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Transactive Energy Simulation Platform (TESP)

Copyright (c) 2017-2023 Battelle Memorial Institute

Documentation: http://tesp.readthedocs.io

License: https://github.com/pnnl/tesp/blob/main/LICENSE

TESP provides a set of simulation tools and example implementations of transactive systems to provide a means of more easily developing and evaluating transactive systems. TESP utilizes the HELICS co-simulation framework to enable coordination between a number of simulation tools: GridLAB-D, EnergyPlus v9.3, AMES/PSST, PYPOWER and ns-3 (optimized build with logging enabled). TESP comes with several test cases, including the NIST TE Challenge 2, the SGIP use case 1, and an 8-bus test system for ERCOT. There are examples of the double-auction real-time market in real-time and day-ahead modes, and a transactive consensus mechanism for large buildings. The intended use case for TESP is to focus on the development and testing of transactive control agents, without having to build up a large system simulation infrastructure. There are sample agents provided in Python 3.6+, Java 11+, and C/C++.

TESP runs natively on Linux and can be installed by following a simple process detailed in the documentation. The rest of the documentation can be found at TESP's ReadTheDocs site.

Change log:

  • v0.1.2 Patch for tape shield / concentric neutral cables with separate neutral conductor.
  • v0.3.0 Refactored agent classes for DSO+T study.
  • v0.9.5 HELICS, MATPOWER/MOST, ERCOT and E+ 9.3 examples.
  • v1.0.0 There are examples of the double-auction real-time market in real-time and day-ahead modes, and a transactive consensus mechanism for large buildings. The intended use case for TESP is to focus on the development and testing of transactive control agents, without having to build up a large system simulation infrastructure. There are sample agents provided in Python 3.6+, Java 11+, and C/C++.
  • v1.1.1 Updated installation method and documentation. Patches for SGIP1, consensus mechanism, standalone house generator. Updated examples from Helic2.8 to Helics3.0. Added DSO Stub case for agent testing.
  • v1.1.3 Updated some documentation and build patches.
  • v1.1.4 Updates to auto testing and minors bug fixes for Comm cases using HELICS3.0.
  • v1.1.5 Updates to auto testing and minors bug fixes for install and a better loadshed example.
  • v1.2.0 Updates to auto testing and minors bug fixes. Version changes for HELICS 3.3, GridLAB-D 5.0. Reorganize environment and updated documentation. Add more loadshed N3 examples.
  • v1.2.1 Fixed python shell files, fixed complex python to use helics complex.
  • v1.2.2 Fixed the installation for Ubuntu 22.04.
  • v1.3.0 Refactor the TESP PyPI api. Upgrade all models(GridLAB-D, EnergyPlus, NS3) to work with HELICS 3.4. Add modifier.py for GridLAB-D models.
  • v1.3.2 Updated model and modifier for GridLAB-D models, added readme for GLM modifier and Store examples.
  • v1.3.3 Add tesp_component download in tesp_support pypi, change directory structure. Add dockerfile for each module getting ready for dockerize COSU Simulations

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  • Python 81.0%
  • MATLAB 7.1%
  • C++ 6.7%
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  • Shell 1.9%
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