03 -10.2 1.00e+00 1.00e+00f 1
67 6.6466732e+08 2.20e-01 4.60e-04 -8.6 4.22e+03 -10.7 1.00e+00 7.54e-01h 1
68 6.6466731e+08 2.31e-01 3.06e-01 -8.6 1.17e+04 -11.2 1.00e+00 1.14e-01h 1
69 6.6466731e+08 2.34e-01 6.25e-01 -8.6 2.20e+04 -11.6 1.00e+00 3.10e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.6466718e+08 5.26e+01 7.69e-02 -8.6 6.40e+04 -12.1 1.00e+00 8.99e-01h 1
71 6.6466674e+08 5.88e+02 6.21e-04 -8.6 1.93e+05 -12.6 1.00e+00 1.00e+00h 1
72 6.6466540e+08 5.39e+03 6.75e-04 -8.6 5.83e+05 -13.1 1.00e+00 1.00e+00h 1
73 6.6466357e+08 1.31e+04 5.43e-03 -8.6 1.79e+06 -13.5 1.00e+00 4.42e-01h 1
74 6.6466183e+08 9.07e+04 5.00e-02 -8.6 2.31e+06 -14.0 1.00e+00 1.00e+00h 1
75 6.6465302e+08 1.14e+06 1.11e-01 -8.6 8.93e+06 -14.5 1.00e+00 8.73e-01h 1
76r 6.6465302e+08 1.14e+06 9.99e+02 2.4 0.00e+00 - 0.00e+00 2.55e-08R 2
77r 6.6465487e+08 1.33e+06 9.99e+02 2.4 4.22e+09 - 6.10e-05 3.09e-05f 2
78r 6.6470425e+08 3.66e+05 9.98e+02 2.4 1.88e+06 - 1.34e-03 8.19e-04f 1
79r 6.6481527e+08 1.49e+05 9.96e+02 2.4 5.10e+05 - 5.22e-03 1.91e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 6.6481963e+08 1.48e+05 9.96e+02 2.4 9.00e+05 - 5.98e-05 7.84e-05f 1
81r 6.6482089e+08 1.48e+05 1.00e+04 2.4 4.42e+04 - 9.02e-02 2.26e-05f 1
82r 6.6871645e+08 1.12e+05 8.66e+03 2.4 1.26e+05 - 4.60e-03 2.13e-02f 1
83r 6.8001534e+08 1.52e+04 5.87e+03 2.4 4.53e+04 - 7.48e-02 1.02e-01f 1
84r 6.9006043e+08 1.88e+04 2.06e+04 2.4 4.39e+04 - 5.10e-01 2.11e-01f 1
85r 7.4360110e+08 1.35e+03 6.64e+03 2.4 4.92e+04 - 4.91e-01 1.00e+00f 1
86r 7.4635757e+08 2.60e+02 7.42e-01 2.4 2.43e+04 - 1.00e+00 1.00e+00f 1
87r 7.1480668e+08 1.66e+03 6.49e+02 1.7 2.10e+04 - 1.00e+00 9.64e-01f 1
88r 7.0404653e+08 2.57e+02 3.09e+03 1.0 6.83e+03 - 9.82e-01 8.94e-01f 1
89r 7.0229156e+08 1.79e+01 4.80e+00 1.0 1.18e+04 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 6.8696133e+08 7.25e+00 6.07e+02 -0.4 6.20e+03 - 1.00e+00 8.46e-01f 1
91r 6.8600285e+08 3.78e+00 3.64e+02 -0.4 3.59e+04 - 1.00e+00 4.96e-01f 1
92r 6.8164684e+08 3.47e-01 2.68e+01 -0.4 4.12e+03 - 1.00e+00 9.56e-01f 1
93r 6.8096353e+08 1.05e-01 3.22e+00 -0.4 1.14e+03 - 1.00e+00 1.00e+00f 1
94r 6.7351611e+08 6.82e-02 8.93e+00 -1.8 2.30e+03 - 1.00e+00 9.51e-01f 1
95r 6.7306013e+08 1.55e-02 6.80e+01 -1.8 5.48e+03 - 1.00e+00 9.20e-01f 1
96r 6.7201545e+08 4.65e-03 1.06e-01 -1.8 1.58e+03 - 1.00e+00 1.00e+00f 1
97r 6.6894896e+08 1.67e-02 1.04e+01 -2.6 1.99e+03 - 1.00e+00 9.58e-01f 1
98r 6.6898780e+08 4.88e-02 1.64e+02 -2.6 6.63e+03 - 1.00e+00 6.52e-01f 1
99r 6.6905648e+08 1.86e-02 1.02e-01 -2.6 8.11e+02 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.6905609e+08 2.88e-05 9.91e-03 -2.6 3.52e+01 - 1.00e+00 1.00e+00h 1
101r 6.6702004e+08 3.59e-03 4.62e+00 -3.9 1.11e+03 - 9.37e-01 9.73e-01f 1
102r 6.6699265e+08 3.40e-01 3.40e+02 -3.9 2.26e+04 - 8.89e-01 2.79e-01f 1
103r 6.6684146e+08 5.54e-01 1.16e+02 -3.9 2.50e+04 - 1.00e+00 7.05e-01f 1
104r 6.6679120e+08 3.23e-01 1.12e+02 -3.9 4.19e+03 - 1.00e+00 4.20e-01f 1
105r 6.6672015e+08 6.69e-02 6.27e-02 -3.9 2.09e+03 - 1.00e+00 1.00e+00f 1
106 6.6672001e+08 6.69e-02 1.00e+02 -8.6 2.71e+14 - 1.71e-07 2.46e-12f 11
107 6.6671994e+08 6.69e-02 1.00e+02 -8.6 3.98e+12 - 1.74e-05 8.47e-11f 12
108 6.6671987e+08 6.69e-02 9.98e+01 -8.6 8.39e+10 - 1.51e-03 4.30e-09f 13
109 6.6671980e+08 6.69e-02 8.41e+01 -8.6 1.74e+09 - 1.13e-01 1.86e-07f 14
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110 6.6671966e+08 6.69e-02 3.87e+01 -8.6 1.92e+07 - 1.00e+00 1.40e-05f 14
111 6.6465203e+08 1.53e+01 3.36e-01 -8.6 4.84e+04 - 1.00e+00 1.00e+00f 1
112 6.6465174e+08 1.12e-04 4.09e-02 -8.6 1.28e+02 - 1.00e+00 1.00e+00h 1
113 6.6465174e+08 1.91e-06 1.69e-12 -8.6 8.55e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 113
(scaled) (unscaled)
Objective...............: 6.6465173602455048e+04 6.6465173602455044e+08
Dual infeasibility......: 1.6935753318836010e-12 1.6935753318836010e-08
Constraint violation....: 2.5611370801925659e-09 1.9073486328125000e-06
Complementarity.........: 2.5063437027451393e-09 2.5063437027451392e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5063437027451392e-05
Number of objective function evaluations = 182
Number of objective gradient evaluations = 86
Number of equality constraint evaluations = 182
Number of inequality constraint evaluations = 182
Number of equality constraint Jacobian evaluations = 115
Number of inequality constraint Jacobian evaluations = 115
Number of Lagrangian Hessian evaluations = 113
Total CPU secs in IPOPT (w/o function evaluations) = 5.760
Total CPU secs in NLP function evaluations = 335.535
EXIT: Optimal Solution Found.
Implemented Power (MPC) 334
Realized SOC (MPC) 897110
Fixed costs: 55834.68
Variable costs: 6780.12
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 129.17
Simulating time_step 2020-07-11 12:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.6485174e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.6484389e+08 1.00e+05 9.90e+01 -1.0 1.17e+06 - 4.81e-04 4.40e-04h 1
2 6.6496478e+08 9.98e+04 9.97e+01 -1.0 4.29e+05 - 5.59e-04 1.73e-03h 1
3 6.6530562e+08 9.94e+04 9.99e+01 -1.0 1.85e+05 - 2.18e-03 4.00e-03h 1
4 6.6596559e+08 9.87e+04 9.93e+01 -1.0 1.72e+05 - 6.34e-03 6.91e-03h 1
5 6.6868300e+08 9.59e+04 9.90e+01 -1.0 1.30e+05 - 1.54e-02 2.79e-02h 1
6 6.7812490e+08 8.64e+04 9.14e+01 -1.0 1.22e+05 - 8.76e-02 9.90e-02h 1
7 6.9328280e+08 7.12e+04 9.89e+01 -1.0 1.18e+05 - 4.28e-02 1.77e-01h 1
8 7.2670237e+08 3.75e+04 3.71e+01 -1.0 1.07e+05 - 6.83e-01 4.73e-01h 1
9 7.5762060e+08 5.71e+03 6.45e+00 -1.0 2.52e+05 - 7.74e-01 8.48e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.5766892e+08 5.60e+03 5.10e+02 -1.0 1.08e+06 - 5.66e-01 2.00e-02h 1
11 7.5759249e+08 5.04e+03 1.49e+03 -1.0 2.49e+06 - 9.65e-01 9.91e-02h 1
12 7.5085835e+08 5.00e+03 1.45e+03 -1.0 5.73e+07 - 1.55e-02 4.01e-02f 1
13 7.5055424e+08 4.99e+03 1.16e+03 -1.0 6.33e+07 - 4.63e-01 2.15e-03f 1
14 7.4482015e+08 5.16e+03 9.62e+02 -1.0 8.11e+07 - 2.48e-01 3.01e-02f 1
15 7.3772328e+08 4.96e+03 9.06e+02 -1.0 1.14e+08 - 1.51e-01 4.06e-02f 1
16 7.3188628e+08 7.31e+03 8.87e+02 -1.0 1.34e+08 - 2.89e-03 2.86e-02f 1
17 7.3102550e+08 7.38e+03 8.71e+02 -1.0 1.38e+08 - 1.66e-02 5.82e-03f 1
18 7.1599033e+08 4.48e+04 8.62e+02 -1.0 1.42e+08 - 2.67e-02 1.01e-01f 1
19 7.1580501e+08 4.48e+04 7.13e+02 -1.0 1.51e+08 - 1.99e-01 1.37e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.9387791e+08 3.57e+05 5.49e+02 -1.0 2.09e+08 - 2.47e-01 2.00e-01f 1
21 6.9365706e+08 3.57e+05 5.01e+02 -1.0 2.96e+08 - 2.26e-01 1.41e-03f 1
22 6.9371288e+08 3.37e+05 2.59e+02 -1.0 2.40e+06 - 9.09e-01 5.43e-02h 1
23 6.9389385e+08 2.28e+05 1.87e+02 -1.0 6.71e+06 - 4.58e-01 3.23e-01h 1
24 6.9387819e+08 1.83e+05 1.40e+02 -1.0 7.98e+06 - 9.25e-03 1.96e-01h 1
25 6.9375197e+08 1.88e+05 1.18e+02 -1.0 8.98e+06 - 3.36e-01 1.99e-01h 1
26 6.9203599e+08 1.33e+07 1.48e+01 -1.0 1.61e+07 - 2.76e-02 8.78e-01f 1
27 6.9199287e+08 1.31e+07 1.46e+01 -1.0 2.81e+07 - 3.67e-01 1.28e-02h 1
28 6.9169923e+08 1.24e+07 1.36e+01 -1.0 4.31e+07 - 1.38e-01 6.67e-02f 1
29 6.8670477e+08 1.07e+08 6.16e+01 -1.0 5.16e+07 - 1.63e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.8607729e+08 1.06e+08 6.04e+01 -1.0 4.16e+08 - 5.59e-02 1.63e-02f 1
31 6.8070623e+08 1.37e+08 5.17e+01 -1.0 2.96e+08 - 1.04e-01 1.94e-01f 1
32 6.8065310e+08 1.35e+08 5.10e+01 -1.0 5.63e+07 - 3.49e-01 1.07e-02h 1
33 6.8055640e+08 8.66e+07 3.28e+01 -1.0 1.39e+07 - 1.24e-01 3.58e-01h 1
34 6.8051082e+08 7.46e+07 2.82e+01 -1.0 1.48e+07 - 7.61e-01 1.39e-01h 1
35 6.8043854e+08 4.56e+07 1.82e+01 -1.0 3.47e+07 - 7.92e-01 3.87e-01h 1
36 6.8044403e+08 4.30e+07 1.89e+03 -1.0 1.56e+05 -4.0 2.22e-02 5.66e-02h 1
37 6.8045501e+08 4.07e+07 1.62e+03 -1.0 1.51e+06 - 4.25e-02 5.42e-02h 1
38 6.8055271e+08 2.52e+07 4.92e+04 -1.0 1.45e+06 - 1.05e-01 3.81e-01h 1
39 6.8072126e+08 1.27e+05 1.21e+05 -1.0 8.46e+05 - 3.48e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.8072086e+08 4.16e+01 6.31e+00 -1.0 4.43e+02 -4.5 9.94e-01 1.00e+00h 1
41 6.8070577e+08 5.31e-05 5.66e-03 -1.7 2.52e+00 -5.0 1.00e+00 1.00e+00f 1
42 6.8049412e+08 6.59e+04 1.75e+01 -3.8 6.75e+08 - 1.74e-01 2.80e-03f 1
43 6.8047161e+08 6.29e+04 1.06e+02 -3.8 2.20e+07 - 7.76e-01 4.59e-02f 1
44 6.8038568e+08 1.11e+06 9.57e+01 -3.8 2.16e+07 - 9.20e-01 4.93e-01f 1
45 6.8038330e+08 1.08e+06 9.30e+01 -3.8 2.04e+07 - 4.13e-01 2.98e-02h 1
46 6.8036352e+08 7.25e+05 6.49e+01 -3.8 1.98e+07 - 1.00e+00 3.33e-01h 1
47 6.8036000e+08 6.25e+05 5.60e+01 -3.8 1.54e+07 - 1.00e+00 1.38e-01h 1
48 6.8034296e+08 1.20e+07 2.66e+01 -3.8 5.09e+07 - 1.00e+00 5.32e-01h 1
49 6.8034295e+08 1.20e+07 2.66e+01 -3.8 2.22e+07 - 1.00e+00 1.83e-04h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.8032717e+08 3.85e+06 8.66e+00 -3.8 5.86e+05 - 1.00e+00 6.80e-01h 1
51 6.8031989e+08 2.14e+04 2.23e-02 -3.8 1.63e+05 - 1.00e+00 1.00e+00h 1
52 6.8031989e+08 6.92e+01 4.09e-08 -3.8 9.01e+02 - 1.00e+00 1.00e+00h 1
53 6.8031989e+08 2.80e-04 1.50e-09 -3.8 1.89e+00 - 1.00e+00 1.00e+00h 1
54 6.8031982e+08 6.73e-02 6.40e-08 -5.7 2.38e+03 - 1.00e+00 1.00e+00f 1
55 6.8031982e+08 1.10e-05 1.02e-11 -8.6 3.04e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 55
(scaled) (unscaled)
Objective...............: 6.8031981663250146e+04 6.8031981663250148e+08
Dual infeasibility......: 1.0163822713063437e-11 1.0163822713063437e-07
Constraint violation....: 3.7252902984619141e-09 1.0967254638671875e-05
Complementarity.........: 2.5436460878883048e-09 2.5436460878883046e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5436460878883046e-05
Number of objective function evaluations = 56
Number of objective gradient evaluations = 56
Number of equality constraint evaluations = 56
Number of inequality constraint evaluations = 56
Number of equality constraint Jacobian evaluations = 56
Number of inequality constraint Jacobian evaluations = 56
Number of Lagrangian Hessian evaluations = 55
Total CPU secs in IPOPT (w/o function evaluations) = 3.093
Total CPU secs in NLP function evaluations = 70.366
EXIT: Optimal Solution Found.
Implemented Power (MPC) 337
Realized SOC (MPC) 897110
Fixed costs: 55834.68
Variable costs: 11744.43
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 249.60
Simulating time_step 2020-07-11 13:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.8051982e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.8051196e+08 1.00e+05 9.90e+01 -1.0 1.17e+06 - 4.81e-04 4.40e-04h 1
2 6.8064337e+08 9.97e+04 1.00e+02 -1.0 3.99e+05 - 5.59e-04 2.17e-03h 1
3 6.8097102e+08 9.93e+04 1.00e+02 -1.0 2.28e+05 - 2.61e-03 4.30e-03h 1
4 6.8160210e+08 9.86e+04 9.93e+01 -1.0 1.73e+05 - 7.16e-03 7.41e-03h 1
5 6.8430773e+08 9.55e+04 9.90e+01 -1.0 1.24e+05 - 1.65e-02 3.11e-02h 1
6 6.9185022e+08 8.70e+04 8.62e+01 -1.0 1.22e+05 - 1.33e-01 8.90e-02h 1
7 7.1257188e+08 6.36e+04 9.71e+01 -1.0 1.21e+05 - 4.59e-02 2.69e-01h 1
8 7.4155316e+08 3.08e+04 3.05e+01 -1.0 1.05e+05 - 6.96e-01 5.15e-01h 1
9 7.6257147e+08 6.31e+03 6.25e+00 -1.0 2.75e+05 - 9.84e-01 7.95e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.6206558e+08 6.23e+03 4.94e+01 -1.0 1.42e+07 - 5.09e-02 1.20e-02f 1
11 7.5906201e+08 5.86e+03 8.16e+01 -1.0 1.77e+07 - 8.85e-02 6.17e-02f 1
12 7.5878338e+08 5.82e+03 1.12e+03 -1.0 1.93e+07 - 8.74e-01 6.58e-03f 1
13 7.5227391e+08 6.04e+03 1.07e+03 -1.0 1.14e+08 - 6.21e-02 2.25e-02f 1
14 7.4878939e+08 6.21e+03 9.44e+02 -1.0 1.23e+08 - 2.76e-01 1.93e-02f 1
15 7.3723353e+08 1.20e+04 8.70e+02 -1.0 1.83e+08 - 1.77e-01 4.35e-02f 1
16 7.3621322e+08 1.19e+04 8.59e+02 -1.0 2.14e+08 - 1.20e-02 8.03e-03f 1
17 7.3361696e+08 1.46e+04 8.36e+02 -1.0 2.20e+08 - 2.66e-02 2.23e-02f 1
18 7.2534530e+08 5.91e+04 7.63e+02 -1.0 2.31e+08 - 8.39e-02 6.85e-02f 1
19 7.2526248e+08 5.91e+04 6.49e+02 -1.0 2.12e+08 - 1.42e-01 7.46e-04f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.2609939e+08 4.22e+04 2.24e+02 -1.0 7.53e+05 - 5.61e-01 2.87e-01h 1
21 7.2711908e+08 2.14e+04 5.15e+01 -1.0 8.73e+05 - 8.91e-01 4.93e-01h 1
22 7.2747183e+08 2.90e+05 1.51e+01 -1.0 7.14e+06 - 8.20e-02 6.28e-01h 1
23 7.2745233e+08 2.87e+05 1.50e+01 -1.0 1.28e+07 - 2.00e-02 1.33e-02h 1
24 7.2726450e+08 2.50e+05 1.28e+01 -1.0 1.31e+07 - 1.02e-01 1.33e-01f 1
25 7.2695049e+08 5.08e+05 1.06e+01 -1.0 1.52e+07 - 1.34e-01 1.62e-01f 1
26 7.2626446e+08 1.76e+06 9.41e+00 -1.0 2.13e+07 - 5.83e-02 2.47e-01f 1
27 7.2417924e+08 5.38e+06 2.45e+01 -1.0 3.02e+07 - 1.22e-01 5.48e-01f 1
28 7.2403739e+08 5.28e+06 2.23e+01 -1.0 3.26e+07 - 6.90e-02 2.27e-02f 1
29 7.2243141e+08 6.88e+06 1.53e+01 -1.0 3.54e+07 - 2.90e-01 2.37e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.2233899e+08 6.81e+06 1.55e+01 -1.0 5.86e+07 - 7.59e-02 1.14e-02f 1
31 7.2190835e+08 6.71e+06 1.48e+01 -1.0 5.90e+07 - 4.03e-02 4.31e-02f 1
32 7.1523310e+08 6.94e+07 1.66e+01 -1.0 6.84e+07 - 5.87e-02 5.64e-01f 1
33 7.1342681e+08 6.17e+07 1.38e+01 -1.0 8.05e+07 - 2.28e-01 1.22e-01f 1
34 7.1016796e+08 5.57e+07 1.19e+01 -1.0 1.05e+08 - 3.05e-01 1.69e-01f 1
35 7.0087892e+08 7.75e+07 9.14e+00 -1.0 1.13e+08 - 2.72e-01 4.47e-01f 1
36 7.0078408e+08 7.68e+07 1.30e+01 -1.0 5.92e+07 - 6.17e-01 9.25e-03h 1
37 7.0043070e+08 7.13e+07 1.15e+01 -1.0 5.18e+07 - 1.91e-02 7.33e-02h 1
38 7.0042265e+08 7.06e+07 1.23e+01 -1.0 2.66e+07 - 1.09e-01 8.82e-03h 1
39 7.0030162e+08 5.68e+07 8.70e+00 -1.0 2.92e+07 - 4.86e-02 1.96e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.0028285e+08 5.33e+07 3.02e+01 -1.0 2.70e+07 - 7.38e-01 6.11e-02h 1
41 7.0025691e+08 4.40e+07 3.32e+01 -1.0 2.44e+07 - 8.41e-01 1.74e-01h 1
42 7.0027070e+08 4.16e+07 7.40e+03 -1.0 3.88e+05 -4.0 1.56e-02 5.64e-02h 1
43 7.0027522e+08 4.08e+07 6.95e+03 -1.0 2.18e+06 - 1.03e-02 1.93e-02h 1
44 7.0029474e+08 3.91e+07 5.34e+03 -1.0 2.14e+06 - 3.50e-02 4.10e-02h 1
45 7.0036467e+08 3.56e+07 4.65e+03 -1.0 2.20e+06 - 5.78e-03 8.96e-02h 1
46 7.0037430e+08 3.39e+07 3.93e+03 -1.0 3.12e+05 -4.5 4.10e-02 4.73e-02h 1
47 7.0037451e+08 3.39e+07 3.92e+03 -1.0 2.97e+05 -5.0 8.44e-02 1.01e-03h 1
48 7.0048162e+08 1.72e+07 1.32e+04 -1.0 2.97e+05 -5.4 2.57e-01 4.91e-01h 1
49 7.0059122e+08 9.36e+05 3.23e+04 -1.0 1.50e+05 -5.9 7.13e-01 9.45e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 7.0060122e+08 2.54e+01 7.26e+02 -1.0 7.62e+03 -6.4 2.58e-01 1.00e+00h 1
51 7.0053740e+08 5.11e+02 6.17e+02 -1.0 1.18e+07 - 4.76e-01 1.44e-02f 1
52 7.0031351e+08 5.71e+03 5.29e+02 -1.0 2.36e+06 - 9.94e-01 2.31e-01f 1
53 7.0028769e+08 3.56e+03 3.07e+02 -1.0 6.81e+05 - 1.00e+00 3.81e-01f 1
54 7.0026448e+08 1.45e+04 2.52e+01 -1.0 1.09e+06 - 1.00e+00 1.00e+00h 1
55 7.0026466e+08 8.31e-02 8.96e-03 -1.0 4.58e+02 -6.9 1.00e+00 1.00e+00h 1
56 7.0020982e+08 3.35e+07 9.09e+00 -2.5 6.04e+08 - 8.62e-02 8.63e-02f 1
57 7.0020806e+08 3.31e+07 3.19e+01 -2.5 1.50e+07 - 9.13e-01 1.30e-02h 1
58 7.0010999e+08 8.48e+05 1.39e+01 -2.5 2.92e+06 - 1.00e+00 9.96e-01h 1
59 7.0010993e+08 6.82e+05 1.12e+01 -2.5 3.57e+03 -7.3 6.33e-02 1.95e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 7.0010962e+08 6.75e+05 1.11e+01 -2.5 9.20e+06 - 9.32e-01 1.11e-02h 1
61 7.0010907e+08 6.44e+05 1.06e+01 -2.5 9.30e+06 - 1.00e+00 4.57e-02h 1
62 7.0010022e+08 3.34e+05 3.60e+00 -2.5 9.76e+06 - 1.00e+00 5.28e-01h 1
63 7.0009763e+08 3.23e+05 3.17e+00 -2.5 1.26e+07 - 1.00e+00 1.10e-01h 1
64 7.0009696e+08 1.56e+05 1.51e+00 -2.5 2.78e+05 - 1.00e+00 5.18e-01h 1
65 7.0009660e+08 1.69e+02 8.11e-03 -2.5 4.40e+04 - 1.00e+00 1.00e+00h 1
66 7.0009660e+08 1.01e-03 2.83e-08 -2.5 3.18e+02 - 1.00e+00 1.00e+00h 1
67 7.0009529e+08 1.92e+01 2.34e-05 -3.8 3.39e+04 - 1.00e+00 1.00e+00f 1
68 7.0009529e+08 3.45e-03 1.50e-09 -3.8 4.67e+02 - 1.00e+00 1.00e+00h 1
69 7.0009522e+08 5.61e-02 7.00e-08 -5.7 1.83e+03 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 7.0009522e+08 7.54e-06 1.01e-11 -8.6 2.12e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 70
(scaled) (unscaled)
Objective...............: 7.0009521608936819e+04 7.0009521608936810e+08
Dual infeasibility......: 1.0056168639021503e-11 1.0056168639021503e-07
Constraint violation....: 3.7252902984619141e-09 7.5399875640869141e-06
Complementarity.........: 2.5117902063275182e-09 2.5117902063275182e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5117902063275182e-05
Number of objective function evaluations = 71
Number of objective gradient evaluations = 71
Number of equality constraint evaluations = 71
Number of inequality constraint evaluations = 71
Number of equality constraint Jacobian evaluations = 71
Number of inequality constraint Jacobian evaluations = 71
Number of Lagrangian Hessian evaluations = 70
Total CPU secs in IPOPT (w/o function evaluations) = 3.179
Total CPU secs in NLP function evaluations = 89.084
EXIT: Optimal Solution Found.
Implemented Power (MPC) 347
Realized SOC (MPC) 1182216
Fixed costs: 55834.68
Variable costs: 17211.31
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 258.69
Simulating time_step 2020-07-11 14:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16016
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6079
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 7.0029522e+08 2.85e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 7.0028594e+08 2.85e+05 9.96e+01 -1.0 1.89e+07 - 1.83e-04 5.18e-04h 1
2 7.0033199e+08 2.85e+05 1.01e+02 -1.0 7.12e+06 - 7.69e-06 9.61e-04h 1
3 7.0050667e+08 2.84e+05 1.02e+02 -1.0 6.28e+06 - 3.53e-04 3.12e-03h 1
4 7.0074992e+08 2.83e+05 1.03e+02 -1.0 7.88e+05 - 7.78e-05 3.59e-03h 1
5 7.0108243e+08 2.81e+05 1.03e+02 -1.0 6.06e+05 - 4.23e-03 4.52e-03h 1
6 7.0236708e+08 2.77e+05 1.03e+02 -1.0 5.99e+05 - 9.82e-03 1.69e-02h 1
7 7.0908094e+08 2.52e+05 1.05e+02 -1.0 5.78e+05 - 3.04e-02 8.86e-02h 1
8 7.1372202e+08 2.35e+05 8.18e+01 -1.0 4.90e+05 - 2.12e-01 6.76e-02h 1
9 7.2407988e+08 1.97e+05 6.86e+01 -1.0 3.89e+05 - 2.63e-01 1.61e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.2420820e+08 1.97e+05 1.74e+03 -1.0 2.82e+05 - 4.18e-01 2.39e-03h 1
11 7.3061476e+08 1.73e+05 6.06e+03 -1.0 3.27e+05 - 4.37e-01 1.20e-01h 1
12 7.3171056e+08 1.69e+05 5.84e+03 -1.0 4.71e+05 - 5.52e-01 2.38e-02h 1
13 7.4189706e+08 1.29e+05 2.73e+03 -1.0 9.14e+05 - 6.06e-01 2.36e-01h 1
14 7.5356654e+08 7.44e+04 5.68e+02 -1.0 2.12e+06 - 7.52e-01 4.24e-01h 1
15 7.5350950e+08 7.37e+04 3.88e+02 -1.0 8.12e+06 - 3.32e-01 9.38e-03h 1
16 7.5198658e+08 6.70e+04 1.35e+03 -1.0 1.22e+07 - 8.70e-01 8.98e-02f 1
17 7.4969457e+08 6.58e+04 1.33e+03 -1.0 8.25e+07 - 4.94e-02 1.94e-02f 1
18 7.4751890e+08 6.38e+04 1.29e+03 -1.0 8.24e+07 - 2.63e-02 2.90e-02f 1
19 7.4727399e+08 6.36e+04 1.29e+03 -1.0 6.89e+07 - 6.49e-03 4.24e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.4003242e+08 5.54e+04 1.16e+03 -1.0 7.23e+07 - 3.03e-01 1.29e-01f 1
21 7.3987501e+08 5.52e+04 1.17e+03 -1.0 1.10e+08 - 8.39e-02 2.47e-03f 1
22 7.3692455e+08 5.22e+04 1.22e+03 -1.0 1.22e+08 - 7.97e-01 5.47e-02f 1
23 7.3675284e+08 5.16e+04 1.21e+03 -1.0 4.97e+07 - 4.79e-02 1.19e-02f 1
24 7.2061774e+08 1.74e+05 1.18e+03 -1.0 1.28e+09 - 2.03e-03 2.37e-02f 1
25 7.2045685e+08 1.74e+05 1.18e+03 -1.0 7.59e+08 - 6.17e-02 4.03e-04f 1
26 7.2095680e+08 1.59e+05 1.08e+03 -1.0 1.04e+07 - 3.21e-01 8.98e-02h 1
27 7.2503513e+08 3.70e+04 1.81e+02 -1.0 9.32e+06 - 4.34e-01 8.25e-01h 1
28 7.2512699e+08 3.12e+04 1.54e+02 -1.0 1.96e+06 - 2.68e-01 1.58e-01h 1
29 7.2543890e+08 1.91e+05 3.75e+01 -1.0 3.03e+06 - 2.81e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.2487068e+08 2.91e+05 3.68e+01 -1.0 4.94e+06 - 1.71e-02 4.30e-01f 1
31 7.2334504e+08 3.76e+06 1.81e+01 -1.0 7.76e+06 - 4.93e-01 1.00e+00f 1
32 7.2181352e+08 8.26e+06 1.46e+01 -1.0 5.04e+07 - 1.90e-01 2.12e-01f 1
33 7.2126044e+08 8.39e+06 1.13e+01 -1.0 7.57e+07 - 2.76e-01 5.55e-02f 1
34 7.1987443e+08 1.15e+07 9.89e+00 -1.0 1.13e+08 - 2.61e-01 9.47e-02f 1
35 7.1916877e+08 1.19e+07 1.51e+01 -1.0 1.12e+08 - 4.44e-01 4.97e-02f 1
36 7.1272426e+08 7.80e+07 9.51e+00 -1.0 1.25e+08 - 2.20e-01 3.65e-01f 1
37 7.1258922e+08 7.71e+07 1.18e+01 -1.0 8.90e+07 - 5.21e-01 1.09e-02f 1
38 7.0593250e+08 6.97e+07 7.26e+00 -1.0 9.50e+07 - 6.94e-01 5.19e-01f 1
39 7.0586325e+08 6.89e+07 1.12e+01 -1.0 4.92e+07 - 8.37e-01 1.16e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.0485554e+08 4.11e+07 1.84e+01 -1.0 5.28e+07 - 7.56e-01 4.67e-01h 1
41 7.0426135e+08 2.76e+07 1.45e+01 -1.0 2.60e+07 - 9.49e-01 5.33e-01h 1
42 7.0412904e+08 2.06e+07 1.09e+01 -1.0 1.09e+07 - 1.00e+00 2.89e-01h 1
43 7.0412761e+08 1.81e+07 9.73e+00 -1.0 7.30e+06 - 1.00e+00 1.21e-01h 1
44 7.0413073e+08 2.20e+06 1.52e+00 -1.0 1.11e+07 - 1.00e+00 1.00e+00h 1
45 7.0413126e+08 1.29e+05 3.23e-02 -1.0 1.94e+06 - 1.00e+00 1.00e+00h 1
46 7.0413122e+08 1.19e+03 2.33e-04 -1.0 3.24e+05 - 1.00e+00 1.00e+00h 1
47 7.0409847e+08 4.20e+04 7.90e+00 -1.7 1.91e+06 - 1.00e+00 7.53e-01f 1
48 7.0409525e+08 2.09e+00 2.74e+01 -1.7 9.23e+02 -4.0 1.00e+00 1.00e+00h 1
49 7.0408921e+08 1.54e+00 1.83e+01 -2.5 1.94e+04 - 1.00e+00 2.65e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 7.0408299e+08 3.89e+00 2.45e+01 -2.5 1.59e+04 - 1.00e+00 1.00e+00f 1
51 7.0408174e+08 6.88e+04 2.12e+01 -2.5 1.34e+07 - 8.85e-01 1.35e-01f 1
52 7.0408058e+08 1.18e+06 1.78e+01 -2.5 5.00e+07 - 6.71e-01 1.57e-01h 1
53 7.0407953e+08 4.63e+04 1.22e-02 -2.5 6.59e+05 - 1.00e+00 1.00e+00h 1
54 7.0407931e+08 6.13e+03 6.47e-04 -2.5 5.19e+05 - 1.00e+00 1.00e+00h 1
55 7.0407930e+08 2.56e+01 1.39e-06 -2.5 2.27e+04 - 1.00e+00 1.00e+00h 1
56 7.0407810e+08 1.67e+02 1.02e-01 -3.8 8.17e+04 - 1.00e+00 9.05e-01h 1
57 7.0407798e+08 1.09e+00 5.00e-07 -3.8 8.82e+03 - 1.00e+00 1.00e+00h 1
58 7.0407791e+08 3.42e-01 1.25e-07 -5.7 3.36e+03 - 1.00e+00 1.00e+00h 1
59 7.0407791e+08 2.52e-05 1.85e-11 -5.7 2.92e+01 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 7.0407790e+08 4.95e-05 1.80e-11 -8.6 4.04e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 60
(scaled) (unscaled)
Objective...............: 7.0407790450907036e+04 7.0407790450907028e+08
Dual infeasibility......: 1.8037265545777685e-11 1.8037265545777685e-07
Constraint violation....: 5.3995476768072347e-09 4.9538910388946533e-05
Complementarity.........: 2.6403436465439624e-09 2.6403436465439621e-05
Overall NLP error.......: 5.3995476768072347e-09 4.9538910388946533e-05
Number of objective function evaluations = 61
Number of objective gradient evaluations = 61
Number of equality constraint evaluations = 61
Number of inequality constraint evaluations = 61
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 60
Total CPU secs in IPOPT (w/o function evaluations) = 2.879
Total CPU secs in NLP function evaluations = 76.138
EXIT: Optimal Solution Found.
Implemented Power (MPC) 384
Realized SOC (MPC) 1163381
Fixed costs: 55834.68
Variable costs: 36675.50
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 830.36
Simulating time_step 2020-07-11 15:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16012
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6078
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 7.0427790e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 7.0426610e+08 9.99e+04 9.91e+01 -1.0 8.26e+05 - 7.52e-04 6.57e-04h 1
2 7.0432353e+08 9.96e+04 9.95e+01 -1.0 1.95e+05 - 9.84e-04 3.24e-03h 1
3 7.0447593e+08 9.91e+04 9.93e+01 -1.0 1.79e+05 - 3.95e-03 4.75e-03h 1
4 7.0487668e+08 9.81e+04 9.85e+01 -1.0 1.31e+05 - 9.29e-03 1.02e-02h 1
5 7.0658935e+08 9.40e+04 9.76e+01 -1.0 1.07e+05 - 2.56e-02 4.23e-02h 1
6 7.1097873e+08 8.34e+04 8.27e+01 -1.0 1.07e+05 - 2.43e-01 1.12e-01h 1
7 7.2828003e+08 4.16e+04 7.08e+01 -1.0 1.15e+05 - 2.26e-01 5.01e-01h 1
8 7.4272350e+08 6.27e+03 6.21e+00 -1.0 1.23e+05 - 9.86e-01 8.49e-01h 1
9 7.4246402e+08 6.20e+03 7.70e+01 -1.0 7.41e+06 - 8.07e-02 1.18e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3874819e+08 5.30e+03 6.80e+02 -1.0 8.97e+06 - 6.12e-01 1.45e-01f 1
11 7.3804046e+08 5.23e+03 7.04e+02 -1.0 2.25e+07 - 8.74e-02 1.30e-02f 1
12 7.3545275e+08 5.00e+03 9.83e+02 -1.0 2.47e+07 - 8.38e-01 4.44e-02f 1
13 7.3044270e+08 4.88e+03 9.58e+02 -1.0 1.22e+08 - 2.67e-02 2.31e-02f 1
14 7.2851990e+08 4.83e+03 8.97e+02 -1.0 1.12e+08 - 6.93e-02 1.16e-02f 1
15 7.2681306e+08 4.74e+03 7.35e+02 -1.0 1.14e+08 - 5.03e-01 1.87e-02f 1
16 7.2403124e+08 6.50e+03 7.03e+02 -1.0 2.14e+08 - 4.79e-02 2.38e-02f 1
17 7.2396589e+08 6.33e+03 8.75e+01 -1.0 3.80e+07 - 6.66e-01 2.52e-02h 1
18 7.1928974e+08 1.22e+06 2.72e+02 -1.0 9.63e+07 - 3.33e-02 7.98e-01f 1
19 7.1730702e+08 1.08e+06 1.77e+02 -1.0 1.00e+08 - 4.50e-01 2.59e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.1728632e+08 1.08e+06 1.76e+02 -1.0 1.15e+08 - 7.85e-01 2.26e-03h 1
21 7.1606226e+08 2.82e+06 3.49e+01 -1.0 1.20e+07 - 3.52e-02 8.99e-01f 1
22 7.1592399e+08 2.77e+06 3.43e+01 -1.0 5.68e+07 - 6.79e-03 1.67e-02f 1
23 7.1404037e+08 1.22e+07 2.65e+01 -1.0 6.42e+07 - 1.13e-01 2.09e-01f 1
24 7.1399893e+08 1.21e+07 2.64e+01 -1.0 8.48e+07 - 1.79e-01 3.87e-03f 1
25 7.1325836e+08 1.17e+07 2.35e+01 -1.0 5.27e+07 - 1.13e-01 1.05e-01f 1
26 7.1170095e+08 1.54e+07 1.93e+01 -1.0 7.90e+07 - 4.70e-03 1.66e-01f 1
27 7.1158030e+08 1.52e+07 1.90e+01 -1.0 5.90e+07 - 5.00e-02 1.61e-02f 1
28 7.1108826e+08 1.47e+07 1.79e+01 -1.0 6.74e+07 - 2.81e-01 5.98e-02f 1
29 7.0987403e+08 1.62e+07 1.60e+01 -1.0 1.04e+08 - 1.83e-02 9.90e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 7.0920041e+08 1.59e+07 1.50e+01 -1.0 8.86e+07 - 8.41e-02 6.22e-02f 1
31 7.0452007e+08 5.58e+07 9.67e+00 -1.0 9.71e+07 - 1.67e-01 4.22e-01f 1
32 7.0250694e+08 4.75e+07 1.01e+01 -1.0 7.82e+07 - 3.84e-01 2.24e-01f 1
33 7.0253343e+08 3.84e+07 1.79e+04 -1.0 3.04e+05 -4.0 1.88e-02 1.91e-01h 1
34 7.0253460e+08 3.73e+07 1.72e+04 -1.0 1.99e+06 - 1.39e-02 2.83e-02h 1
35 7.0256780e+08 3.38e+07 1.39e+04 -1.0 2.10e+06 - 2.15e-02 9.32e-02h 1
36 7.0260720e+08 3.04e+07 2.23e+04 -1.0 2.03e+06 - 1.01e-01 1.03e-01h 1
37 7.0284608e+08 1.02e+07 6.58e+05 -1.0 1.83e+06 - 2.08e-01 6.70e-01h 1
38 7.0293217e+08 3.83e+04 1.38e+05 -1.0 5.29e+05 - 9.84e-01 1.00e+00h 1
39 7.0293237e+08 1.44e-01 3.89e-01 -1.0 1.26e+02 -4.5 9.97e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 7.0291627e+08 1.62e-02 3.46e+01 -2.5 2.93e+00 -5.0 1.00e+00 8.87e-01f 1
41 7.0291554e+08 2.56e-06 1.16e-03 -2.5 9.24e+00 -5.4 1.00e+00 1.00e+00f 1
42 7.0250447e+08 1.01e+06 8.88e-02 -3.8 1.12e+10 - 1.31e-03 4.82e-04f 1
43 7.0233124e+08 1.22e+06 1.01e-01 -3.8 4.96e+09 - 6.46e-04 4.70e-04f 1
44 7.0171716e+08 4.21e+06 1.59e+00 -3.8 5.39e+09 - 1.82e-02 1.71e-03f 1
45 7.0084103e+08 1.03e+07 1.61e+00 -3.8 4.69e+09 - 3.52e-03 3.21e-03f 1
46 7.0084123e+08 8.80e+06 1.48e+01 -3.8 2.05e+04 -5.9 2.12e-02 1.49e-01h 1
47 7.0084106e+08 8.80e+06 1.48e+01 -3.8 1.13e+08 - 2.68e-03 1.33e-05h 1
48 7.0069203e+08 8.68e+06 1.51e+01 -3.8 1.09e+08 - 3.51e-03 1.37e-02f 1
49 7.0066826e+08 8.65e+06 1.51e+01 -3.8 6.38e+07 - 3.44e-03 3.30e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 7.0057476e+08 8.53e+06 1.51e+01 -3.8 5.83e+07 - 4.83e-03 1.38e-02f 1
51 7.0043707e+08 8.35e+06 1.79e+01 -3.8 5.89e+07 - 1.96e-01 2.03e-02f 1
52 6.9965847e+08 7.36e+06 1.27e+02 -3.8 6.00e+07 - 3.85e-02 1.14e-01f 1
53 6.9965808e+08 7.36e+06 1.27e+02 -3.8 6.70e+07 - 3.98e-01 5.27e-05h 1
54 6.9958782e+08 7.29e+06 1.26e+02 -3.8 6.70e+07 - 7.51e-01 9.69e-03f 1
55 6.9901079e+08 6.71e+06 9.18e+01 -3.8 6.73e+07 - 1.00e+00 8.38e-02f 1
56 6.9900763e+08 6.71e+06 9.17e+01 -3.8 6.49e+07 - 2.23e-01 5.16e-04h 1
57 6.9868973e+08 6.20e+06 7.27e+01 -3.8 4.43e+07 - 1.00e+00 7.56e-02f 1
58 6.9863482e+08 3.57e+06 3.80e+02 -3.8 9.41e+06 - 2.79e-01 4.09e-01h 1
59 6.9842516e+08 3.01e+06 1.37e+03 -3.8 1.65e+07 - 4.75e-01 7.14e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.9806804e+08 8.45e+06 1.18e+03 -3.8 5.86e+07 - 1.41e-04 2.97e-01f 1
61 6.9806787e+08 8.45e+06 1.18e+03 -3.8 7.60e+07 - 8.55e-03 6.49e-05h 1
62 6.9803261e+08 8.35e+06 1.16e+03 -3.8 6.91e+07 - 1.14e-01 1.43e-02h 1
63 6.9803245e+08 8.35e+06 1.16e+03 -3.8 5.98e+07 - 2.29e-02 1.38e-04h 1
64 6.9791384e+08 7.44e+06 1.03e+03 -3.8 5.99e+07 - 5.08e-01 1.09e-01h 1
65 6.9791367e+08 7.44e+06 1.03e+03 -3.8 2.92e+07 - 1.67e-01 4.29e-04h 1
66 6.9791104e+08 6.88e+06 9.54e+02 -3.8 1.05e+07 - 6.03e-01 7.53e-02h 1
67 6.9787072e+08 1.66e+06 3.57e+01 -3.8 1.14e+07 - 3.88e-01 1.00e+00h 1
68 6.9787074e+08 1.65e+06 5.63e+01 -3.8 6.68e+04 -6.4 3.76e-04 4.25e-03h 1
69 6.9787072e+08 1.65e+06 5.63e+01 -3.8 4.71e+06 - 6.39e-03 1.69e-04h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.9787019e+08 1.57e+06 5.48e+01 -3.8 9.56e+06 - 3.49e-01 4.67e-02h 1
71 6.9786699e+08 9.34e+05 3.20e+01 -3.8 5.10e+06 - 2.82e-01 4.10e-01h 1
72 6.9786699e+08 9.25e+05 9.17e+01 -3.8 5.04e+04 -6.9 5.52e-04 9.28e-03h 1
73 6.9786636e+08 6.92e+05 6.83e+01 -3.8 2.46e+07 - 2.20e-01 2.53e-01h 1
74 6.9786604e+08 6.89e+05 6.86e+01 -3.8 5.33e+07 - 1.37e-01 4.60e-03h 1
75 6.9785919e+08 4.66e+05 4.88e+01 -3.8 2.65e+06 - 1.00e+00 3.29e-01h 1
76 6.9784849e+08 3.86e+05 4.07e+01 -3.8 6.23e+06 - 1.00e+00 1.00e+00h 1
77 6.9784847e+08 3.64e+05 5.47e+01 -3.8 2.42e+04 -7.3 6.84e-03 5.57e-02h 1
78 6.9784843e+08 3.64e+05 6.22e+01 -3.8 2.74e+07 - 1.00e+00 1.71e-04h 1
79 6.9782445e+08 3.88e+05 5.17e+01 -3.8 2.74e+07 - 1.00e+00 1.70e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.9782444e+08 3.86e+05 5.14e+01 -3.8 1.01e+06 - 1.00e+00 4.54e-03h 1
81 6.9782250e+08 1.09e+04 5.77e+00 -3.8 1.02e+06 - 1.00e+00 1.00e+00h 1
82 6.9782248e+08 3.92e-02 3.93e+00 -3.8 6.83e+02 -7.8 7.00e-01 1.00e+00h 1
83 6.9782248e+08 3.73e-02 5.61e+00 -3.8 5.08e+02 -8.3 1.00e+00 4.85e-02h 1
84 6.9782248e+08 3.40e-03 1.80e-04 -3.8 2.95e+01 -8.8 1.00e+00 1.00e+00f 1
85 6.9782243e+08 5.70e-04 3.49e-01 -5.7 1.87e+02 -9.2 1.00e+00 8.24e-01f 1
86 6.9782242e+08 3.41e-03 1.43e-01 -5.7 5.72e+02 -9.7 1.00e+00 7.24e-01f 1
87 6.9782241e+08 3.62e-03 5.89e-01 -5.7 6.67e+02 -10.2 1.00e+00 4.55e-01f 1
88 6.9782241e+08 9.74e-03 4.96e-06 -5.7 1.03e+03 -10.7 1.00e+00 1.00e+00f 1
89 6.9782241e+08 1.04e-02 2.37e-02 -8.6 2.71e+03 -11.2 1.00e+00 1.94e-01h 1
In iteration 89, 1 Slack too small, adjusting variable bound
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90 6.9782240e+08 3.42e-01 1.02e-03 -8.6 6.02e+03 -11.6 1.00e+00 9.96e-01h 1
91 6.9782239e+08 3.11e+00 8.43e-07 -8.6 1.81e+04 -12.1 1.00e+00 1.00e+00h 1
92 6.9782233e+08 2.81e+01 6.18e-06 -8.6 5.44e+04 -12.6 1.00e+00 1.00e+00h 1
93 6.9782218e+08 2.57e+02 5.66e-05 -8.6 1.65e+05 -13.1 1.00e+00 1.00e+00h 1
94 6.9782169e+08 2.43e+03 5.35e-04 -8.6 5.06e+05 -13.5 1.00e+00 1.00e+00h 1
95 6.9782007e+08 2.55e+04 5.60e-03 -8.6 1.64e+06 -14.0 1.00e+00 1.00e+00h 1
96 6.9781333e+08 3.78e+05 8.25e-02 -8.6 6.27e+06 -14.5 1.00e+00 1.00e+00h 1
97 6.9780240e+08 8.95e+05 1.99e-01 -8.6 5.35e+07 -15.0 4.79e-01 1.45e-01h 1
98 6.9779069e+08 1.09e+06 1.76e-01 -8.6 1.10e+07 -14.5 1.00e+00 9.71e-01h 1
99r 6.9779069e+08 1.09e+06 9.99e+02 2.4 0.00e+00 -15.0 0.00e+00 1.10e-08R 2
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 6.9779079e+08 1.17e+06 9.99e+02 2.4 2.09e+11 - 3.11e-08 2.82e-08f 1
101 6.9778987e+08 1.17e+06 9.50e+01 -8.6 1.78e+15 - 3.29e-08 1.82e-09f 1
102 6.9776948e+08 3.26e+07 9.50e+01 -8.6 4.04e+15 - 1.81e-08 1.25e-08f 1
103r 6.9776948e+08 3.26e+07 9.99e+02 3.8 0.00e+00 - 0.00e+00 5.45e-10R 2
104r 6.9776948e+08 3.26e+07 1.03e+03 3.8 2.09e+11 - 7.02e-09 1.51e-11f 4
105r 6.9791671e+08 2.03e+07 1.00e+03 1.7 5.49e+06 - 8.61e-03 1.11e-03f 1
106r 6.9830687e+08 1.06e+07 1.01e+03 1.7 2.31e+06 - 2.18e-03 4.97e-03f 1
107r 6.9852616e+08 8.18e+06 9.77e+02 1.7 2.16e+05 - 1.62e-02 2.88e-03f 1
108r 7.0001015e+08 2.36e+06 9.45e+03 1.7 2.09e+05 - 4.16e-01 2.02e-02f 1
109r 7.1401460e+08 1.07e+06 6.91e+03 1.7 1.89e+05 - 1.25e-01 2.36e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 7.2062394e+08 7.56e+05 8.02e+03 1.7 1.39e+02 0.0 8.54e-01 1.67e-01f 1
111r 7.2387056e+08 6.39e+05 7.27e+03 1.7 5.15e+04 - 3.91e-01 1.25e-01f 1
112r 7.3955696e+08 1.93e+05 3.00e+03 1.7 4.54e+04 - 1.00e+00 6.18e-01f 1
113r 7.4877386e+08 3.78e+04 1.01e+03 1.7 1.15e+04 - 1.00e+00 8.04e-01f 1
114r 7.5068534e+08 1.51e+03 5.02e+01 1.7 2.84e+04 - 1.00e+00 1.00e+00f 1
115r 7.2916487e+08 3.17e+03 1.21e+03 0.3 1.02e+04 - 7.58e-01 8.46e-01f 1
116r 7.2797772e+08 2.66e+04 2.28e+03 0.3 1.56e+05 - 2.72e-01 5.55e-01f 1
117r 7.2669809e+08 1.78e+04 4.83e+02 0.3 8.33e+04 - 8.95e-01 5.81e-01f 1
118r 7.2659316e+08 1.73e+04 1.07e+03 0.3 2.32e+04 - 9.92e-01 2.55e-02f 1
119r 7.2153355e+08 1.62e+02 8.93e+00 0.3 1.48e+04 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 7.1177524e+08 8.36e+01 1.21e+02 -1.1 9.27e+03 - 1.00e+00 8.53e-01f 1
121r 7.1167213e+08 8.58e+02 5.23e+02 -1.1 3.98e+05 - 4.34e-01 9.55e-02f 1
122r 7.1135706e+08 4.05e+03 5.34e+02 -1.1 3.60e+05 - 6.20e-01 2.14e-01f 1
123r 7.1037396e+08 1.45e+04 2.81e+02 -1.1 2.83e+05 - 1.00e+00 4.99e-01f 1
124r 7.0843953e+08 1.44e+04 8.94e+00 -1.1 1.42e+05 - 1.00e+00 1.00e+00f 1
125r 7.0835313e+08 1.84e+00 8.94e+00 -1.1 5.19e+02 - 1.00e+00 1.00e+00h 1
126r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 9.33e+00 - 1.00e+00 1.00e+00h 1
127r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 1.03e-02 - 1.00e+00 1.00e+00h 1
128r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00h 1
129r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00h 1
131r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00H 1
132r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.80e-05 - 1.00e+00 1.00e+00h 1
133r 7.0835277e+08 1.84e+00 6.71e+00 -1.1 2.84e-03 - 1.00e+00 2.50e-01h 3
134r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 7.10e-04 - 1.00e+00 1.00e+00h 1
135r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00h 1
136r 7.0835277e+08 1.84e+00 4.47e+00 -1.1 2.84e-03 - 1.00e+00 5.00e-01h 2
137r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 1.42e-03 - 1.00e+00 1.00e+00h 1
138r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 2.84e-03 - 1.00e+00 1.00e+00H 1
139r 7.0835277e+08 1.84e+00 8.92e+00 -1.1 3.43e-05 - 1.00e+00 1.95e-03h 10
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 7.0835277e+08 1.84e+00 4.46e+00 -1.1 3.21e-05 - 1.00e+00 5.00e-01h 2
141r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 1.64e-05 - 1.00e+00 1.00e+00h 1
142r 7.0835277e+08 1.84e+00 4.47e+00 -1.1 2.84e-03 - 1.00e+00 5.00e-01h 2
143r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 1.42e-03 - 1.00e+00 1.00e+00h 1
144r 7.0835277e+08 1.84e+00 4.47e+00 -1.1 2.84e-03 - 1.00e+00 5.00e-01h 2
145r 7.0835277e+08 1.84e+00 8.94e+00 -1.1 1.42e-03 - 1.00e+00 1.00e+00h 1
146r 7.0835277e+08 1.84e+00 4.47e+00 -1.1 2.84e-03 - 1.00e+00 5.00e-01h 2
147r 7.0835277e+08 1.84e+00 4.46e+00 -1.1 1.42e-03 - 1.00e+00 1.95e-03h 10
148r 7.0835277e+08 1.84e+00 2.23e+00 -1.1 1.42e-03 - 1.00e+00 5.00e-01h 2
149r 7.0411552e+08 1.85e+00 8.94e+00 -1.8 1.56e+03 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 7.0423364e+08 7.11e+03 4.44e+01 -1.8 6.11e+05 - 2.66e-01 2.23e-01f 1
151r 7.0448429e+08 2.58e+04 1.38e+02 -1.8 4.73e+05 - 1.00e+00 5.10e-01f 1
152r 7.0448884e+08 2.55e+04 3.04e+02 -1.8 2.24e+05 - 8.81e-01 1.09e-02f 1
153r 7.0464889e+08 1.84e+04 1.92e+02 -1.8 1.54e+05 - 1.00e+00 4.02e-01f 1
154r 7.0465365e+08 1.81e+04 1.91e+02 -1.8 8.70e+04 - 1.00e+00 1.99e-02f 1
155r 7.0488914e+08 2.36e+03 6.44e+00 -1.8 8.25e+04 - 1.00e+00 1.00e+00f 1
156r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 2.54e+02 - 1.00e+00 1.00e+00h 1
157r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 1.70e+00 - 1.00e+00 1.00e+00h 1
158r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 1.76e-03 - 1.00e+00 1.00e+00h 1
159r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 1.68e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.59e-04 - 1.00e+00 1.00e+00h 1
161r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.60e-04 - 1.00e+00 1.00e+00h 1
162r 7.0488916e+08 9.50e-01 3.22e+00 -1.8 1.75e-03 - 1.00e+00 5.00e-01h 2
163r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 8.50e-04 - 1.00e+00 1.00e+00h 1
164r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.60e-04 - 1.00e+00 1.00e+00h 1
165r 7.0488916e+08 9.50e-01 3.22e+00 -1.8 7.60e-04 - 1.00e+00 5.00e-01h 2
166r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 3.81e-04 - 1.00e+00 1.00e+00h 1
167r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.61e-04 - 1.00e+00 1.00e+00h 1
168r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.61e-04 - 1.00e+00 3.05e-05h 16
169r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.61e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 7.0488916e+08 9.50e-01 3.22e+00 -1.8 7.61e-04 - 1.00e+00 5.00e-01h 2
171r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 3.80e-04 - 1.00e+00 1.00e+00h 1
172r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.61e-04 - 1.00e+00 3.05e-05h 16
173r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.61e-04 - 1.00e+00 1.00e+00h 1
174r 7.0488916e+08 9.50e-01 6.34e+00 -1.8 7.60e-04 - 1.00e+00 1.56e-02h 7
175r 7.0488916e+08 9.50e-01 3.17e+00 -1.8 7.49e-04 - 1.00e+00 5.00e-01h 2
176r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 3.74e-04 - 1.00e+00 1.00e+00h 1
177r 7.0488916e+08 9.50e-01 6.44e+00 -1.8 7.60e-04 - 1.00e+00 4.88e-04h 12
178r 7.0488916e+08 9.50e-01 3.09e-01 -1.8 1.42e-04 - 1.00e+00 7.81e-03h 8
179r 7.0199149e+08 9.52e-01 1.67e+01 -2.7 2.25e+03 - 1.00e+00 9.36e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 7.0199535e+08 2.49e+02 4.46e+02 -2.7 1.03e+06 - 4.65e-01 3.28e-02f 1
181r 7.0199692e+08 2.70e+02 4.52e+02 -2.7 9.63e+05 - 3.46e-02 1.27e-02f 1
182r 7.0199712e+08 2.69e+02 7.16e+02 -2.7 7.22e+05 - 3.06e-01 2.62e-03f 1
183r 7.0203295e+08 1.32e+03 6.56e+02 -2.7 7.20e+05 - 9.75e-01 4.72e-01f 1
184r 7.0204490e+08 1.09e+03 4.95e+02 -2.7 3.80e+05 - 8.37e-01 2.55e-01f 1
185r 7.0204493e+08 1.09e+03 4.96e+02 -2.7 2.58e+05 - 1.00e+00 9.07e-04f 1
186r 7.0205208e+08 8.64e+02 3.66e+02 -2.7 2.57e+05 - 1.00e+00 2.62e-01f 1
187r 7.0205212e+08 8.61e+02 3.53e+02 -2.7 5.06e+04 - 1.00e+00 2.68e-03h 1
188r 7.0206241e+08 8.36e+01 3.39e+01 -2.7 7.54e+03 - 1.00e+00 9.03e-01h 1
189r 7.0206350e+08 4.43e-03 2.13e+00 -2.7 7.32e+02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 7.0206350e+08 4.43e-03 2.13e+00 -2.7 2.25e+00 - 1.00e+00 1.00e+00h 1
191r 7.0206350e+08 4.43e-03 1.06e+00 -2.7 6.81e-04 - 1.00e+00 5.00e-01h 2
192r 7.0206350e+08 4.43e-03 2.13e+00 -2.7 3.41e-04 - 1.00e+00 1.00e+00h 1
193r 7.0206350e+08 4.43e-03 2.13e+00 -2.7 1.20e-04 - 1.00e+00 1.00e+00h 1
194r 7.0206350e+08 4.43e-03 2.12e+00 -2.7 1.17e-04 - 1.00e+00 1.95e-03h 10
195r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.19e-04 - 1.00e+00 1.00e+00h 1
196r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.60e-05 - 1.00e+00 1.00e+00h 1
197r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.69e-05 - 1.00e+00 1.00e+00h 1
198r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.33e-05 - 1.00e+00 1.00e+00h 1
199r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.36e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 7.0206350e+08 4.43e-03 1.07e+00 -2.7 1.39e-05 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 7.0206349998483885e+04 7.0206349998483884e+08
Dual infeasibility......: 9.9990993963818028e+01 9.9990993963818031e+05
Constraint violation....: 4.4314433032728306e-03 4.4314433032728306e-03
Complementarity.........: 1.9761824321884243e-03 1.9761824321884241e+01
Overall NLP error.......: 9.9990993963818028e+01 9.9990993963818031e+05
Number of objective function evaluations = 321
Number of objective gradient evaluations = 105
Number of equality constraint evaluations = 321
Number of inequality constraint evaluations = 321
Number of equality constraint Jacobian evaluations = 203
Number of inequality constraint Jacobian evaluations = 203
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 6.871
Total CPU secs in NLP function evaluations = 465.594
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 387
Realized SOC (MPC) 1258117
Fixed costs: 121683.17
Variable costs: 29525.51
Number on/offs: 2
Sum on/off ramps: 340.00
Sum nominal ramps: 289.91
Simulating time_step 2020-07-11 16:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16008
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6077
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 7.0206350e+08 9.47e+04 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.9955604e+08 9.42e+04 9.78e+01 -1.0 2.10e+06 - 2.46e-02 5.97e-03f 1
2 6.9936665e+08 9.31e+04 9.68e+01 -1.0 2.17e+06 - 6.19e-03 1.14e-02h 1
3 6.9949749e+08 9.16e+04 9.46e+01 -1.0 2.21e+06 - 2.16e-02 1.62e-02h 1
4 7.0033777e+08 8.88e+04 9.17e+01 -1.0 2.13e+06 - 3.04e-02 3.01e-02h 1
5 7.0227579e+08 8.37e+04 8.64e+01 -1.0 2.05e+06 - 5.77e-02 5.81e-02h 1
6 7.0682109e+08 7.21e+04 7.44e+01 -1.0 1.94e+06 - 1.46e-01 1.38e-01h 1
7 7.1559009e+08 4.99e+04 5.15e+01 -1.0 1.69e+06 - 4.52e-01 3.08e-01h 1
8 7.3191682e+08 8.04e+03 3.51e+01 -1.0 1.27e+06 - 6.21e-01 8.39e-01h 1
9 7.3214034e+08 7.08e+03 3.84e+02 -1.0 6.08e+05 - 9.42e-01 1.20e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 7.3088297e+08 6.61e+03 3.31e+02 -1.0 7.29e+06 - 1.09e-01 6.59e-02f 1
11 7.2884764e+08 5.98e+03 7.02e+02 -1.0 8.41e+06 - 6.06e-01 9.54e-02f 1
12 7.2798143e+08 5.86e+03 7.25e+02 -1.0 2.05e+07 - 1.00e-01 2.00e-02f 1
13 7.2586688e+08 5.60e+03 7.03e+02 -1.0 2.28e+07 - 7.31e-02 4.54e-02f 1
14 7.2513419e+08 5.48e+03 7.84e+02 -1.0 2.45e+07 - 2.88e-01 2.05e-02f 1
15 7.2350254e+08 5.25e+03 7.82e+02 -1.0 3.35e+07 - 1.88e-01 4.30e-02f 1
16 7.2093049e+08 4.86e+03 8.01e+02 -1.0 3.94e+07 - 5.84e-01 7.33e-02f 1
17 7.2016658e+08 4.73e+03 7.68e+02 -1.0 5.14e+07 - 8.99e-02 2.68e-02f 1
18 6.9886436e+08 2.86e+05 4.11e+02 -1.0 5.85e+07 - 4.78e-01 6.65e-01f 1
19 6.9865364e+08 2.86e+05 4.10e+02 -1.0 1.56e+08 - 2.94e-01 2.42e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.9852874e+08 2.78e+05 4.08e+02 -1.0 3.16e+07 - 6.14e-01 2.68e-02f 1
21 6.9159259e+08 4.74e+05 5.52e+02 -1.0 7.69e+07 - 1.26e-01 6.16e-01f 1
22 6.8433181e+08 7.59e+05 4.11e+02 -1.0 8.41e+07 - 5.52e-01 5.74e-01f 1
23 6.8425237e+08 7.57e+05 4.10e+02 -1.0 1.41e+08 - 4.43e-01 3.47e-03f 1
24 6.8365973e+08 7.32e+05 3.97e+02 -1.0 2.09e+08 - 3.35e-01 3.25e-02f 1
25 6.8363428e+08 7.20e+05 3.90e+02 -1.0 8.43e+06 - 9.10e-01 1.62e-02h 1
26 6.8234567e+08 1.56e+06 3.49e+02 -1.0 8.55e+07 - 2.35e-02 1.09e-01f 1
27 6.8212216e+08 1.58e+06 3.42e+02 -1.0 8.91e+07 - 7.85e-02 2.06e-02f 1
28 6.8160857e+08 1.86e+06 3.21e+02 -1.0 1.03e+08 - 1.09e-01 6.16e-02f 1
29 6.8150551e+08 1.82e+06 3.14e+02 -1.0 7.15e+07 - 6.39e-01 2.26e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.7782607e+08 3.76e+07 9.19e+01 -1.0 7.07e+07 - 3.25e-01 8.32e-01f 1
31 6.7773808e+08 1.72e+07 4.17e+01 -1.0 7.43e+06 - 7.40e-01 5.51e-01h 1
32 6.7773998e+08 1.44e+07 2.11e+04 -1.0 7.63e+04 -4.0 9.74e-02 1.61e-01h 1
33 6.7773955e+08 1.44e+07 2.11e+04 -1.0 1.50e+07 - 1.23e-02 1.72e-03h 1
34 6.7774079e+08 1.40e+07 2.04e+04 -1.0 5.09e+05 - 1.32e-02 2.27e-02h 1
35 6.7775732e+08 1.06e+07 3.73e+04 -1.0 5.77e+05 - 9.92e-01 2.44e-01h 1
36 6.7778598e+08 2.59e+06 1.11e+05 -1.0 4.44e+05 - 4.18e-01 7.47e-01h 1
37 6.7778502e+08 2.54e+06 1.09e+05 -1.0 4.10e+05 - 1.00e+00 2.08e-02h 1
38 6.7778438e+08 2.54e+06 1.09e+05 -1.0 1.04e+07 - 3.30e-03 3.86e-04h 1
39 6.7774594e+08 2.33e+06 9.72e+04 -1.0 3.07e+06 - 2.51e-04 8.21e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.7774550e+08 2.30e+06 9.60e+04 -1.0 2.49e+06 - 3.96e-01 1.18e-02h 1
41 6.7776766e+08 1.02e+06 5.69e+04 -1.0 2.84e+06 - 1.06e-01 5.41e-01h 1
42 6.7778296e+08 5.90e+05 3.60e+04 -1.0 1.17e+06 - 1.00e+00 4.16e-01h 1
43 6.7780631e+08 9.85e+03 7.96e+03 -1.0 7.10e+05 - 1.00e+00 1.00e+00h 1
44 6.7780652e+08 1.50e-01 1.29e-02 -1.0 3.84e+01 -4.5 1.00e+00 1.00e+00h 1
45 6.7778417e+08 1.42e+04 3.73e+01 -2.5 1.92e+06 - 9.53e-01 3.67e-01f 1
46 6.7774881e+08 3.46e+04 1.16e+02 -2.5 1.47e+06 - 1.00e+00 1.00e+00h 1
47 6.7774920e+08 2.34e+03 8.74e+01 -2.5 9.63e+02 -5.0 2.05e-01 9.32e-01h 1
48 6.7774902e+08 2.33e+03 1.11e+02 -2.5 5.30e+05 - 1.00e+00 6.26e-03h 1
49 6.7774793e+08 6.27e+03 2.42e+02 -2.5 5.61e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.7774794e+08 1.65e-03 6.03e-04 -2.5 2.47e+01 -5.4 1.00e+00 1.00e+00h 1
51 6.7773006e+08 2.13e+05 3.79e+00 -3.8 1.77e+08 - 3.65e-01 1.80e-02f 1
52 6.7768449e+08 1.06e+06 5.14e+00 -3.8 7.18e+07 - 3.62e-01 1.04e-01f 1
53 6.7768419e+08 1.05e+06 9.04e+00 -3.8 5.24e+06 - 8.68e-01 9.82e-03h 1
54 6.7767124e+08 5.84e+05 2.14e+01 -3.8 5.26e+06 - 1.00e+00 4.43e-01h 1
55 6.7766091e+08 3.76e+05 3.27e+01 -3.8 9.55e+06 - 1.00e+00 3.56e-01h 1
56 6.7766113e+08 3.57e+05 5.40e+01 -3.8 9.69e+03 -5.9 6.97e-03 5.02e-02h 1
57 6.7766104e+08 3.57e+05 6.01e+01 -3.8 2.83e+06 - 6.07e-01 3.73e-04h 1
58 6.7765964e+08 1.05e+05 2.10e+01 -3.8 8.78e+05 - 1.00e+00 7.06e-01h 1
59 6.7765682e+08 1.76e+05 3.40e+01 -3.8 3.01e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.7765683e+08 1.66e+05 4.15e+01 -3.8 3.27e+03 -6.4 7.68e-03 6.13e-02h 1
61 6.7765681e+08 1.66e+05 4.74e+01 -3.8 9.99e+06 - 1.00e+00 1.72e-04h 1
62 6.7764894e+08 7.16e+05 2.41e+01 -3.8 1.76e+07 - 1.00e+00 4.92e-01h 1
63 6.7764678e+08 6.78e+05 2.28e+01 -3.8 3.87e+07 - 7.15e-01 5.28e-02h 1
64 6.7764552e+08 5.39e+05 1.82e+01 -3.8 7.79e+06 - 1.00e+00 2.05e-01h 1
65 6.7763781e+08 1.87e+06 2.20e+01 -3.8 1.13e+07 - 1.00e+00 9.79e-01h 1
66 6.7763425e+08 1.87e+06 2.17e+01 -3.8 1.95e+08 - 4.66e-02 1.63e-02h 1
67 6.7760807e+08 3.54e+07 1.09e+01 -3.8 8.08e+07 - 8.38e-01 5.68e-01h 1
68 6.7760807e+08 3.54e+07 1.09e+01 -3.8 9.77e+06 - 1.00e+00 6.62e-04h 1
69 6.7761129e+08 4.43e+05 3.16e-02 -3.8 1.42e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.7761112e+08 5.38e+02 5.21e-06 -3.8 1.30e+04 - 1.00e+00 1.00e+00h 1
71 6.7761112e+08 1.40e-03 1.50e-09 -3.8 4.86e+01 - 1.00e+00 1.00e+00h 1
72 6.7761104e+08 3.16e-01 4.60e-07 -5.7 4.48e+03 - 1.00e+00 1.00e+00f 1
73 6.7761104e+08 2.86e-06 1.85e-11 -5.7 4.85e+00 - 1.00e+00 1.00e+00h 1
74 6.7761104e+08 4.77e-05 7.06e-11 -8.6 5.55e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 74
(scaled) (unscaled)
Objective...............: 6.7761104332687406e+04 6.7761104332687402e+08
Dual infeasibility......: 7.0575683527313371e-11 7.0575683527313371e-07
Constraint violation....: 8.7343268426429380e-09 4.7683715820312500e-05
Complementarity.........: 2.5845757037752036e-09 2.5845757037752033e-05
Overall NLP error.......: 8.7343268426429380e-09 4.7683715820312500e-05
Number of objective function evaluations = 75
Number of objective gradient evaluations = 75
Number of equality constraint evaluations = 75
Number of inequality constraint evaluations = 75
Number of equality constraint Jacobian evaluations = 75
Number of inequality constraint Jacobian evaluations = 75
Number of Lagrangian Hessian evaluations = 74
Total CPU secs in IPOPT (w/o function evaluations) = 4.575
Total CPU secs in NLP function evaluations = 122.297
EXIT: Optimal Solution Found.
Implemented Power (MPC) 414
Realized SOC (MPC) 1223225
Fixed costs: 65589.81
Variable costs: 35205.97
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 237.11
Simulating time_step 2020-07-11 17:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16004
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6076
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.7781104e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.7779545e+08 9.99e+04 9.91e+01 -1.0 9.21e+05 - 1.04e-03 8.66e-04h 1
2 6.7783456e+08 9.96e+04 9.93e+01 -1.0 9.22e+05 - 1.59e-03 3.40e-03h 1
3 6.7797241e+08 9.90e+04 9.91e+01 -1.0 9.20e+05 - 4.34e-03 5.78e-03h 1
4 6.7841158e+08 9.75e+04 9.84e+01 -1.0 9.15e+05 - 1.09e-02 1.47e-02h 1
5 6.8143514e+08 8.81e+04 1.01e+02 -1.0 9.01e+05 - 4.30e-02 9.66e-02h 1
6 6.8247333e+08 8.49e+04 8.42e+01 -1.0 8.12e+05 - 2.96e-01 3.69e-02h 1
7 6.8248686e+08 8.48e+04 1.18e+04 -1.0 8.15e+05 - 3.54e-01 5.00e-04h 1
8 6.8329142e+08 8.23e+04 3.99e+04 -1.0 1.30e+06 - 3.11e-01 3.00e-02h 1
9 6.8891936e+08 6.43e+04 3.87e+04 -1.0 1.28e+06 - 4.50e-01 2.19e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.8900288e+08 6.40e+04 3.81e+04 -1.0 1.02e+06 - 1.89e-02 4.27e-03h 1
11 7.0759810e+08 1.62e+04 2.83e+04 -1.0 2.10e+06 - 2.08e-04 9.16e-01h 1
12 7.0761487e+08 1.55e+04 1.86e+04 -1.0 4.47e+05 - 6.47e-01 4.29e-02h 1
13 7.0750618e+08 1.45e+04 1.74e+04 -1.0 1.20e+06 - 5.65e-02 6.22e-02h 1
14 7.0750100e+08 1.45e+04 1.74e+04 -1.0 1.29e+06 - 2.74e-03 2.89e-03h 1
15 7.0742044e+08 1.38e+04 1.66e+04 -1.0 1.27e+06 - 1.67e-02 4.64e-02f 1
16 7.0570856e+08 1.18e+03 1.55e+04 -1.0 1.29e+06 - 6.46e-02 9.17e-01f 1
17 7.0566990e+08 1.17e+03 3.88e+03 -1.0 1.36e+06 - 6.62e-01 1.06e-02f 1
18 7.0379856e+08 9.33e+02 1.33e+03 -1.0 4.01e+06 - 9.01e-01 2.08e-01f 1
19 7.0278542e+08 9.19e+02 1.31e+03 -1.0 3.81e+07 - 6.72e-02 1.64e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 7.0076267e+08 9.79e+02 1.29e+03 -1.0 4.10e+07 - 3.70e-01 3.17e-02f 1
21 6.9742656e+08 3.87e+03 1.23e+03 -1.0 6.11e+07 - 8.15e-02 5.50e-02f 1
22 6.9684462e+08 3.90e+03 1.39e+03 -1.0 4.34e+07 - 5.75e-01 1.15e-02f 1
23 6.8023856e+08 1.51e+05 9.61e+02 -1.0 9.92e+07 - 9.67e-02 2.91e-01f 1
24 6.7805962e+08 1.49e+05 9.85e+02 -1.0 1.22e+08 - 4.97e-01 3.12e-02f 1
25 6.7801729e+08 1.49e+05 9.96e+02 -1.0 3.95e+07 - 2.13e-01 2.60e-03f 1
26 6.6742281e+08 5.20e+05 3.53e+02 -1.0 4.96e+07 - 6.94e-01 1.00e+00f 1
27 6.6507798e+08 5.08e+05 2.46e+02 -1.0 1.40e+08 - 3.02e-01 7.76e-02f 1
28 6.6496978e+08 5.06e+05 2.29e+02 -1.0 1.85e+08 - 6.65e-02 3.61e-03f 1
29 6.5925600e+08 7.53e+05 1.14e+02 -1.0 1.96e+08 - 5.05e-01 1.93e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.5915892e+08 7.50e+05 9.70e+01 -1.0 2.60e+08 - 1.46e-01 2.97e-03f 1
31 6.5840608e+08 7.27e+05 4.31e+01 -1.0 2.79e+08 - 5.37e-01 3.05e-02f 1
32 6.5836873e+08 7.18e+05 3.26e+01 -1.0 1.77e+07 - 1.94e-01 1.31e-02h 1
33 6.5693670e+08 2.39e+06 2.00e+01 -1.0 2.16e+07 - 7.37e-01 4.59e-01f 1
34 6.5650926e+08 2.54e+06 2.02e+01 -1.0 8.10e+07 - 1.43e-01 5.26e-02f 1
35 6.5621879e+08 2.57e+06 2.36e+01 -1.0 8.73e+07 - 3.43e-01 3.31e-02f 1
36 6.5582524e+08 2.84e+06 2.66e+01 -1.0 6.88e+07 - 5.26e-01 5.71e-02f 1
37 6.5245174e+08 3.48e+07 6.67e+00 -1.0 6.73e+07 - 6.71e-01 8.04e-01f 1
38 6.5235770e+08 1.46e+07 3.30e+00 -1.0 1.22e+07 - 7.93e-01 5.89e-01h 1
39 6.5236105e+08 1.17e+07 1.90e+04 -1.0 6.08e+04 -4.0 9.93e-02 1.98e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.5236048e+08 1.16e+07 1.90e+04 -1.0 7.66e+06 - 2.35e-02 2.94e-03h 1
41 6.5236336e+08 1.09e+07 1.70e+04 -1.0 5.14e+05 - 9.96e-01 5.80e-02h 1
42 6.5237315e+08 4.82e+06 6.48e+04 -1.0 5.75e+05 - 3.21e-01 5.55e-01h 1
43 6.5237401e+08 2.99e+06 4.56e+04 -1.0 1.18e+05 - 1.00e+00 3.79e-01h 1
44 6.5237390e+08 2.97e+06 4.53e+04 -1.0 1.15e+05 - 1.00e+00 5.87e-03h 1
45 6.5237029e+08 2.97e+06 4.52e+04 -1.0 2.16e+07 - 5.95e-04 1.18e-03h 1
46 6.5236272e+08 2.87e+06 4.34e+04 -1.0 1.87e+06 - 1.59e-04 3.35e-02f 1
47 6.5236140e+08 2.61e+06 3.92e+04 -1.0 2.20e+06 - 1.59e-01 9.12e-02h 1
48 6.5238707e+08 1.38e+06 2.99e+04 -1.0 2.45e+06 - 1.48e-01 4.57e-01h 1
49 6.5240337e+08 9.16e+05 2.30e+04 -1.0 1.38e+06 - 6.59e-01 3.34e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.5243799e+08 1.70e+04 1.36e+04 -1.0 8.70e+05 - 1.00e+00 1.00e+00h 1
51 6.5243801e+08 1.23e+04 9.83e+03 -1.0 1.24e+02 -4.5 1.00e+00 2.75e-01h 1
52 6.5240427e+08 3.61e+05 6.29e+03 -1.0 1.23e+07 - 1.00e+00 3.58e-01f 1
53 6.5235465e+08 1.44e+06 3.57e+03 -1.0 1.95e+07 - 1.00e+00 4.26e-01h 1
54 6.5235813e+08 1.07e+05 1.46e+02 -1.0 2.46e+06 - 1.00e+00 1.00e+00h 1
55 6.5235916e+08 2.61e+02 2.19e+01 -1.0 2.76e+03 -5.0 1.00e+00 1.00e+00h 1
56 6.5233049e+08 3.34e+02 9.26e+01 -1.7 1.51e+05 - 1.00e+00 7.61e-01f 1
57 6.5231843e+08 8.68e+03 1.80e+02 -1.7 5.86e+05 - 1.00e+00 1.00e+00h 1
58 6.5231849e+08 1.63e-01 3.24e-02 -1.7 1.66e+02 -5.4 1.00e+00 1.00e+00h 1
59 6.5230594e+08 7.53e+04 5.53e+01 -3.8 3.82e+06 - 8.73e-01 7.41e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.5229615e+08 4.17e+05 4.54e+01 -3.8 2.04e+07 - 6.90e-01 3.05e-01h 1
61 6.5228127e+08 2.46e+06 4.28e+01 -3.8 7.41e+07 - 6.87e-01 2.01e-01h 1
62 6.5227925e+08 2.43e+06 4.20e+01 -3.8 7.02e+07 - 7.99e-01 2.15e-02h 1
63 6.5226267e+08 3.19e+06 3.82e+01 -3.8 2.02e+07 - 1.00e+00 7.41e-01h 1
64 6.5225748e+08 3.36e+06 3.67e+01 -3.8 1.23e+08 - 1.61e-01 4.43e-02h 1
65 6.5224635e+08 8.13e+06 2.90e+01 -3.8 5.64e+07 - 1.00e+00 3.03e-01h 1
66 6.5223702e+08 1.13e+07 2.31e+01 -3.8 5.69e+07 - 1.00e+00 2.78e-01h 1
67 6.5223741e+08 1.24e+05 3.75e-01 -3.8 6.53e+05 - 1.00e+00 1.00e+00h 1
68 6.5223711e+08 6.31e+03 4.64e-04 -3.8 5.23e+05 - 1.00e+00 1.00e+00h 1
69 6.5223711e+08 3.83e-01 1.10e-08 -3.8 2.87e+03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.5223704e+08 2.28e-01 3.30e-07 -5.7 3.01e+03 - 1.00e+00 1.00e+00h 1
71 6.5223704e+08 3.91e-06 1.85e-11 -5.7 1.22e+01 - 1.00e+00 1.00e+00h 1
72 6.5223704e+08 3.45e-05 5.08e-11 -8.6 3.73e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 72
(scaled) (unscaled)
Objective...............: 6.5223703595387960e+04 6.5223703595387959e+08
Dual infeasibility......: 5.0784232262987618e-11 5.0784232262987618e-07
Constraint violation....: 8.1742035995836416e-09 3.4455209970474243e-05
Complementarity.........: 2.5347633346497338e-09 2.5347633346497338e-05
Overall NLP error.......: 8.1742035995836416e-09 3.4455209970474243e-05
Number of objective function evaluations = 73
Number of objective gradient evaluations = 73
Number of equality constraint evaluations = 73
Number of inequality constraint evaluations = 73
Number of equality constraint Jacobian evaluations = 73
Number of inequality constraint Jacobian evaluations = 73
Number of Lagrangian Hessian evaluations = 72
Total CPU secs in IPOPT (w/o function evaluations) = 3.129
Total CPU secs in NLP function evaluations = 84.571
EXIT: Optimal Solution Found.
Implemented Power (MPC) 436
Realized SOC (MPC) 1188433
Fixed costs: 65589.81
Variable costs: 38797.77
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 141.93
Simulating time_step 2020-07-11 18:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 16000
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6075
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.5243704e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.5242292e+08 9.99e+04 9.91e+01 -1.0 1.42e+06 - 9.22e-04 7.84e-04h 1
2 6.5246355e+08 9.96e+04 9.93e+01 -1.0 1.43e+06 - 1.32e-03 3.05e-03h 1
3 6.5259429e+08 9.91e+04 9.91e+01 -1.0 1.42e+06 - 4.09e-03 5.25e-03h 1
4 6.5297738e+08 9.79e+04 9.84e+01 -1.0 1.42e+06 - 9.89e-03 1.21e-02h 1
5 6.5481891e+08 9.25e+04 9.75e+01 -1.0 1.40e+06 - 3.36e-02 5.50e-02h 1
6 6.5579974e+08 8.97e+04 8.89e+01 -1.0 1.32e+06 - 2.11e-01 3.07e-02h 1
7 6.5581120e+08 8.96e+04 6.69e+03 -1.0 1.31e+06 - 1.70e-01 3.73e-04h 1
8 6.5713818e+08 8.58e+04 5.60e+04 -1.0 1.82e+06 - 2.70e-01 4.33e-02h 1
9 6.6110083e+08 7.41e+04 5.58e+04 -1.0 1.75e+06 - 2.18e-01 1.36e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.6115030e+08 7.39e+04 6.15e+04 -1.0 1.54e+06 - 2.85e-01 1.95e-03h 1
11 6.6789398e+08 5.52e+04 4.88e+04 -1.0 3.43e+06 - 5.30e-03 2.54e-01h 1
12 6.8594110e+08 1.31e+04 7.72e+04 -1.0 1.98e+06 - 3.60e-04 9.31e-01h 1
13 6.8598536e+08 1.20e+04 2.71e+04 -1.0 2.87e+05 - 9.87e-01 8.75e-02h 1
14 6.8198762e+08 1.11e+04 2.50e+04 -1.0 1.84e+07 - 3.24e-02 7.46e-02f 1
15 6.8185741e+08 1.10e+04 2.52e+04 -1.0 2.05e+07 - 2.07e-01 2.65e-03f 1
16 6.8009164e+08 1.07e+04 2.45e+04 -1.0 2.56e+07 - 1.30e-01 3.25e-02f 1
17 6.7818371e+08 1.02e+04 2.39e+04 -1.0 2.93e+07 - 6.05e-01 4.16e-02f 1
18 6.7550490e+08 9.87e+03 2.30e+04 -1.0 6.74e+07 - 6.01e-02 3.68e-02f 1
19 6.7367385e+08 9.59e+03 2.21e+04 -1.0 6.44e+07 - 3.98e-01 2.89e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.7197406e+08 9.12e+03 2.07e+04 -1.0 5.18e+07 - 1.74e-01 5.62e-02f 1
21 6.7129740e+08 8.87e+03 2.01e+04 -1.0 3.75e+07 - 2.07e-01 2.95e-02f 1
22 6.7083480e+08 7.87e+03 1.82e+04 -1.0 2.07e+07 - 2.91e-01 1.18e-01f 1
23 6.6507328e+08 1.89e+05 1.76e+03 -1.0 3.00e+07 - 1.81e-01 1.00e+00f 1
24 6.5927104e+08 2.10e+05 6.02e+02 -1.0 3.52e+07 - 6.58e-01 7.55e-01f 1
25 6.5848177e+08 2.05e+05 2.49e+02 -1.0 9.49e+07 - 5.90e-01 3.89e-02f 1
26 6.5779015e+08 2.05e+05 2.35e+02 -1.0 2.00e+08 - 5.48e-02 2.31e-02f 1
27 6.5231036e+08 4.89e+05 1.71e+02 -1.0 2.08e+08 - 2.75e-01 1.76e-01f 1
28 6.5222414e+08 4.87e+05 1.36e+02 -1.0 2.16e+08 - 2.06e-01 3.09e-03f 1
29 6.5156117e+08 4.72e+05 4.57e+01 -1.0 2.46e+08 - 7.88e-01 3.08e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.5150977e+08 4.66e+05 4.45e+01 -1.0 3.00e+07 - 3.30e-02 1.25e-02h 1
31 6.4975879e+08 2.59e+06 3.80e+01 -1.0 3.09e+07 - 9.43e-02 3.03e-01f 1
32 6.4958988e+08 2.55e+06 3.19e+01 -1.0 3.33e+07 - 1.91e-01 2.45e-02f 1
33 6.4601165e+08 2.99e+07 2.89e+01 -1.0 7.50e+07 - 4.17e-02 3.00e-01f 1
34 6.4587455e+08 2.96e+07 2.33e+01 -1.0 1.18e+08 - 2.19e-01 8.95e-03f 1
35 6.4370802e+08 3.64e+07 2.04e+01 -1.0 2.28e+08 - 1.43e-01 8.30e-02f 1
36 6.3548758e+08 1.69e+08 1.43e+01 -1.0 1.74e+08 - 2.70e-01 4.19e-01f 1
37 6.3536246e+08 1.66e+08 1.45e+01 -1.0 5.98e+07 - 8.26e-01 1.66e-02h 1
38 6.3274821e+08 1.99e+07 1.92e+01 -1.0 3.44e+07 - 1.89e-01 8.34e-01f 1
39 6.3276113e+08 1.66e+07 2.28e+04 -1.0 3.03e+05 -4.0 2.50e-02 1.67e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.3275273e+08 1.61e+07 2.08e+04 -1.0 3.23e+06 - 3.29e-02 3.25e-02h 1
41 6.3275346e+08 1.59e+07 2.05e+04 -1.0 2.43e+05 -4.5 3.94e-03 1.20e-02h 1
42 6.3275430e+08 1.59e+07 2.05e+04 -1.0 1.30e+07 - 2.59e-04 8.41e-04h 1
43 6.3275432e+08 1.58e+07 2.33e+04 -1.0 2.41e+05 -5.0 3.34e-01 3.96e-04h 1
44 6.3275890e+08 1.56e+07 2.31e+04 -1.0 6.06e+06 - 3.79e-03 1.60e-02h 1
45 6.3278663e+08 7.90e+06 6.52e+04 -1.0 2.34e+05 -5.4 1.45e-01 4.89e-01h 1
46 6.3279742e+08 5.01e+06 4.68e+04 -1.0 1.20e+05 -5.9 1.48e-02 3.65e-01h 1
47 6.3279806e+08 5.00e+06 4.67e+04 -1.0 5.37e+06 - 7.48e-03 1.04e-03h 1
48 6.3279190e+08 4.90e+06 4.58e+04 -1.0 2.17e+06 - 6.63e-02 2.07e-02h 1
49 6.3279464e+08 4.77e+06 4.46e+04 -1.0 1.32e+06 - 6.53e-02 2.59e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.3280151e+08 4.36e+06 4.09e+04 -1.0 1.04e+06 - 3.51e-01 8.51e-02h 1
51 6.3287513e+08 1.51e+06 4.56e+04 -1.0 9.93e+05 - 2.01e-01 6.54e-01h 1
52 6.3286335e+08 5.18e+04 1.38e+04 -1.0 4.51e+05 - 9.68e-01 9.65e-01h 1
53 6.3280464e+08 5.19e+04 1.32e+04 -1.0 7.96e+06 - 9.89e-01 4.74e-02f 1
54 6.3274968e+08 7.87e+03 1.57e+03 -1.0 6.18e+05 - 1.00e+00 8.75e-01f 1
55 6.3274255e+08 6.46e+03 1.28e+03 -1.0 1.04e+06 - 1.00e+00 1.81e-01h 1
56 6.3273814e+08 5.76e+04 4.52e+01 -1.0 2.03e+06 - 1.00e+00 1.00e+00h 1
57 6.3273863e+08 6.29e-01 3.64e-01 -1.0 1.86e+03 -6.4 1.00e+00 1.00e+00h 1
58 6.3269903e+08 2.62e+04 4.33e+01 -1.7 1.89e+06 - 9.29e-01 8.75e-01f 1
59 6.3267183e+08 3.86e+06 4.73e+01 -1.7 6.88e+07 - 3.88e-01 3.01e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.3267871e+08 3.30e+06 1.21e+02 -1.7 1.74e+05 -6.9 1.07e-02 1.44e-01h 1
61 6.3267379e+08 3.20e+06 1.33e+02 -1.7 2.00e+06 - 1.00e+00 3.25e-02h 1
62 6.3264830e+08 1.26e+05 3.14e+02 -1.7 2.27e+06 - 1.00e+00 1.00e+00h 1
63 6.3264860e+08 2.62e+01 2.90e+00 -1.7 2.44e+03 -7.3 5.19e-01 1.00e+00h 1
64 6.3264852e+08 7.67e-04 6.96e-03 -1.7 2.39e+02 -7.8 1.00e+00 1.00e+00h 1
65 6.3264414e+08 2.85e-03 4.21e+00 -3.8 8.98e+02 -8.3 1.00e+00 7.76e-01f 1
66 6.3264136e+08 2.23e+03 2.80e+00 -3.8 4.93e+07 - 8.89e-02 6.02e-03f 1
67 6.3262028e+08 2.22e+05 1.73e+00 -3.8 4.97e+07 - 2.00e-01 6.13e-02f 1
68 6.3261537e+08 2.34e+05 1.31e+01 -3.8 4.82e+07 - 1.00e+00 1.52e-02h 1
69 6.3261134e+08 2.04e+05 1.13e+01 -3.8 2.14e+07 - 8.46e-01 1.28e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.3260389e+08 4.72e+05 8.39e+00 -3.8 1.63e+07 - 1.00e+00 2.57e-01h 1
71 6.3259739e+08 4.30e+05 6.92e+00 -3.8 3.02e+07 - 1.00e+00 1.78e-01h 1
72 6.3258602e+08 2.81e+06 1.25e+01 -3.8 1.81e+07 - 1.00e+00 6.68e-01h 1
73 6.3256449e+08 1.43e+07 1.34e+01 -3.8 4.74e+07 - 1.00e+00 5.68e-01h 1
74 6.3254867e+08 1.95e+07 1.11e+01 -3.8 6.66e+07 - 1.00e+00 3.30e-01h 1
75 6.3254867e+08 1.95e+07 1.11e+01 -3.8 1.46e+06 - 1.00e+00 1.94e-03h 1
76 6.3255058e+08 1.94e+05 1.75e-01 -3.8 7.00e+05 - 1.00e+00 1.00e+00h 1
77 6.3255054e+08 1.81e+02 1.91e-06 -3.8 4.18e+03 - 1.00e+00 1.00e+00h 1
78 6.3255054e+08 3.63e-04 1.50e-09 -3.8 1.14e+01 - 1.00e+00 1.00e+00h 1
79 6.3255046e+08 2.93e-01 3.46e-07 -5.7 4.09e+03 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80 6.3255046e+08 1.91e-06 1.85e-11 -5.7 3.18e+00 - 1.00e+00 1.00e+00h 1
81 6.3255046e+08 4.49e-05 5.30e-11 -8.6 5.06e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 81
(scaled) (unscaled)
Objective...............: 6.3255045873672105e+04 6.3255045873672104e+08
Dual infeasibility......: 5.3047415596337355e-11 5.3047415596337355e-07
Constraint violation....: 7.4190121790422839e-09 4.4852495193481445e-05
Complementarity.........: 2.5241299796739729e-09 2.5241299796739728e-05
Overall NLP error.......: 7.4190121790422839e-09 4.4852495193481445e-05
Number of objective function evaluations = 82
Number of objective gradient evaluations = 82
Number of equality constraint evaluations = 82
Number of inequality constraint evaluations = 82
Number of equality constraint Jacobian evaluations = 82
Number of inequality constraint Jacobian evaluations = 82
Number of Lagrangian Hessian evaluations = 81
Total CPU secs in IPOPT (w/o function evaluations) = 3.200
Total CPU secs in NLP function evaluations = 94.269
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1175440
Fixed costs: 65589.81
Variable costs: 43071.77
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 247.93
Simulating time_step 2020-07-11 19:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15996
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6074
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.3275046e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.3269788e+08 9.97e+04 9.93e+01 -1.0 1.60e+05 - 6.60e-03 2.92e-03h 1
2 6.3271516e+08 9.89e+04 9.85e+01 -1.0 1.54e+05 - 5.70e-03 7.69e-03h 1
3 6.3283340e+08 9.76e+04 9.72e+01 -1.0 1.20e+05 - 1.18e-02 1.37e-02h 1
4 6.3343077e+08 9.18e+04 9.81e+01 -1.0 9.68e+04 - 2.97e-02 5.90e-02h 1
5 6.3464969e+08 8.06e+04 8.02e+01 -1.0 9.11e+04 - 4.65e-01 1.22e-01h 1
6 6.4260205e+08 4.15e+03 7.34e+01 -1.0 1.36e+05 - 2.63e-01 9.49e-01h 1
7 6.4256215e+08 2.53e+03 1.51e+02 -1.0 1.79e+05 - 9.88e-01 3.89e-01h 1
8 6.4109254e+08 2.42e+03 1.48e+02 -1.0 1.21e+07 - 3.19e-02 4.47e-02f 1
9 6.3879430e+08 2.28e+03 9.91e+01 -1.0 1.52e+07 - 2.06e-01 5.63e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.3846661e+08 2.26e+03 7.04e+01 -1.0 1.89e+07 - 1.42e-01 8.38e-03f 1
11 6.3598953e+08 2.14e+03 3.85e+01 -1.0 2.20e+07 - 3.34e-01 5.68e-02f 1
12 6.3453202e+08 2.06e+03 4.16e+01 -1.0 3.23e+07 - 1.06e-01 3.50e-02f 1
13 6.3374557e+08 2.01e+03 7.55e+01 -1.0 3.57e+07 - 6.45e-01 2.62e-02f 1
14 6.3160791e+08 3.46e+03 7.31e+01 -1.0 7.48e+07 - 7.09e-02 4.01e-02f 1
15 6.3153176e+08 3.38e+03 7.84e+01 -1.0 1.18e+07 - 3.96e-01 2.23e-02h 1
16 6.2736647e+08 8.46e+04 1.29e+02 -1.0 2.02e+07 - 1.41e-01 1.00e+00f 1
17 6.2303186e+08 9.71e+04 2.42e+01 -1.0 2.24e+07 - 5.76e-01 8.91e-01f 1
18 6.1783717e+08 1.82e+05 9.84e+00 -1.0 5.05e+07 - 7.52e-01 4.75e-01f 1
19 6.1774457e+08 1.82e+05 1.80e+01 -1.0 1.73e+08 - 1.06e-01 2.94e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 6.1175532e+08 5.20e+05 1.39e+01 -1.0 1.89e+08 - 3.18e-01 2.10e-01f 1
21 6.1167472e+08 5.18e+05 1.35e+01 -1.0 2.06e+08 - 1.92e-01 2.74e-03f 1
22 6.1087148e+08 4.98e+05 2.38e+01 -1.0 2.30e+08 - 4.63e-01 3.96e-02f 1
23 6.1083784e+08 4.89e+05 6.19e+01 -1.0 1.11e+07 - 8.86e-01 1.66e-02h 1
24 6.1082877e+08 4.48e+05 2.93e+03 -1.0 7.74e+04 -4.0 5.09e-02 8.44e-02h 1
25 6.1082868e+08 4.48e+05 2.30e+04 -1.0 7.08e+04 -4.5 5.61e-01 9.34e-04h 1
26 6.1082760e+08 4.42e+05 5.86e+04 -1.0 7.07e+04 -5.0 4.87e-02 1.36e-02h 1
27 6.1082733e+08 4.40e+05 9.85e+04 -1.0 6.82e+04 -5.4 1.09e-01 4.69e-03h 1
28 6.1080533e+08 2.77e+05 5.06e+04 -1.0 6.78e+04 -5.9 7.02e-02 3.70e-01h 1
29 6.1076871e+08 1.24e+02 1.07e+04 -1.0 4.27e+04 -6.4 9.90e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 6.1076874e+08 4.98e-04 2.59e+02 -1.0 9.26e+01 -6.9 9.92e-01 1.00e+00h 1
31 6.0899047e+08 2.71e+07 2.55e+02 -1.0 2.35e+09 - 1.56e-02 1.58e-02f 1
32 6.0900468e+08 1.01e+05 9.11e+02 -1.0 7.39e+04 -7.3 1.57e-01 1.00e+00h 1
33 6.0890693e+08 2.30e+05 9.09e+02 -1.0 4.98e+08 - 2.12e-02 3.65e-03f 1
34 6.0852876e+08 4.41e+05 8.74e+02 -1.0 1.23e+08 - 2.67e-02 3.83e-02f 1
35 6.0812022e+08 1.07e+06 8.37e+02 -1.0 1.33e+08 - 8.23e-02 4.26e-02f 1
36 6.0772741e+08 1.38e+06 8.29e+02 -1.0 9.27e+08 - 4.14e-04 9.48e-03f 1
37 6.0767673e+08 1.41e+06 8.28e+02 -1.0 1.12e+09 - 5.02e-02 1.04e-03f 1
38 6.0704722e+08 3.95e+06 7.26e+02 -1.0 1.09e+08 - 2.28e-01 1.24e-01f 1
39 6.0703562e+08 3.91e+06 9.82e+02 -1.0 2.96e+07 - 1.00e+00 8.42e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 6.0630697e+08 1.66e+07 1.88e+04 -1.0 3.05e+07 - 8.43e-01 1.00e+00f 1
41 6.0631257e+08 1.43e+07 1.62e+04 -1.0 1.10e+05 -7.8 5.69e-02 1.40e-01h 1
42 6.0634642e+08 4.03e+06 4.58e+03 -1.0 9.84e+04 -8.3 1.65e-01 7.17e-01h 1
43 6.0635990e+08 1.31e+03 3.78e+00 -1.0 2.46e+04 -8.8 1.00e+00 1.00e+00h 1
44 6.0577531e+08 2.90e+06 1.29e+01 -1.0 2.39e+10 - 4.06e-03 4.08e-04f 1
45 6.0492209e+08 8.63e+06 1.36e+01 -1.0 3.59e+08 - 4.97e-02 3.84e-02f 1
46 6.0491428e+08 8.47e+06 4.33e+01 -1.0 4.85e+06 - 8.03e-01 1.84e-02h 1
47 6.0492398e+08 6.25e+06 3.12e+01 -1.0 3.58e+07 - 1.56e-01 2.56e-01h 1
48 6.0497293e+08 4.70e+05 1.49e+01 -1.0 6.94e+06 - 5.67e-01 1.00e+00h 1
49 6.0497346e+08 4.09e+05 5.43e+01 -1.0 2.80e+04 -9.2 7.56e-01 1.29e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 6.0498348e+08 7.03e+03 2.37e+00 -1.0 1.70e+05 -9.7 1.00e+00 1.00e+00h 1
51 6.0498336e+08 1.16e+00 7.86e-02 -1.0 1.23e+04 -10.2 1.00e+00 1.00e+00h 1
52 6.0494993e+08 6.57e+00 4.74e+00 -2.5 2.77e+04 -10.7 1.00e+00 8.83e-01f 1
53 6.0494151e+08 4.43e+01 2.05e-01 -2.5 3.99e+04 -11.2 1.00e+00 9.57e-01f 1
54 6.0493819e+08 1.98e+02 3.34e-01 -2.5 1.00e+05 -11.6 1.00e+00 7.87e-01f 1
55 6.0493757e+08 1.96e+02 1.29e+00 -2.5 2.61e+05 -12.1 1.00e+00 1.95e-01h 1
56 6.0493616e+08 1.95e+03 1.06e+00 -2.5 6.44e+05 -12.6 1.00e+00 3.94e-01h 1
57 6.0493607e+08 1.95e+03 1.58e-02 -2.5 3.01e+05 -13.1 1.00e+00 1.00e+00h 1
58 6.0493488e+08 1.55e+04 9.27e-04 -2.5 8.48e+05 -13.5 1.00e+00 1.00e+00h 1
59 6.0493200e+08 1.28e+05 1.29e-02 -2.5 2.44e+06 -14.0 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 6.0493021e+08 1.38e+05 6.36e-02 -2.5 7.27e+06 -14.5 1.00e+00 2.09e-01h 1
61 6.0491828e+08 2.67e+06 6.31e-01 -2.5 1.96e+07 -15.0 1.00e+00 8.43e-01h 1
62 6.0490662e+08 5.93e+05 1.16e-01 -2.5 6.96e+06 -14.5 1.00e+00 1.00e+00h 1
63 6.0489254e+08 2.43e+06 5.07e-01 -2.5 8.94e+07 -15.0 4.60e-01 1.58e-01h 1
64 6.0487712e+08 1.57e+06 3.12e-01 -2.5 1.16e+07 -14.6 1.00e+00 9.31e-01h 1
65 6.0487156e+08 1.69e+06 3.49e-01 -2.5 1.75e+08 -15.1 3.54e-01 2.15e-02h 1
66 6.0486752e+08 1.94e+06 1.03e+00 -2.5 4.09e+08 - 1.65e-01 1.22e-02h 1
67 6.0483356e+08 3.07e+07 4.05e+00 -2.5 3.29e+08 - 4.60e-01 1.29e-01h 1
68 6.0483352e+08 3.02e+07 3.89e+00 -2.5 7.07e+06 - 1.00e+00 1.70e-02h 1
69 6.0483414e+08 5.54e+05 3.70e-02 -2.5 1.28e+06 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70 6.0483403e+08 1.91e+03 7.19e-07 -2.5 1.40e+04 - 1.00e+00 1.00e+00h 1
71 6.0483403e+08 4.35e-02 2.83e-08 -2.5 1.17e+02 - 1.00e+00 1.00e+00h 1
72 6.0483258e+08 6.80e+01 1.05e-04 -3.8 6.15e+04 - 1.00e+00 1.00e+00f 1
73 6.0483258e+08 2.49e-02 1.76e-09 -3.8 1.01e+03 - 1.00e+00 1.00e+00h 1
74 6.0483250e+08 1.96e-01 3.10e-07 -5.7 3.30e+03 - 1.00e+00 1.00e+00f 1
75 6.0483250e+08 9.54e-07 1.85e-11 -5.7 2.99e+00 - 1.00e+00 1.00e+00h 1
76 6.0483250e+08 3.01e-05 4.76e-11 -8.6 4.09e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 76
(scaled) (unscaled)
Objective...............: 6.0483249872821347e+04 6.0483249872821343e+08
Dual infeasibility......: 4.7642816967962643e-11 4.7642816967962643e-07
Constraint violation....: 4.9358832306788570e-09 3.0100345611572269e-05
Complementarity.........: 2.5243144675193707e-09 2.5243144675193706e-05
Overall NLP error.......: 4.9358832306788570e-09 3.0100345611572269e-05
Number of objective function evaluations = 77
Number of objective gradient evaluations = 77
Number of equality constraint evaluations = 77
Number of inequality constraint evaluations = 77
Number of equality constraint Jacobian evaluations = 77
Number of inequality constraint Jacobian evaluations = 77
Number of Lagrangian Hessian evaluations = 76
Total CPU secs in IPOPT (w/o function evaluations) = 3.516
Total CPU secs in NLP function evaluations = 88.767
EXIT: Optimal Solution Found.
Implemented Power (MPC) 460
Realized SOC (MPC) 1140648
Fixed costs: 70230.69
Variable costs: 44057.83
Number on/offs: 4
Sum on/off ramps: 32.00
Sum nominal ramps: 39.07
Simulating time_step 2020-07-11 20:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15992
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6073
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 6.0503250e+08 1.00e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 6.0498214e+08 9.97e+04 9.93e+01 -1.0 1.62e+05 - 6.00e-03 2.80e-03h 1
2 6.0503065e+08 9.90e+04 9.86e+01 -1.0 1.51e+05 - 3.56e-03 7.44e-03h 1
3 6.0519256e+08 9.76e+04 9.78e+01 -1.0 1.22e+05 - 1.12e-02 1.41e-02h 1
4 6.0600912e+08 9.16e+04 9.60e+01 -1.0 9.70e+04 - 4.06e-02 6.18e-02h 1
5 6.0773133e+08 7.93e+04 7.89e+01 -1.0 9.10e+04 - 2.19e-01 1.34e-01h 1
6 6.1132634e+08 5.31e+04 5.28e+01 -1.0 9.74e+04 - 3.49e-01 3.31e-01h 1
7 6.1142713e+08 5.23e+04 1.52e+02 -1.0 1.14e+06 - 9.66e-01 1.45e-02h 1
8 6.1048952e+08 4.03e+04 4.01e+01 -1.0 4.58e+06 - 9.37e-01 2.29e-01h 1
9 6.0899200e+08 3.98e+04 3.96e+01 -1.0 5.98e+07 - 8.05e-02 1.27e-02f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 6.0701005e+08 3.91e+04 3.86e+01 -1.0 6.40e+07 - 2.21e-01 1.66e-02f 1
11 6.0382953e+08 3.79e+04 3.66e+01 -1.0 7.30e+07 - 1.05e-01 3.27e-02f 1
12 6.0365485e+08 3.73e+04 1.95e+01 -1.0 1.35e+07 - 3.25e-01 1.58e-02h 1
13 6.0198097e+08 2.39e+04 1.80e+01 -1.0 1.51e+07 - 2.76e-01 4.05e-01h 1
14 5.9916120e+08 3.67e+04 3.84e+01 -1.0 2.08e+07 - 4.21e-01 6.02e-01f 1
15 5.9147949e+08 2.79e+05 5.36e+01 -1.0 3.58e+07 - 4.99e-01 1.00e+00f 1
16 5.8967024e+08 2.61e+05 5.08e+01 -1.0 6.70e+07 - 5.64e-01 1.26e-01f 1
17 5.8956398e+08 2.60e+05 5.84e+01 -1.0 1.40e+08 - 4.81e-01 4.85e-03f 1
18 5.8348783e+08 6.20e+05 4.94e+01 -1.0 2.36e+08 - 3.99e-02 1.76e-01f 1
19 5.8340597e+08 6.18e+05 4.04e+01 -1.0 1.99e+08 - 9.48e-01 2.93e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.8246967e+08 6.03e+05 3.96e+01 -1.0 4.60e+08 - 2.91e-02 1.94e-02f 1
21 5.8236303e+08 5.96e+05 3.90e+01 -1.0 8.18e+07 - 2.25e-01 9.09e-03f 1
22 5.8140137e+08 1.61e+06 3.58e+01 -1.0 1.12e+08 - 5.81e-02 8.20e-02f 1
23 5.8093526e+08 2.10e+06 3.42e+01 -1.0 1.15e+08 - 1.31e-02 4.69e-02f 1
24 5.8065576e+08 2.05e+06 3.32e+01 -1.0 1.65e+08 - 2.26e-01 2.45e-02f 1
25 5.7859506e+08 1.48e+07 2.70e+01 -1.0 1.54e+08 - 2.80e-02 1.90e-01f 1
26 5.7856825e+08 1.47e+07 2.65e+01 -1.0 7.25e+07 - 7.01e-01 3.98e-03h 1
27 5.7578806e+08 2.91e+07 5.84e+00 -1.0 5.56e+07 - 9.60e-01 7.94e-01f 1
28 5.7578916e+08 2.61e+07 1.68e+04 -1.0 1.04e+05 -4.0 6.74e-02 1.02e-01h 1
29 5.7578917e+08 2.60e+07 1.68e+04 -1.0 9.28e+04 -4.5 2.74e-01 1.17e-03h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.7579012e+08 2.53e+07 6.30e+04 -1.0 9.28e+04 -5.0 1.18e-01 3.02e-02h 1
31 5.7582167e+08 9.58e+05 1.03e+05 -1.0 9.00e+04 -5.4 9.95e-01 1.00e+00h 1
32 5.7582151e+08 4.81e+05 9.68e+04 -1.0 1.86e+03 -5.9 9.86e-01 4.99e-01h 1
33 5.7581981e+08 4.80e+05 9.81e+04 -1.0 3.29e+06 - 7.26e-01 1.41e-03h 2
34 5.7582080e+08 4.05e+05 8.33e+04 -1.0 1.76e+06 - 3.78e-01 1.52e-01f 2
35 5.7582627e+08 5.54e+04 4.36e+04 -1.0 1.47e+06 - 6.20e-01 8.58e-01H 1
36 5.7582097e+08 1.06e+04 1.04e+04 -1.0 2.46e+05 - 1.00e+00 7.95e-01f 1
37 5.7581554e+08 2.28e+04 1.34e+03 -1.0 1.06e+06 - 1.00e+00 1.00e+00f 1
38 5.7581565e+08 5.42e-01 1.68e+00 -1.0 5.30e+02 -6.4 1.00e+00 1.00e+00h 1
39 5.7580173e+08 1.28e+06 7.86e+01 -1.0 1.16e+07 - 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.7581426e+08 5.48e+02 1.22e+02 -1.0 5.57e+04 -6.9 1.12e-01 1.00e+00h 1
41 5.7580415e+08 4.86e+02 1.05e+02 -1.0 6.79e+05 - 1.00e+00 1.12e-01f 1
42 5.7579790e+08 5.59e+04 4.42e+02 -1.0 1.64e+06 - 1.00e+00 1.00e+00f 1
43 5.7579797e+08 4.14e+00 2.20e-02 -1.0 1.26e+03 -7.3 1.00e+00 1.00e+00h 1
44 5.7577783e+08 9.73e-02 9.55e-01 -2.5 1.00e+03 -7.8 1.00e+00 9.76e-01f 1
45 5.7576263e+08 2.26e+03 1.36e+01 -2.5 2.86e+07 - 6.67e-01 1.11e-02f 1
46 5.7571151e+08 1.13e+06 1.54e+01 -2.5 3.20e+07 - 1.00e+00 2.46e-01f 1
47 5.7571110e+08 1.12e+06 1.49e+01 -2.5 6.57e+06 - 1.00e+00 1.32e-02h 1
48 5.7568955e+08 1.03e+06 1.57e+01 -2.5 7.10e+06 - 1.00e+00 1.00e+00h 1
49 5.7568962e+08 5.28e+05 2.16e+01 -2.5 1.76e+04 -8.3 8.91e-02 4.86e-01h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.7568943e+08 5.26e+05 2.64e+01 -2.5 9.77e+05 - 1.00e+00 3.36e-03h 1
51 5.7568832e+08 1.31e+04 1.19e+01 -2.5 9.11e+05 - 1.00e+00 1.00e+00h 1
52 5.7568832e+08 8.54e-03 4.73e-05 -2.5 2.04e+02 -8.8 1.00e+00 1.00e+00h 1
53 5.7568715e+08 1.12e-02 6.39e-02 -3.8 9.60e+02 -9.2 1.00e+00 9.85e-01f 1
54 5.7568701e+08 3.09e-02 4.40e-02 -3.8 1.01e+03 -9.7 1.00e+00 9.93e-01f 1
55 5.7568695e+08 6.77e-02 4.76e-02 -3.8 2.40e+03 -10.2 1.00e+00 6.03e-01f 1
56 5.7568694e+08 4.32e-01 8.92e-01 -3.8 7.13e+03 -10.7 1.00e+00 5.23e-01f 1
57 5.7568695e+08 1.50e-01 1.92e-04 -3.8 3.77e+03 -11.2 1.00e+00 1.00e+00f 1
58 5.7568685e+08 1.14e+00 1.34e-05 -5.7 1.04e+04 -11.6 1.00e+00 1.00e+00h 1
59 5.7568682e+08 1.09e+01 1.07e-05 -5.7 3.22e+04 -12.1 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.7568672e+08 9.88e+01 1.82e-05 -5.7 9.68e+04 -12.6 1.00e+00 1.00e+00h 1
61 5.7568641e+08 9.06e+02 1.72e-04 -5.7 2.93e+05 -13.1 1.00e+00 1.00e+00h 1
62 5.7568547e+08 8.60e+03 1.64e-03 -5.7 9.04e+05 -13.5 1.00e+00 1.00e+00h 1
63 5.7568232e+08 9.13e+04 1.74e-02 -5.7 2.95e+06 -14.0 1.00e+00 1.00e+00h 1
64 5.7566921e+08 1.37e+06 2.67e-01 -5.7 1.16e+07 -14.5 1.00e+00 1.00e+00h 1
65 5.7564479e+08 4.23e+06 8.13e-01 -5.7 1.11e+08 -15.0 5.72e-01 1.56e-01h 1
66 5.7564402e+08 4.16e+06 7.98e-01 -5.7 2.07e+07 -14.5 1.00e+00 1.83e-02h 1
67 5.7562736e+08 4.96e+06 9.30e-01 -5.7 1.37e+08 -15.0 5.45e-01 7.17e-02h 1
68 5.7562736e+08 4.96e+06 1.06e+00 -5.7 1.27e+09 - 4.71e-02 1.61e-06h 1
69 5.7556872e+08 3.34e+07 4.87e+00 -5.7 1.10e+09 - 1.04e-01 4.13e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
70r 5.7556872e+08 3.34e+07 9.99e+02 3.9 0.00e+00 - 0.00e+00 2.94e-07R 6
71r 5.7731009e+08 2.91e+07 3.11e+03 3.9 6.34e+08 - 2.14e-03 1.11e-03f 1
72r 5.8116997e+08 2.05e+07 5.49e+03 3.9 3.39e+05 - 8.63e-03 3.20e-03f 1
73r 5.8411630e+08 1.66e+07 4.66e+03 3.9 7.10e+05 - 1.09e-03 3.68e-03f 1
74r 5.8765779e+08 1.26e+07 3.29e+04 3.9 2.42e+05 - 1.04e-01 4.82e-03f 1
75r 6.1281784e+08 3.27e+06 9.14e+04 3.9 2.52e+05 - 9.68e-01 9.13e-02f 1
76r 7.1541964e+08 1.69e+05 2.19e+02 3.9 3.99e+05 - 1.00e+00 1.00e+00f 1
77r 7.6751856e+08 5.84e+04 2.21e+02 3.9 1.40e+05 - 1.00e+00 1.00e+00f 1
78r 6.8969974e+08 2.25e+05 1.91e+03 3.2 7.04e+04 - 8.28e-01 9.95e-01f 1
79r 6.6904474e+08 1.85e+05 2.21e+03 2.5 1.96e+04 - 9.05e-01 8.25e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
80r 6.6331172e+08 1.12e+04 1.24e+02 2.5 3.90e+04 - 1.00e+00 1.00e+00f 1
81r 6.3084225e+08 2.15e+03 2.19e+03 1.8 1.99e+04 - 1.00e+00 8.99e-01f 1
82r 6.2108309e+08 1.47e+03 6.15e+03 1.1 8.17e+04 - 8.50e-01 6.81e-01f 1
83r 6.1968481e+08 1.05e+03 1.40e+04 1.1 1.15e+05 - 1.00e+00 3.19e-01f 1
84r 6.1469669e+08 5.00e+02 3.37e+03 1.1 2.92e+04 - 1.00e+00 7.29e-01f 1
85r 6.1249634e+08 5.83e+01 8.49e+00 1.1 4.85e+03 - 1.00e+00 1.00e+00f 1
86r 5.9775306e+08 4.61e+01 7.66e+02 -1.0 1.17e+04 - 9.65e-01 8.04e-01f 1
87r 5.9749370e+08 1.16e+04 6.95e+02 -1.0 3.20e+05 - 4.46e-01 1.69e-01f 1
88r 5.9710961e+08 1.65e+04 5.95e+02 -1.0 3.06e+05 - 2.74e-01 1.62e-01f 1
89r 5.9710388e+08 1.65e+04 7.15e+02 -1.0 2.56e+05 - 6.87e-01 2.02e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
90r 5.9693889e+08 1.60e+04 7.38e+02 -1.0 2.88e+05 - 9.98e-01 3.16e-02f 1
91r 5.8837544e+08 5.45e+02 2.69e+01 -1.0 2.79e+05 - 1.00e+00 9.66e-01f 1
92r 5.8671686e+08 1.64e+00 8.94e+00 -1.0 8.71e+03 - 1.00e+00 1.00e+00f 1
93r 5.8661589e+08 1.64e+00 8.94e+00 -1.0 4.12e+02 - 1.00e+00 1.00e+00h 1
94r 5.8661543e+08 1.64e+00 8.94e+00 -1.0 6.20e+00 - 1.00e+00 1.00e+00h 1
95r 5.8661543e+08 1.64e+00 8.94e+00 -1.0 3.51e-03 - 1.00e+00 1.00e+00h 1
96r 5.8661543e+08 1.64e+00 4.47e+00 -1.0 7.27e-04 - 1.00e+00 5.00e-01h 2
97r 5.8661543e+08 1.64e+00 8.94e+00 -1.0 3.11e-04 - 1.00e+00 1.00e+00h 1
98r 5.8661543e+08 1.64e+00 8.87e+00 -1.0 6.21e-04 - 1.00e+00 7.81e-03h 8
99r 5.8661543e+08 1.64e+00 8.94e+00 -1.0 5.94e-04 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
100r 5.8661543e+08 1.64e+00 8.94e+00 -1.0 7.02e-04 - 1.00e+00 6.10e-05h 15
101r 5.8661543e+08 1.64e+00 6.71e+00 -1.0 7.02e-04 - 1.00e+00 2.50e-01h 3
102r 5.8661543e+08 1.64e+00 1.12e+00 -1.0 4.52e-04 - 1.00e+00 5.00e-01h 2
103r 5.8219583e+08 1.64e+00 8.94e+00 -1.7 1.36e+03 - 1.00e+00 1.00e+00f 1
104r 5.8257176e+08 1.41e+03 2.23e+02 -1.7 5.63e+05 - 3.22e-01 7.10e-01f 1
105r 5.8263777e+08 1.12e+03 4.18e+02 -1.7 1.63e+05 - 1.00e+00 2.12e-01f 1
106r 5.8263989e+08 1.11e+03 2.13e+02 -1.7 6.98e+04 - 1.00e+00 6.07e-03h 1
107r 5.8298231e+08 2.66e+01 7.42e+00 -1.7 4.87e+04 - 1.00e+00 1.00e+00f 1
108r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 7.16e+01 - 1.00e+00 1.00e+00h 1
109r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 2.31e-02 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
110r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
111r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
112r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
113r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
114r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
115r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
116r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
117r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
118r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.03e-03 - 1.00e+00 1.00e+00h 1
119r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
120r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 1.00e+00h 1
121r 5.8298238e+08 9.59e-01 3.71e+00 -1.7 1.04e-03 - 1.00e+00 5.00e-01h 2
122r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 5.17e-04 - 1.00e+00 1.00e+00h 1
123r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 1.04e-03 - 1.00e+00 4.88e-04h 12
124r 5.8298238e+08 9.59e-01 7.42e+00 -1.7 9.51e-05 - 1.00e+00 1.00e+00h 1
125r 5.8298238e+08 9.59e-01 7.19e+00 -1.7 1.04e-03 - 1.00e+00 3.12e-02h 6
126r 5.8298238e+08 9.59e-01 4.81e-01 -1.7 9.16e-05 - 1.00e+00 7.63e-06h 18
127r 5.7998028e+08 9.59e-01 1.45e+01 -2.6 2.49e+03 - 1.00e+00 9.41e-01f 1
128r 5.7999777e+08 2.22e+02 3.35e+02 -2.6 6.56e+05 - 6.06e-01 2.14e-01f 1
129r 5.8005527e+08 1.35e+03 2.36e+02 -2.6 5.15e+05 - 1.00e+00 6.54e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
130r 5.8007219e+08 9.45e+02 1.67e+02 -2.6 1.78e+05 - 1.00e+00 3.29e-01f 1
131r 5.8007225e+08 9.44e+02 1.56e+02 -2.6 8.03e+04 - 1.00e+00 1.86e-03h 1
132r 5.8010352e+08 1.99e-02 1.14e+00 -2.6 4.18e+03 - 1.00e+00 1.00e+00h 1
133r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 4.86e+01 - 1.00e+00 1.00e+00h 1
134r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 7.28e-01 - 1.00e+00 1.00e+00h 1
135r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.53e-04 - 1.00e+00 1.00e+00h 1
136r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.82e-05 - 1.00e+00 1.00e+00h 1
137r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.84e-05 - 1.00e+00 1.00e+00h 1
138r 5.8010352e+08 4.94e-03 8.54e-01 -2.6 1.85e-05 - 1.00e+00 2.50e-01h 3
139r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.39e-05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
140r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.85e-05 - 1.00e+00 1.00e+00h 1
141r 5.8010352e+08 4.94e-03 9.97e-01 -2.6 1.83e-05 - 1.00e+00 1.25e-01h 4
142r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.60e-05 - 1.00e+00 1.00e+00h 1
143r 5.8010352e+08 4.94e-03 5.70e-01 -2.6 1.83e-05 - 1.00e+00 5.00e-01h 2
144r 5.8010352e+08 4.94e-03 5.69e-01 -2.6 9.28e-06 - 1.00e+00 4.88e-04h 12
145r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 9.26e-06 - 1.00e+00 1.00e+00h 1
146r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.85e-05 - 1.00e+00 6.10e-05h 15
147r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.85e-05 - 1.00e+00 1.00e+00h 1
148r 5.8010352e+08 4.94e-03 8.54e-01 -2.6 1.84e-05 - 1.00e+00 2.50e-01h 3
149r 5.8010352e+08 4.94e-03 6.41e-01 -2.6 1.36e-05 - 1.00e+00 2.50e-01h 3
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
150r 5.8010352e+08 4.94e-03 6.41e-01 -2.6 1.03e-05 - 1.00e+00 2.44e-04h 13
151r 5.8010352e+08 4.94e-03 6.40e-01 -2.6 1.03e-05 - 1.00e+00 2.44e-04h 13
152r 5.8010352e+08 4.94e-03 3.20e-01 -2.6 1.03e-05 - 1.00e+00 5.00e-01h 2
153r 5.8010352e+08 4.94e-03 1.89e-01 -2.6 6.26e-06 - 1.00e+00 5.00e-01h 2
154r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 4.60e-06 - 1.00e+00 5.00e-01h 2
155r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 2.44e-04h 13
156r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.81e-06h 19
157r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 0.00e+00 4.77e-07R 22
158r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 9.54e-07h 21
159r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 4.77e-07h 22
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
160r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.73e-09h 29
161r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 1.49e-08h 27
162r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 9.31e-10h 31
163r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.73e-09h 29
164r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 9.31e-10h 31
165r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 2.33e-10h 33
166r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 5.82e-11h 35
167r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
168r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 9.65e-06 - 1.00e+00 1.00e+00w 1
169r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.84e-05 - 1.00e+00 1.00e+00w 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
170r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.81e-05 - 1.00e+00 1.00e+00w 1
171r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 1.81e-05 - 1.00e+00 3.64e-12h 38
172r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
173r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
174r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
175r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
176r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
177r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
178r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
179r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
180r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
181r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 9.65e-06 - 1.00e+00 1.00e+00w 1
182r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.84e-05 - 1.00e+00 1.00e+00w 1
183r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.81e-05 - 1.00e+00 1.00e+00w 1
184r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 1.81e-05 - 1.00e+00 3.64e-12h 38
185r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
186r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
187r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
188r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
189r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
190r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
191r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
192r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
193r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
194r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 9.65e-06 - 1.00e+00 1.00e+00w 1
195r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.84e-05 - 1.00e+00 1.00e+00w 1
196r 5.8010352e+08 4.94e-03 1.14e+00 -2.6 1.81e-05 - 1.00e+00 1.00e+00w 1
197r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 1.81e-05 - 1.00e+00 3.64e-12h 38
198r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
199r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
200r 5.8010352e+08 4.94e-03 1.25e-01 -2.6 9.65e-06 - 1.00e+00 3.64e-12h 39
Number of Iterations....: 200
(scaled) (unscaled)
Objective...............: 5.8010351742945364e+04 5.8010351742945361e+08
Dual infeasibility......: 9.9990217524770770e+01 9.9990217524770775e+05
Constraint violation....: 4.9430072617325793e-03 4.9430072617325793e-03
Complementarity.........: 2.5449832034452331e-03 2.5449832034452331e+01
Overall NLP error.......: 9.9990217524770770e+01 9.9990217524770775e+05
Number of objective function evaluations = 1633
Number of objective gradient evaluations = 72
Number of equality constraint evaluations = 1634
Number of inequality constraint evaluations = 1634
Number of equality constraint Jacobian evaluations = 203
Number of inequality constraint Jacobian evaluations = 203
Number of Lagrangian Hessian evaluations = 200
Total CPU secs in IPOPT (w/o function evaluations) = 8.248
Total CPU secs in NLP function evaluations = 397.194
EXIT: Maximum Number of Iterations Exceeded.
WARNING:pyomo.core:Loading a SolverResults object with a warning status into model.name="unknown";
- termination condition: maxIterations
- message from solver: Ipopt 3.13.2\x3a Maximum Number of Iterations Exceeded.
Implemented Power (MPC) 455
Realized SOC (MPC) 1372762
Fixed costs: 65589.81
Variable costs: 45613.93
Number on/offs: 4
Sum on/off ramps: 0.00
Sum nominal ramps: 86.39
Simulating time_step 2020-07-11 21:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15988
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6072
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.8010352e+08 2.32e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.7607845e+08 2.30e+05 4.14e+01 -1.0 1.44e+06 - 6.50e-01 8.99e-03f 1
2 5.7610262e+08 2.24e+05 3.86e+01 -1.0 4.82e+06 - 2.13e-02 2.54e-02h 1
3 5.7662869e+08 1.96e+05 8.87e+01 -1.0 1.40e+06 - 2.04e-02 1.24e-01h 1
4 5.7918151e+08 7.30e+04 2.28e+02 -1.0 1.23e+06 - 1.31e-01 6.28e-01h 1
5 5.8045742e+08 1.31e+04 3.72e+01 -1.0 4.68e+05 - 8.83e-01 8.21e-01h 1
6 5.7947745e+08 7.67e+03 2.19e+01 -1.0 1.92e+06 - 3.90e-01 4.14e-01h 1
7 5.7945993e+08 7.62e+03 1.41e+02 -1.0 3.18e+06 - 5.65e-01 5.98e-03h 1
8 5.7712641e+08 4.00e+03 8.04e+01 -1.0 7.24e+06 - 2.68e-01 4.75e-01f 1
9 5.7475759e+08 5.08e+03 5.56e+01 -1.0 9.81e+06 - 5.19e-01 3.48e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.7473342e+08 5.07e+03 5.12e+01 -1.0 1.27e+07 - 7.15e-01 2.66e-03h 1
11 5.7317684e+08 1.18e+04 7.16e+01 -1.0 7.41e+06 - 1.27e-01 1.00e+00f 1
12 5.7223509e+08 1.02e+04 2.77e+01 -1.0 8.65e+06 - 9.21e-01 5.12e-01f 1
13 5.6191770e+08 5.73e+05 2.21e+01 -1.0 1.01e+08 - 1.19e-01 4.96e-01f 1
14 5.6180032e+08 5.70e+05 2.19e+01 -1.0 1.06e+08 - 3.61e-01 5.35e-03f 1
15 5.5597036e+08 8.23e+05 2.16e+01 -1.0 1.56e+08 - 7.22e-01 2.53e-01f 1
16 5.5587395e+08 8.21e+05 2.15e+01 -1.0 2.98e+08 - 1.22e-01 2.57e-03f 1
17 5.5488295e+08 7.91e+05 4.01e+01 -1.0 3.14e+08 - 5.86e-01 3.66e-02f 1
18 5.5484909e+08 7.82e+05 3.60e+01 -1.0 2.63e+07 - 1.61e-01 1.03e-02h 1
19 5.5398449e+08 2.20e+06 1.45e+01 -1.0 3.17e+07 - 7.65e-01 3.07e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.5356152e+08 3.20e+06 1.35e+01 -1.0 9.59e+07 - 1.67e-01 7.17e-02f 1
21 5.4955529e+08 4.19e+07 1.05e+01 -1.0 8.93e+07 - 5.93e-01 7.31e-01f 1
22 5.4947484e+08 2.10e+07 6.43e+00 -1.0 4.73e+06 - 9.55e-01 5.10e-01h 1
23 5.4947726e+08 1.81e+07 3.01e+04 -1.0 1.07e+05 -4.0 5.77e-02 1.35e-01h 1
24 5.4947729e+08 1.81e+07 3.00e+04 -1.0 9.31e+04 -4.5 2.77e-01 1.59e-03h 1
25 5.4947845e+08 1.74e+07 8.45e+04 -1.0 9.55e+04 -5.0 2.10e-01 3.60e-02h 1
26 5.4950875e+08 5.67e+05 1.20e+05 -1.0 9.22e+04 -5.4 9.96e-01 9.56e-01h 1
27 5.4950879e+08 5.47e+05 1.34e+05 -1.0 5.21e+03 -5.9 1.00e+00 3.57e-02h 1
28 5.4950879e+08 5.47e+05 1.34e+05 -1.0 1.01e+04 -6.4 1.00e+00 3.74e-04h 1
29 5.4951136e+08 5.36e+05 1.31e+05 -1.0 1.42e+06 -6.9 2.25e-02 1.97e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.4952804e+08 4.66e+05 1.13e+05 -1.0 1.39e+06 -7.3 2.76e-01 1.31e-01h 1
31 5.4952863e+08 4.64e+05 1.13e+05 -1.0 1.20e+06 -7.8 2.10e-01 4.21e-03h 1
32 5.4954952e+08 4.04e+05 9.99e+04 -1.0 1.19e+06 -8.3 1.00e+00 1.30e-01h 1
33 5.4967730e+08 7.82e+04 1.07e+05 -1.0 1.03e+06 -8.8 3.39e-01 8.65e-01h 1
34 5.4965999e+08 5.18e+04 7.14e+04 -1.0 1.17e+05 -9.2 1.00e+00 3.38e-01f 1
35 5.4962015e+08 1.90e+02 1.75e+03 -1.0 9.02e+04 -9.7 1.00e+00 1.00e+00f 1
36 5.4955848e+08 1.90e+02 1.72e+03 -1.0 8.16e+06 - 1.00e+00 1.68e-02f 1
37 5.4952700e+08 4.28e+04 6.09e+00 -1.0 1.85e+06 - 1.00e+00 1.00e+00f 1
38 5.4952714e+08 5.66e-01 1.82e-04 -1.0 2.77e+03 -10.2 1.00e+00 1.00e+00h 1
39 5.4948712e+08 1.37e+01 2.31e+00 -2.5 3.21e+04 -10.7 1.00e+00 9.43e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.4948078e+08 1.73e+01 1.48e+00 -2.5 3.31e+04 -11.2 1.00e+00 8.08e-01h 1
41 5.4947594e+08 2.37e+02 1.02e-02 -2.5 1.10e+05 -11.6 1.00e+00 1.00e+00f 1
42 5.4947472e+08 2.17e+02 1.58e+00 -2.5 2.19e+05 -12.1 1.00e+00 1.99e-01h 1
43 5.4947337e+08 1.65e+03 1.90e+00 -2.5 6.34e+05 -12.6 1.00e+00 3.71e-01h 1
44 5.4947296e+08 1.65e+03 2.09e+00 -2.5 7.25e+05 -13.1 1.00e+00 1.05e-01h 1
45 5.4947289e+08 1.05e+03 2.85e-02 -2.5 3.25e+05 -13.5 1.00e+00 1.00e+00h 1
46 5.4947223e+08 1.12e+04 2.42e-03 -2.5 1.06e+06 -14.0 1.00e+00 1.00e+00h 1
47 5.4946970e+08 1.81e+05 3.84e-02 -2.5 4.30e+06 -14.5 1.00e+00 1.00e+00h 1
48 5.4944857e+08 9.05e+06 2.15e+00 -2.5 4.10e+07 -15.0 8.97e-01 7.88e-01h 1
49 5.4944748e+08 8.79e+06 2.09e+00 -2.5 1.45e+07 -14.5 1.00e+00 2.86e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.4944435e+08 8.50e+06 2.04e+00 -2.5 4.92e+07 -15.0 1.00e+00 3.78e-02h 1
51 5.4939723e+08 4.35e+07 7.40e+00 -2.5 5.14e+08 - 1.25e-01 1.03e-01h 1
52 5.4939708e+08 4.33e+07 7.46e+00 -2.5 3.23e+07 - 1.00e+00 4.44e-03h 1
53 5.4938712e+08 1.66e+06 8.03e-02 -2.5 2.44e+06 - 1.00e+00 1.00e+00h 1
54 5.4938687e+08 1.99e+04 9.85e-06 -2.5 3.46e+04 - 1.00e+00 1.00e+00h 1
55 5.4938687e+08 5.76e+00 2.83e-08 -2.5 1.09e+03 - 1.00e+00 1.00e+00h 1
56 5.4938537e+08 3.86e+01 8.30e-05 -3.8 3.96e+04 - 1.00e+00 1.00e+00f 1
57 5.4938537e+08 2.33e-02 1.50e-09 -3.8 9.81e+02 - 1.00e+00 1.00e+00h 1
58 5.4938529e+08 1.08e-01 2.43e-07 -5.7 2.09e+03 - 1.00e+00 1.00e+00f 1
59 5.4938528e+08 1.31e-05 3.32e-11 -8.6 2.30e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 59
(scaled) (unscaled)
Objective...............: 5.4938528446219294e+04 5.4938528446219289e+08
Dual infeasibility......: 3.3187711164840185e-11 3.3187711164840185e-07
Constraint violation....: 3.7252902984619141e-09 1.3113021850585939e-05
Complementarity.........: 2.5241214338246992e-09 2.5241214338246991e-05
Overall NLP error.......: 3.7252902984619141e-09 2.5241214338246991e-05
Number of objective function evaluations = 60
Number of objective gradient evaluations = 60
Number of equality constraint evaluations = 60
Number of inequality constraint evaluations = 60
Number of equality constraint Jacobian evaluations = 60
Number of inequality constraint Jacobian evaluations = 60
Number of Lagrangian Hessian evaluations = 59
Total CPU secs in IPOPT (w/o function evaluations) = 4.125
Total CPU secs in NLP function evaluations = 78.435
EXIT: Optimal Solution Found.
Implemented Power (MPC) 455
Realized SOC (MPC) 1605927
Fixed costs: 65589.81
Variable costs: 39218.83
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 239.74
Simulating time_step 2020-07-11 22:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15984
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6071
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.4958528e+08 2.33e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.4953278e+08 2.32e+05 9.93e+01 -1.0 2.33e+05 - 6.60e-03 2.92e-03h 1
2 5.4953028e+08 2.31e+05 9.85e+01 -1.0 2.32e+05 - 8.17e-03 7.64e-03h 1
3 5.4968023e+08 2.23e+05 9.58e+01 -1.0 2.31e+05 - 2.21e-02 3.14e-02h 1
4 5.5119602e+08 1.75e+05 9.96e+01 -1.0 2.23e+05 - 8.78e-02 2.15e-01h 1
5 5.5199428e+08 1.46e+05 6.26e+01 -1.0 1.75e+05 - 4.74e-01 1.65e-01h 1
6 5.5586205e+08 1.45e+04 9.02e+00 -1.0 1.59e+05 - 8.34e-01 9.01e-01h 1
7 5.5532349e+08 4.61e+03 3.51e+00 -1.0 8.61e+05 - 6.94e-01 6.82e-01h 1
8 5.5437369e+08 3.43e+03 1.14e+02 -1.0 2.82e+06 - 5.42e-01 2.56e-01f 1
9 5.5198332e+08 2.44e+03 8.21e+01 -1.0 6.10e+06 - 2.73e-01 2.87e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.5194945e+08 2.44e+03 9.74e+01 -1.0 8.36e+06 - 3.67e-01 3.79e-03h 1
11 5.4851227e+08 6.86e+03 5.95e+01 -1.0 1.31e+07 - 4.55e-01 3.75e-01f 1
12 5.4847727e+08 6.84e+03 6.75e+01 -1.0 1.52e+07 - 3.12e-01 3.22e-03f 1
13 5.4769208e+08 2.99e+03 1.81e+01 -1.0 3.79e+06 - 8.17e-01 1.00e+00f 1
14 5.4360615e+08 7.96e+04 1.76e+01 -1.0 1.97e+07 - 1.99e-01 9.83e-01f 1
15 5.3840874e+08 1.33e+05 1.12e+01 -1.0 2.44e+07 - 7.58e-01 1.00e+00f 1
16 5.3491418e+08 1.73e+05 9.75e+00 -1.0 9.24e+07 - 4.02e-01 1.79e-01f 1
17 5.3483448e+08 1.73e+05 1.28e+01 -1.0 1.42e+08 - 9.63e-02 3.29e-03f 1
18 5.2889742e+08 5.16e+05 1.19e+01 -1.0 1.55e+08 - 6.03e-01 2.60e-01f 1
19 5.2880685e+08 5.15e+05 1.61e+01 -1.0 2.49e+08 - 1.53e-01 2.81e-03f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 5.2803880e+08 4.98e+05 3.24e+01 -1.0 2.71e+08 - 4.24e-01 3.31e-02f 1
21 5.2802394e+08 4.95e+05 2.60e+01 -1.0 1.60e+07 - 3.84e-01 6.21e-03h 1
22 5.2617769e+08 9.24e+06 3.30e+00 -1.0 2.02e+07 - 8.31e-01 1.00e+00f 1
23 5.2612074e+08 9.16e+06 2.80e+00 -1.0 6.99e+07 - 2.25e-01 9.67e-03h 1
24 5.2295797e+08 3.49e+07 6.20e+00 -1.0 7.22e+07 - 6.54e-01 7.22e-01f 1
25 5.2289808e+08 1.69e+07 4.19e+00 -1.0 4.52e+06 - 9.29e-01 5.23e-01h 1
26 5.2290617e+08 1.21e+07 5.61e+04 -1.0 1.17e+05 -4.0 5.25e-02 2.84e-01h 1
27 5.2290627e+08 1.20e+07 5.59e+04 -1.0 8.36e+04 -4.5 4.64e-01 4.09e-03h 1
28 5.2292945e+08 2.36e+06 5.26e+04 -1.0 8.54e+04 -5.0 1.00e+00 7.92e-01h 1
29 5.2292959e+08 2.31e+06 1.22e+05 -1.0 1.77e+04 -5.4 1.00e+00 2.30e-02h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 5.2292959e+08 2.31e+06 1.28e+05 -1.0 1.75e+04 -5.9 1.00e+00 2.37e-04h 1
31 5.2293207e+08 2.25e+06 1.25e+05 -1.0 1.24e+06 -6.4 1.46e-02 2.58e-02h 1
32 5.2293949e+08 2.07e+06 1.19e+05 -1.0 1.21e+06 -6.9 2.02e-01 7.86e-02h 1
33 5.2293978e+08 2.07e+06 1.21e+05 -1.0 1.13e+06 -7.3 1.50e-01 2.55e-03h 1
34 5.2296018e+08 1.74e+06 9.80e+04 -1.0 1.13e+06 -7.8 5.76e-01 1.55e-01h 1
35 5.2298601e+08 1.42e+06 8.07e+04 -1.0 9.63e+05 -8.3 3.13e-01 1.83e-01h 1
36 5.2303317e+08 8.72e+05 5.65e+04 -1.0 7.96e+05 -8.8 1.00e+00 3.82e-01h 1
37 5.2306316e+08 4.64e+05 4.14e+04 -1.0 5.04e+05 -9.2 1.00e+00 4.64e-01h 1
38 5.2308397e+08 3.94e+03 2.11e+04 -1.0 2.78e+05 -9.7 1.00e+00 1.00e+00h 1
39 5.2302602e+08 2.51e+03 1.35e+04 -1.0 2.27e+05 -10.2 1.00e+00 3.62e-01f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
40 5.2297187e+08 1.88e+03 1.01e+04 -1.0 3.53e+05 -10.7 1.00e+00 2.51e-01f 1
41 5.2296722e+08 1.15e+03 6.15e+03 -1.0 8.30e+04 -11.2 1.00e+00 3.90e-01f 1
42 5.2297375e+08 5.82e+01 7.49e-01 -1.0 5.44e+04 -11.6 1.00e+00 1.00e+00f 1
43 5.2292905e+08 1.27e+03 8.54e-03 -1.7 2.54e+05 -12.1 1.00e+00 1.00e+00f 1
44 5.2292023e+08 2.97e+03 2.42e-01 -1.7 4.89e+05 -12.6 1.00e+00 7.50e-01h 1
45 5.2291249e+08 7.56e+04 1.08e-01 -1.7 1.82e+06 -13.1 1.00e+00 1.00e+00h 1
46 5.2288802e+08 4.68e+05 8.06e-02 -1.7 5.25e+06 -13.5 1.00e+00 8.58e-01h 1
47 5.2288761e+08 3.52e+05 6.08e-01 -1.7 7.65e+05 -14.0 1.00e+00 2.48e-01h 1
48 5.2288682e+08 5.99e+04 7.72e-02 -1.7 2.47e+06 -14.5 1.00e+00 1.00e+00h 1
49 5.2287932e+08 4.09e+06 8.23e-01 -1.7 1.99e+07 -15.0 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
50 5.2286904e+08 1.75e+06 3.89e-01 -1.7 9.20e+06 -14.5 1.00e+00 6.25e-01h 1
51 5.2286122e+08 3.43e+06 7.54e-01 -1.7 1.90e+08 - 2.99e-01 7.08e-02h 1
52 5.2284290e+08 2.23e+07 3.01e+00 -1.7 1.23e+08 - 1.00e+00 2.68e-01h 1
53 5.2284399e+08 5.69e+05 1.62e-02 -1.7 2.25e+06 - 1.00e+00 1.00e+00h 1
54 5.2284317e+08 5.80e+04 4.55e-03 -1.7 1.64e+06 - 1.00e+00 1.00e+00h 1
55 5.2284315e+08 1.93e+02 1.00e-05 -1.7 7.77e+04 - 1.00e+00 1.00e+00h 1
56 5.2283321e+08 8.39e+03 1.20e+00 -3.8 6.83e+05 - 1.00e+00 8.55e-01f 1
57 5.2283168e+08 7.43e-01 1.02e-05 -3.8 9.03e+03 - 1.00e+00 1.00e+00h 1
58 5.2283159e+08 3.35e-01 4.19e-07 -5.7 3.69e+03 - 1.00e+00 1.00e+00h 1
59 5.2283159e+08 1.43e-06 1.85e-11 -5.7 4.43e+00 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
60 5.2283159e+08 4.94e-05 6.35e-11 -8.6 4.54e+01 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 60
(scaled) (unscaled)
Objective...............: 5.2283159298637060e+04 5.2283159298637056e+08
Dual infeasibility......: 6.3521142815607326e-11 6.3521142815607326e-07
Constraint violation....: 7.2182044811360208e-09 4.9352645874023444e-05
Complementarity.........: 2.5228807332450792e-09 2.5228807332450790e-05
Overall NLP error.......: 7.2182044811360208e-09 4.9352645874023444e-05
Number of objective function evaluations = 61
Number of objective gradient evaluations = 61
Number of equality constraint evaluations = 61
Number of inequality constraint evaluations = 61
Number of equality constraint Jacobian evaluations = 61
Number of inequality constraint Jacobian evaluations = 61
Number of Lagrangian Hessian evaluations = 60
Total CPU secs in IPOPT (w/o function evaluations) = 2.745
Total CPU secs in NLP function evaluations = 68.562
EXIT: Optimal Solution Found.
Implemented Power (MPC) 453
Realized SOC (MPC) 1936597
Fixed costs: 65589.81
Variable costs: 29547.85
Number on/offs: 0
Sum on/off ramps: 0.00
Sum nominal ramps: 387.30
Simulating time_step 2020-07-11 23:00
Solving SCED instance
Solving for LMPs
Ipopt 3.13.2: max_iter=200
******************************************************************************
This program contains Ipopt, a library for large-scale nonlinear optimization.
Ipopt is released as open source code under the Eclipse Public License (EPL).
For more information visit http://projects.coin-or.org/Ipopt
This version of Ipopt was compiled from source code available at
https://github.com/IDAES/Ipopt as part of the Institute for the Design of
Advanced Energy Systems Process Systems Engineering Framework (IDAES PSE
Framework) Copyright (c) 2018-2019. See https://github.com/IDAES/idaes-pse.
This version of Ipopt was compiled using HSL, a collection of Fortran codes
for large-scale scientific computation. All technical papers, sales and
publicity material resulting from use of the HSL codes within IPOPT must
contain the following acknowledgement:
HSL, a collection of Fortran codes for large-scale scientific
computation. See http://www.hsl.rl.ac.uk.
******************************************************************************
This is Ipopt version 3.13.2, running with linear solver ma27.
Number of nonzeros in equality constraint Jacobian...: 15980
Number of nonzeros in inequality constraint Jacobian.: 116
Number of nonzeros in Lagrangian Hessian.............: 4950
Total number of variables............................: 6137
variables with only lower bounds: 20
variables with lower and upper bounds: 4997
variables with only upper bounds: 10
Total number of equality constraints.................: 6070
Total number of inequality constraints...............: 70
inequality constraints with only lower bounds: 10
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 60
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 5.2303159e+08 3.31e+05 9.90e+01 -1.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 5.2296647e+08 3.29e+05 9.93e+01 -1.0 3.31e+05 - 1.18e-02 3.63e-03h 1
2 5.2294099e+08 3.21e+05 9.32e+01 -1.0 3.29e+05 - 7.90e-01 2.52e-02h 1
3 5.2610375e+08 6.71e+03 1.47e+02 -1.0 6.61e+05 - 3.19e-02 9.79e-01h 1
4 5.2603466e+08 3.94e+03 1.11e+02 -1.0 3.30e+05 - 9.60e-01 4.13e-01h 1
5 5.2243737e+08 6.80e+03 2.02e+02 -1.0 8.09e+06 - 2.98e-01 6.47e-01f 1
6 5.2240101e+08 6.77e+03 1.43e+02 -1.0 1.01e+07 - 2.08e-01 5.13e-03h 1
7 5.2209656e+08 4.84e+02 2.87e+01 -1.0 1.52e+06 - 7.36e-01 1.00e+00h 1
8 5.2121884e+08 3.63e+03 5.63e+01 -1.0 5.34e+06 - 2.99e-01 7.64e-01f 1
9 5.1949679e+08 1.41e+04 1.20e+01 -1.0 8.15e+06 - 6.83e-01 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 5.1416728e+08 1.41e+05 3.21e+00 -1.0 2.55e+07 - 4.95e-01 1.00e+00f 1
11 5.0889355e+08 2.09e+05 2.85e+00 -1.0 4.76e+07 - 6.17e-01 5.19e-01f 1
12 5.0881801e+08 2.08e+05 3.07e+01 -1.0 1.13e+08 - 4.51e-01 3.53e-03f 1
13 5.0313406e+08 5.30e+05 2.72e+01 -1.0 1.87e+08 - 4.67e-02 2.09e-01f 1
14 5.0306397e+08 5.28e+05 2.23e+01 -1.0 1.61e+08 - 9.54e-01 2.96e-03f 1
15 5.0223348e+08 5.15e+05 2.31e+01 -1.0 4.52e+08 - 3.00e-02 2.00e-02f 1
16 5.0217692e+08 5.08e+05 1.60e+01 -1.0 7.04e+07 - 5.68e-01 1.10e-02h 1
17 4.9773790e+08 4.51e+07 1.18e+01 -1.0 8.99e+07 - 6.62e-02 7.91e-01f 1
18 4.9765274e+08 2.66e+07 7.87e+00 -1.0 3.97e+06 - 9.43e-01 4.21e-01h 1
19 4.9749347e+08 2.67e+07 1.60e+00 -1.0 3.78e+07 - 7.62e-01 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
20 4.9749048e+08 2.17e+07 1.64e+00 -1.0 2.19e+07 - 1.00e+00 2.12e-01h 1
21 4.9749328e+08 2.14e+07 3.08e+00 -1.0 1.37e+08 - 8.25e-02 3.44e-02h 1
22 4.9749701e+08 2.13e+07 1.08e+01 -1.0 1.51e+08 - 3.28e-01 4.31e-02h 4
23 4.9760536e+08 2.77e+06 8.89e-01 -1.0 1.79e+07 - 1.00e+00 1.00e+00h 1
24 4.9759260e+08 4.23e+06 4.33e-01 -1.0 1.42e+07 - 1.00e+00 1.00e+00h 1
25 4.9759205e+08 1.70e+05 3.25e-02 -1.0 3.74e+06 - 1.00e+00 1.00e+00h 1
26 4.9759212e+08 4.25e+03 4.13e-04 -1.0 4.40e+05 - 1.00e+00 1.00e+00h 1
27 4.9755232e+08 9.14e+05 8.18e+00 -1.7 1.02e+07 - 1.00e+00 7.55e-01f 1
28 4.9754192e+08 4.29e+05 7.70e-02 -1.7 4.86e+06 - 1.00e+00 1.00e+00h 1
29 4.9754203e+08 1.85e+04 1.88e-03 -1.7 9.29e+05 - 1.00e+00 1.00e+00h 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
30 4.9754202e+08 1.72e+01 2.62e-06 -1.7 3.34e+04 - 1.00e+00 1.00e+00h 1
31 4.9753169e+08 8.59e+04 7.93e-01 -3.8 2.58e+06 - 9.71e-01 8.75e-01f 1
32 4.9753037e+08 1.90e+01 4.35e-05 -3.8 2.12e+04 - 1.00e+00 1.00e+00h 1
33 4.9753037e+08 3.94e-03 1.50e-09 -3.8 4.63e+02 - 1.00e+00 1.00e+00h 1
34 4.9753028e+08 3.30e+00 1.66e-06 -5.7 1.42e+04 - 1.00e+00 1.00e+00f 1
35 4.9753028e+08 6.20e-06 1.84e-11 -5.7 1.88e+01 - 1.00e+00 1.00e+00h 1
36 4.9753028e+08 5.05e-04 2.55e-10 -8.6 1.76e+02 - 1.00e+00 1.00e+00h 1
37 4.9753028e+08 9.54e-07 1.42e-12 -8.6 2.88e-03 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 37
(scaled) (unscaled)
Objective...............: 4.9753028108726918e+04 4.9753028108726913e+08
Dual infeasibility......: 1.4238393056976036e-12 1.4238393056976036e-08
Constraint violation....: 2.5611370801925659e-09 9.5367431640625000e-07
Complementarity.........: 2.5059436047460212e-09 2.5059436047460209e-05
Overall NLP error.......: 2.5611370801925659e-09 2.5059436047460209e-05
Number of objective function evaluations = 43
Number of objective gradient evaluations = 38
Number of equality constraint evaluations = 43
Number of inequality constraint evaluations = 43
Number of equality constraint Jacobian evaluations = 38
Number of inequality constraint Jacobian evaluations = 38
Number of Lagrangian Hessian evaluations = 37
Total CPU secs in IPOPT (w/o function evaluations) = 2.045
Total CPU secs in NLP function evaluations = 47.514
EXIT: Optimal Solution Found.
Implemented Power (MPC) 449
Realized SOC (MPC) 1945233
Fixed costs: 55834.68
Variable costs: 34300.62
Number on/offs: 2
Sum on/off ramps: 0.00
Sum nominal ramps: 205.26
Saving bidding results to disk...
Saving tracking results to disk...
Simulation Complete
Total simulation time: 11204.20 seconds