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| | This page lists energy models published under open source licenses. We regard licenses approved by OSI ([https://opensource.org/ opensource.org]) and The Open Definition ([http://opendefinition.org/ opendefinition.org]) as suitable for open source models and open data, respectively. Please contact us if you are using another license and wish to be added. Models which have not yet been made public, but which intend to do so under a suitable license, can also be included here. | | This page lists energy models published under open source licenses. We regard licenses approved by OSI ([https://opensource.org/ opensource.org]) and The Open Definition ([http://opendefinition.org/ opendefinition.org]) as suitable for open source models and open data, respectively. Please contact us if you are using another license and wish to be added. Models which have not yet been made public, but which intend to do so under a suitable license, can also be included here. |
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| | == Overview of models by purpose, scope and modelling type == | | == Overview of models by purpose, scope and modelling type == |
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| − | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? sectors | ? model_class |? math_modeltype | ? timeresolution | ? georesolution | ? is_suited_for_many_scenarios| format = broadtable | mainlabel = Model }} | + | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? sectors | ? model_class |? math_modeltype | ? timeresolution | ? georesolution | ? is_suited_for_many_scenarios| limit=200 | format = broadtable | mainlabel = Model }} |
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| | == Overview of models by type, software, implementation and processing == | | == Overview of models by type, software, implementation and processing == |
| | | | |
| − | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? model_class | ? modelling_software |? processing_software | format = broadtable | mainlabel = Model }} | + | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? model_class | ? modelling_software |? processing_software| limit=200 | format = broadtable | mainlabel = Model }} |
| | | | |
| | == Overview of models by open-source license, data availability etc. == | | == Overview of models by open-source license, data availability etc. == |
| | | | |
| | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? license | ? modelling_software |? model_source_public |? data_availability |? open_future | format = broadtable | mainlabel = Model }} | | {{#ask: [[Category:Model]] [[open_source_licensed :: true]] | ? license | ? modelling_software |? model_source_public |? data_availability |? open_future | format = broadtable | mainlabel = Model }} |
This page lists energy models published under open source licenses. We regard licenses approved by OSI (opensource.org) and The Open Definition (opendefinition.org) as suitable for open source models and open data, respectively. Please contact us if you are using another license and wish to be added. Models which have not yet been made public, but which intend to do so under a suitable license, can also be included here.
Currently, the models listed classify exclusively as bottom-up, but that is not a restriction we impose. Some models are confined to the electricity sector while others also traverse the heat, gas, end-use, and mobility sectors. Some embed market clearing while others assume single-actor cost minimization. The model attributes shown below should help to clarify the type of model.
After logging in, you can add new entries to the model database by entering the name of the system into the following form field:
| Model |
Sectors |
Model class |
Math modeltype |
Timeresolution |
Georesolution |
Is suited for many scenarios |
|---|
| AMIRIS |
electricity |
Agent-based electricity market model |
Simulation
Agent-based |
Hour |
National |
true |
| ASAM |
Electricity
Electricity Market
Electric power |
Agent-based Simulation
Market Model
Electricity System Model
German and European Electricity Market |
Simulation
Agent-based |
15 Minute |
Individual power stations |
true |
| ASSUME |
All / Electricity |
German and European Electricity Market
Network-constrained Unit Commitment and Economic Dispatch
Agent-based electricity market model |
Simulation
Agent-based |
15 Minute |
NUTS0 - NUTS3, for DE |
false |
| Antares-Simulator |
Electricity
Methane
Hydrogen
Heat |
Capacity Expansion Problem
Production Cost Model |
Optimization
Simulation |
Hour |
NUTS0 - NUTS2 |
true |
| AnyMOD |
User-dependent |
Framework |
Optimization |
Hour |
User-dependent |
true |
| Backbone |
All |
Framework |
Optimization |
15 Minute |
Depends on user |
true |
| Balmorel |
User-dependent |
Energy System Model |
Optimization |
Hour |
Hierarchical: countries, regions, areas |
true |
| Breakthrough Energy Model |
Electricity |
Framework |
Optimization
Simulation |
Hour |
Nodal |
false |
| CAPOW |
Electric power |
CAISO and Mid-Columbia markets/U.S. West Coast |
Simulation |
Hour |
Zonal |
true |
| CESAR-P |
electricity
heating
cooling
domestic hot water |
Swiss building stock |
Simulation |
Hour |
depending on input data |
false |
| Calliope |
User-dependent |
Framework |
Optimization |
Hour |
User-dependent |
true |
| CapacityExpansion |
electricity
heat
gas |
Capacity Expansion Problem |
Optimization |
|
input data dependent |
true |
| DESSTinEE |
All / Electricity |
Simulation |
Simulation |
Hour |
National |
true |
| DIETER |
electricity plus sector coupling (EVs
P2Heat) |
Optimization |
Optimization |
Hour |
In most applications so far, Germany as one node; version with additional central European country nodes available |
true |
| Demod |
end-use demand |
Simulation |
Simulation |
Minute |
depending on input data |
true |
| Dispa-SET |
Power system |
EU power system |
Optimization |
Hour |
NUTS1 |
true |
| ELMOD |
Electricity
Heat |
German and European Electricity Market |
Optimization |
Hour |
power plant block, transmission network node |
false |
| EMLab-Generation |
Electricity Market
Carbon Market |
Agent-based Simulation |
Simulation
Agent-based |
Year |
Zones |
true |
| EMMA |
Electricity |
Power market model |
Optimization |
Hour |
Countries |
false |
| EOLES elec |
Electricity Sector
Carbon Market |
Electricity System Model |
Optimization
Simulation |
Hour |
Country level |
false |
| EOLES elecRES |
Electricity Sector |
Electricity System Model |
Optimization
Simulation |
Hour |
Coutry |
false |
| ESO-X |
Electricity |
power system model |
Optimization |
Hour |
single-node (ESONE: 29 nodes) |
true |
| Energy Policy Simulator |
Electricity
buildings
transportation
industry
district heat
land
agriculture
hydrogen
etc... |
System Dynamics |
Simulation |
Year |
single region |
true |
| Energy Transition Model |
Households
Buildings
Agriculture
Transport
Industry
Energy |
Demand driven energy model |
Simulation |
Year |
Country |
true |
| EnergyRt |
|
Reference Energy System |
Optimization |
|
|
true |
| EnergyScope |
All (Electricity
Heating and mobility) |
Regional energy system design |
Optimization |
Hour |
Country |
true |
| Ficus |
electricity
heating
... |
energy system optimization model |
Optimization |
15 Minute |
|
true |
| FlexiGIS |
Electricity Sector |
urban energy systems |
Optimization
Simulation |
15 Minute |
building, street, district, city |
false |
| GRIMSEL-FLEX |
Electricity
Heat
Hydrogen
Buildings
Transport |
Energy System Model
Optimization
Social Planner |
Optimization |
Hour |
Consumer types and Urban settings |
false |
| Genesys |
Electricity |
Electricity System Model |
Optimization
Simulation |
Hour |
EUMENA, 21 regions |
false |
| GridCal |
Electricity |
Transmission Network Model and Data (input and output) |
Optimization
Simulation |
|
|
true |
| HighRES |
Electricity |
European electricity system model
GB electricity system model |
Optimization |
Hour |
Country level, 20 zones for GB |
true |
| IRENA FlexTool |
All sectors (user can add more) |
Multi-purpose |
Optimization |
Hour |
User dependent |
true |
| Lemlab |
local energy markets |
agent-based simulation |
Simulation
Agent-based |
|
|
false |
| LoadProfileGenerator |
|
|
|
Minute |
|
false |
| MEDEAS |
electricity
heat
liquid fuels
gas
solid fuels |
|
Other |
Year |
global, continents, nations |
true |
| Medea |
Electricity
Heat |
Austrian and German electricity market |
Optimization |
Hour |
Countries |
true |
| MicroGridsPy |
Micro-grids design |
Energy Modeling Framework |
Optimization |
Hour |
Village-scale |
true |
| Mosaik |
electricity
heat
mobility
household |
distributed energy systems
smart grid simulation |
Optimization
Simulation
Agent-based |
Second |
|
true |
| NEMO |
|
|
Optimization
Simulation |
Hour |
NEM regions |
true |
| NEMO (SEI) |
All |
Full energy system optimization
flexible geographic and sectoral scope |
Optimization |
Hour |
Flexible - user-defined regionalization |
true |
| OMEGAlpes |
Electricity
Heat
all |
Production
consumption
conversion
storage |
Optimization |
|
|
false |
| OSeMOSYS |
all |
|
Optimization |
Day |
Country |
true |
| Oemof |
Electricity
Heat
Mobility |
Energy Modelling Framework |
Optimization
Simulation |
Hour |
Depends on user |
false |
| OnSSET |
|
|
Optimization |
Multi year |
1 km to 10 km |
false |
| OpenTUMFlex |
Energy
Electricity Market
Households
electricity plus sector coupling (EVs |
Energy System Model
urban energy systems
load shifting optimisation
Local energy systems |
Optimization
Simulation |
15 Minute |
User dependent |
false |
| POMATO |
Electricity Market
Heat |
Network-constrained Unit Commitment and Economic Dispatch |
Optimization |
Hour |
Nodal resolution |
false |
| Pandapipes |
|
|
Simulation |
|
|
false |
| Pandapower |
|
Transmission Network Model |
Simulation |
|
|
false |
| PowNet |
Electricity
Electric power
Energy |
Network-constrained Unit Commitment and Economic Dispatch |
Optimization
Simulation |
Hour |
High-voltage substation |
false |
| PowerMatcher |
|
|
|
|
|
false |
| PowerSimulations.jl |
Power system |
quasii-static sequential unit-commitment and economic dispatch problems |
Optimization |
Second |
nodal resolution (all nodes are included) |
true |
| PowerSimulationsDynamics.jl |
Electric power
Electricity
electricity |
Dynamic system simulation model library |
Simulation |
Less than second |
Nodal resolution |
true |
| PowerSystems.jl |
Electricity
Electricity Sector
Electric power |
Optimization
Simulation |
Simulation |
Less than second |
Nodal resolution |
true |
| Pvlib python |
Electricity |
|
Simulation |
|
|
false |
| PyLESA |
electricity
heat |
Local energy systems |
Simulation |
Hour |
Local/Community/District |
false |
| PyPSA |
Electricity
Heat
Transport
User-defined |
Energy System Model |
Optimization
Simulation |
Hour |
User dependent |
true |
| QuaSi - GenSim |
electricity
heat
cold |
building energy demand |
Simulation |
15 Minute |
|
false |
| QuaSi - ReSiE |
all sectors incl. heat
cold
hydrogen
electricity |
multi energy systems in urban scale |
Simulation
Other |
15 Minute |
depends on user |
true |
| QuaSi - SoDeLe |
Electricity |
PV energy production |
Simulation |
Hour |
|
true |
| REopt |
Energy |
Energy System Model |
Optimization |
Hour |
Site |
true |
| Region4FLEX |
electricity plus sector coupling (EVs
P2Heat
P2Gas) |
load shifting optimisation |
Optimization |
15 Minute |
Administrative districts |
false |
| Renpass |
Electricity |
Electricity System Model / Regional Dispatch Model / Transshipment Model |
Optimization
Simulation |
Hour |
Germany: 21 regions / other countries: country |
true |
| SIREN |
Electricity |
Electricity System Model |
Simulation
Other |
Hour |
Individual power stations |
true |
| SMS++ |
electricity
heat components partly developed
but extensible to anything |
in princople all short- to long-term optimization |
Optimization |
Multi year |
any |
true |
| SciGRID gas |
Gas |
European Gas Transmission Network Model and Data (input and output) |
Other
Simulation |
|
Individual gas transmission elements (pipelines, compressorstations, borderpoints etc.) |
false |
| SciGRID power |
Electricity Sector |
Transmission Network Model |
Simulation |
|
nodal resolution |
false |
| SimSEE |
Electricity Market |
Optimal energy dispatch |
Optimization
Simulation |
Hour |
|
true |
| SimSES |
Electricity |
Electrical energy storage system |
Simulation |
Minute |
|
true |
| SpineOpt.jl |
All |
Framework |
Optimization |
Hour |
User-dependent |
true |
| StELMOD |
Electricity |
Optimization |
Optimization |
Hour |
Nodal resolution |
false |
| Switch |
electricity
gas
hydrologic
transport
end-use demand
carbon sequestration; user-extendable |
Power system capacity expansion
energy system |
Optimization |
Hour |
buildings, microgrids, city, state, national or continental |
true |
| System Advisor Model (SAM) |
power generation |
International renewble energy project modeling |
Simulation |
Minute |
|
true |
| TIMES |
All sectors |
Local
National
Regional Global models developed using TIMES |
Optimization |
Hour |
Local, National, Regional, Global models |
true |
| Temoa |
all |
energy system optimization model |
Optimization |
Multi year |
single region |
true |
| TransiEnt |
electricity
district heating
Gas |
Dynamic system simulation model library |
Simulation |
Second |
Metropolregion Hamburg |
false |
| URBS |
User-dependent
Electricity |
Energy Modelling Framework |
Optimization |
Hour |
User-dependent |
true |
| USENSYS |
Electric power |
Capacity expansion
Reference Energy System |
Optimization |
Hour |
Administrative districts |
true |
| Model |
Model class |
Modelling software |
Processing software |
|---|
| AMIRIS |
Agent-based electricity market model |
Java |
Python |
| ASAM |
Agent-based Simulation
Market Model
Electricity System Model
German and European Electricity Market |
Python (Pyomo) |
Python, PyPSA, Mesa |
| ASSUME |
German and European Electricity Market
Network-constrained Unit Commitment and Economic Dispatch
Agent-based electricity market model |
Python, Pyomo |
PostgreSQL |
| Antares-Simulator |
Capacity Expansion Problem
Production Cost Model |
C++, C |
Python, TypeScript |
| AnyMOD |
Framework |
Julia/JuMP |
|
| Backbone |
Framework |
GAMS |
Spine Toolbox or Excel |
| Balmorel |
Energy System Model |
GAMS |
Excel, Python (Pandas) |
| Breakthrough Energy Model |
Framework |
Julia/JuMP |
Python |
| CAPOW |
CAISO and Mid-Columbia markets/U.S. West Coast |
Python (Pyomo) |
|
| CESAR-P |
Swiss building stock |
Python, EnergyPlus |
|
| Calliope |
Framework |
Python (Pyomo) |
Python (pandas et al) |
| CapacityExpansion |
Capacity Expansion Problem |
Julia/JuMP |
Julia |
| DESSTinEE |
Simulation |
Excel / VBA |
Excel / VBA |
| DIETER |
Optimization |
GAMS; CPLEX |
MS Excel |
| Demod |
Simulation |
Python |
Python |
| Dispa-SET |
EU power system |
Python (Pyomo), GAMS |
Python |
| ELMOD |
German and European Electricity Market |
GAMS |
|
| EMLab-Generation |
Agent-based Simulation |
Java |
R |
| EMMA |
Power market model |
GAMS |
|
| EOLES elec |
Electricity System Model |
GAMS |
|
| EOLES elecRES |
Electricity System Model |
GAMS |
|
| ESO-X |
power system model |
GAMS; CPLEX |
R |
| Energy Policy Simulator |
System Dynamics |
Vensim |
Vensim |
| Energy Transition Model |
Demand driven energy model |
Developed in-house written in Ruby (on Rails) |
Excel / VBA |
| EnergyRt |
Reference Energy System |
GAMS; GLPK |
R |
| EnergyScope |
Regional energy system design |
GLPK/GLPSOL or AMPL/Cplex |
Excel |
| Ficus |
energy system optimization model |
Python (Pyomo) |
Python (pandas et al) |
| FlexiGIS |
urban energy systems |
Python |
Geopandas |
| GRIMSEL-FLEX |
Energy System Model
Optimization
Social Planner |
Python (Pyomo) |
Python (pandas et al) |
| Genesys |
Electricity System Model |
C++, boost library, MySQL and QT4, (optional CPLEX solver implementation) |
Excel/Matlab and a Visualisation tool programmed in QT4 (c++) |
| GridCal |
Transmission Network Model and Data (input and output) |
Python |
Python |
| HighRES |
European electricity system model
GB electricity system model |
GAMS; CPLEX |
Python |
| IRENA FlexTool |
Multi-purpose |
GNU MathProg |
Python, SQL |
| Lemlab |
agent-based simulation |
Python, Pyomo |
PostgreSQL, Ethereum |
| LoadProfileGenerator |
|
C# |
|
| MEDEAS |
|
Phyton |
Phyton |
| Medea |
Austrian and German electricity market |
GAMS |
Python |
| MicroGridsPy |
Energy Modeling Framework |
Python (Pyomo) |
Excel |
| Mosaik |
distributed energy systems
smart grid simulation |
Python |
HDF5, InfluxDB, Grafana |
| NEMO |
|
Python |
|
| NEMO (SEI) |
Full energy system optimization
flexible geographic and sectoral scope |
Julia |
SQLite |
| OMEGAlpes |
Production
consumption
conversion
storage |
OMEGAlpes, PuLP |
|
| OSeMOSYS |
|
GNU MathProg |
Python |
| Oemof |
Energy Modelling Framework |
Python, Pyomo, Coin-OR |
PostgreSQL, PostGIS |
| OnSSET |
|
Python |
Python |
| OpenTUMFlex |
Energy System Model
urban energy systems
load shifting optimisation
Local energy systems |
Python (Pyomo) |
|
| POMATO |
Network-constrained Unit Commitment and Economic Dispatch |
Julia/JuMP |
Python |
| Pandapipes |
|
Python |
|
| Pandapower |
Transmission Network Model |
Python |
Pandas |
| PowNet |
Network-constrained Unit Commitment and Economic Dispatch |
Python (Pyomo) |
Python |
| PowerMatcher |
|
Java |
|
| PowerSimulations.jl |
quasii-static sequential unit-commitment and economic dispatch problems |
Julia |
Julia |
| PowerSimulationsDynamics.jl |
Dynamic system simulation model library |
Julia |
Julia |
| PowerSystems.jl |
Optimization
Simulation |
Julia |
Julia |
| Pvlib python |
|
Python |
NumPy, Pandas |
| PyLESA |
Local energy systems |
Python |
Python |
| PyPSA |
Energy System Model |
Python, Pyomo |
Pandas |
| QuaSi - GenSim |
building energy demand |
EnergyPlus, OpenStudio, MS Excel, Ruby |
MS Excel |
| QuaSi - ReSiE |
multi energy systems in urban scale |
Julia |
Julia |
| QuaSi - SoDeLe |
PV energy production |
Python |
Python, MS Excel |
| REopt |
Energy System Model |
Julia/JuMP |
Python |
| Region4FLEX |
load shifting optimisation |
Python |
PostgreSQL |
| Renpass |
Electricity System Model / Regional Dispatch Model / Transshipment Model |
R |
MySQL / R / RMySQL |
| SIREN |
Electricity System Model |
Python, NREL SAM |
Python |
| SMS++ |
in princople all short- to long-term optimization |
SMS++ |
hand-coded C++ |
| SciGRID gas |
European Gas Transmission Network Model and Data (input and output) |
GeoJSON & CSV |
|
| SciGRID power |
Transmission Network Model |
Python, PostgreSQL |
Python, PostgreSQL, Osmosis, osm2pgsql |
| SimSEE |
Optimal energy dispatch |
freepascal |
freepascal |
| SimSES |
Electrical energy storage system |
Python |
Python |
| SpineOpt.jl |
Framework |
Julia/JuMP |
Python, Spine Toolbox |
| StELMOD |
Optimization |
GAMS |
MS Excel |
| Switch |
Power system capacity expansion
energy system |
Python, Pyomo |
Python, any user-selected software |
| System Advisor Model (SAM) |
International renewble energy project modeling |
C++, WxWidgets |
|
| TIMES |
Local
National
Regional Global models developed using TIMES |
GAMS |
EXCEL, VEDA, ANSWER |
| Temoa |
energy system optimization model |
Python (Pyomo) |
SQLite |
| TransiEnt |
Dynamic system simulation model library |
Modelica |
Dymola |
| URBS |
Energy Modelling Framework |
Python (Pyomo) |
Python (pandas et al) |
| USENSYS |
Capacity expansion
Reference Energy System |
R/energyRt |
R |
| Model |
License |
Modelling software |
Model source public |
Data availability |
Open future |
|---|
| AMIRIS |
Apache License 2.0 (Apache-2.0) |
Java |
true |
all |
false |
| ASAM |
GNU General Public License version 3.0 (GPL-3.0) |
Python (Pyomo) |
true |
some |
false |
| ASSUME |
Affero General Public License v3 (AGPL-3.0) |
Python, Pyomo |
true |
all |
false |
| Antares-Simulator |
GNU General Public License version 3.0 (GPL-3.0) |
C++, C |
true |
some |
false |
| AnyMOD |
MIT license (MIT) |
Julia/JuMP |
true |
some |
true |
| Backbone |
GNU Library or "Lesser" General Public License version 3.0 (LGPL-3.0) |
GAMS |
true |
some |
false |
| Balmorel |
ISC License (ISC) |
GAMS |
true |
all |
true |
| Breakthrough Energy Model |
MIT license (MIT) |
Julia/JuMP |
true |
all |
false |
| CAPOW |
MIT license (MIT) |
Python (Pyomo) |
true |
all |
false |
| CESAR-P |
Affero General Public License v3 (AGPL-3.0) |
Python, EnergyPlus |
false |
some |
false |
| Calliope |
Apache License 2.0 (Apache-2.0) |
Python (Pyomo) |
true |
some |
true |
| CapacityExpansion |
MIT license (MIT) |
Julia/JuMP |
true |
all |
false |
| DESSTinEE |
Creative Commons Attribution Share-Alike 3.0 (CC-BY-SA-3.0) |
Excel / VBA |
true |
all |
true |
| DIETER |
MIT license (MIT) |
GAMS; CPLEX |
true |
all |
false |
| Demod |
GNU General Public License version 3.0 (GPL-3.0) |
Python |
true |
some |
false |
| Dispa-SET |
European Union Public Licence Version 1.1 (EUPL-1.1) |
Python (Pyomo), GAMS |
true |
all |
false |
| ELMOD |
MIT license (MIT) |
GAMS |
true |
some |
true |
| EMLab-Generation |
Apache License 2.0 (Apache-2.0) |
Java |
true |
some |
true |
| EMMA |
Creative Commons Attribution 3.0 (CC-BY-3.0) |
GAMS |
true |
all |
true |
| EOLES elec |
Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0) |
GAMS |
true |
all |
false |
| EOLES elecRES |
Creative Commons Attribution Share-Alike 4.0 (CC-BY-SA-4.0) |
GAMS |
true |
all |
false |
| ESO-X |
MIT license (MIT) |
GAMS; CPLEX |
true |
all |
false |
| Energy Policy Simulator |
GNU General Public License version 3.0 (GPL-3.0) |
Vensim |
true |
all |
false |
| Energy Transition Model |
MIT license (MIT) |
Developed in-house written in Ruby (on Rails) |
true |
all |
true |
| EnergyRt |
Affero General Public License v3 (AGPL-3.0) |
GAMS; GLPK |
true |
|
true |
| EnergyScope |
Apache License 2.0 (Apache-2.0) |
GLPK/GLPSOL or AMPL/Cplex |
true |
all |
false |
| Ficus |
GNU General Public License version 3.0 (GPL-3.0) |
Python (Pyomo) |
true |
some |
true |
| FlexiGIS |
BSD 3-Clause "New" or "Revised" License (BSD-3-Clause) |
Python |
true |
some |
false |
| GRIMSEL-FLEX |
BSD 2-Clause "Simplified" or "FreeBSD" License (BSD-2-Clause) |
Python (Pyomo) |
true |
all |
false |
| Genesys |
GNU Library or "Lesser" General Public License version 2.1 (LGPL-2.1) |
C++, boost library, MySQL and QT4, (optional CPLEX solver implementation) |
false |
all |
false |
| GridCal |
GNU General Public License version 3.0 (GPL-3.0) |
Python |
true |
all |
true |
| HighRES |
MIT license (MIT) |
GAMS; CPLEX |
false |
all |
false |
| IRENA FlexTool |
GNU Library or "Lesser" General Public License version 3.0 (LGPL-3.0) |
GNU MathProg |
true |
some |
false |
| Lemlab |
GNU General Public License version 3.0 (GPL-3.0) |
Python, Pyomo |
true |
all |
false |
| LoadProfileGenerator |
MIT license (MIT) |
C# |
true |
some |
false |
| MEDEAS |
MIT license (MIT) |
Phyton |
false |
all |
false |
| Medea |
MIT license (MIT) |
GAMS |
true |
all |
false |
| MicroGridsPy |
European Union Public Licence Version 1.1 (EUPL-1.1) |
Python (Pyomo) |
true |
all |
false |
| Mosaik |
GNU Library or "Lesser" General Public License version 2.1 (LGPL-2.1) |
Python |
true |
some |
false |
| NEMO |
GNU General Public License version 3.0 (GPL-3.0) |
Python |
true |
all |
true |
| NEMO (SEI) |
Apache License 2.0 (Apache-2.0) |
Julia |
true |
|
false |
| OMEGAlpes |
Apache License 2.0 (Apache-2.0) |
OMEGAlpes, PuLP |
true |
some |
false |
| OSeMOSYS |
Apache License 2.0 (Apache-2.0) |
GNU MathProg |
true |
all |
true |
| Oemof |
GNU General Public License version 3.0 (GPL-3.0) |
Python, Pyomo, Coin-OR |
true |
some |
true |
| OnSSET |
MIT license (MIT) |
Python |
true |
|
false |
| OpenTUMFlex |
GNU General Public License version 3.0 (GPL-3.0) |
Python (Pyomo) |
true |
some |
false |
| POMATO |
GNU Library or "Lesser" General Public License version 3.0 (LGPL-3.0) |
Julia/JuMP |
true |
some |
false |
| Pandapipes |
MIT license (MIT) |
Python |
false |
|
true |
| Pandapower |
BSD 3-Clause "New" or "Revised" License (BSD-3-Clause) |
Python |
true |
some |
false |
| PowNet |
MIT license (MIT) |
Python (Pyomo) |
true |
all |
false |
