Released on xx/xx/xxxx.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Update pyfmi version from 2.11 to 2.12 and miniconda version from py310_23.1.0-1-Linux-x86_64 to py310_24.3.0-0-Linux-x86_64. This is for #643.
- Remove support and unit testing of example python controllers using Python 2. This is for #634.
- Add a warning message upon test case compilation in
data/data_manager.pythat is displayed if any of the weather variables indata/categories.jsonis not in<testcase_folder>/resources/weather.csv. This is for #500. - Remove matplotlib requirement from travis unit testing. This is for #655.
- Specify version of scipy to 1.13.0 in test case Dockerfile. This is for #657.
- Remove javascript controller example. This is for #664.
- Add a new directory
/baselines, containing baseline testing scripts and associated KPI results for the baseline controllers of all the testcases. This is for #495. - Add support to
parsing/parser.pyfor test case compilation using Modelon's OPTIMICA Compiler Toolkit (OCT). The parser can take arguments'JModelica'or'OCT', with'JModelica'as default. A user still requires access to an OCT license and software on their set up. This is for #675. - Changed
bestest_hydronicandbestest_hydronic_heat_pumpModelica implementations in this repository to utilize the Modelica IDEAS Library as a dependency for component models, instead of serving as extensions from the Modelica IDEAS Library. This is to simplify dependencies for maintaining the models, and is how other test cases are implemented. It required duplication of the model implementations from the Modelica IDEAS Library into this repository. This is for #680. - Add
activatecontrol inputs that were missing inbestest_hydronicandbestest_hydronic_heat_pumpModelica documentation. This is for #625. - Updated
examples/python/interface.pyto print correct simulation time step, this is for #686. Also removed clutter by printed custom KPI results, which is for #692.
The following new test cases have been added:
multizone_office_simple_hydronic, a 2-zone typical office building in Brussels, Belgium, served by fan-coil units for space heating and cooling, air handling units for space ventilation, an air-source heat pump for hot water production, and an air-cooled chiller for chilled water production. FMU compiled by OCT. This is for #465.
The following changes are backwards-compatible, but might change benchmark results:
- Fix calculation of computational time ratio (
time_rat) in the case of a test where the test case was initialized after a test or simulation (use of/advance) had already been done using the same test case deployment (i.e. the docker container had not been shutdown first and newly deployed). The wait time between the last/advancebefore the new initialization and first/advanceof the new initialization was incorrectly incorporated into the calculation as a control step and has been fixed, resulting in a lower computational time ratio. The extent of impact depends on wait time between tests and control step and number of steps taken in the new test. This is for #673. - Update
minandmaxparameters for heating (oveTSetHea_u) and cooling (oveTSetCoo_u) setpoints inbestest_airandbestest_hydronictest cases tomin=278.15andmax=308.15. This may change benchmark results as it expands the allowable min and max set points for these test cases from previous versions. This is for #658.
The following changes are not backwards-compatible and significantly change benchmark results:
-
Update
multizone_residential_hydronictest case overwrite inputoveTSetPumtooveTSetPumBoiso that this set point change will control thermostat activating both the boiler and the circulation pump. Furthermore, pump control logic is changed from PI following error on set point to on/off depending on thermostat control signal. Lastly, a safety on boiler control is added, allowing it to turn on only if there is flow through the boiler. This safety is bypassed if controlling the boiler directly viaboi_oveBoi_u. This is for #653 and #660. Impacts on KPIs calculated compared to v0.6.0 for indicated scenarios are as follows:Peak Heat Day
KPI % Change ener_tot +1.27% emis_tot +0.47% tdis_tot -2.70% cost_tot_constant +2.78% cost_tot_dynamic +2.96% cost_tot_highly_dynamic +2.26% Typical Heat Day
KPI % Change ener_tot +0.98% emis_tot +0.47% tdis_tot +3.58% cost_tot_constant +1.94% cost_tot_dynamic +2.06% cost_tot_highly_dynamic +1.59%
Released on 04/03/2024.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Add materials for RLEM23 workshop at
docs/workshops/RlemWorkshop_20231112. This is for #585. - Change JModelica docker container address in
testing/Dockerfile. This is for #590. - Specify the Python version (3.7) used for building the wrapper to execute the example JavaScript controllers in the unit test. This is for #594.
- Allow simulations and forecast to work across the end of the year to the next year. This is for #239.
- Pin base Docker image to
linux/x86_64platform. This is for #608. - Correct typo in design documentation about connecting inputs to overwrite blocks in wrapper model. This is for #601.
- Add Git LFS configuration in the
testing/Dockerfileimage used in tests and compilation. This is for #613. - Correct typo in documentation for
multizone_office_simple_air, cooling setback temperature changed from 12 to 30. This is for #605. - Modify unit tests for test case scenarios to only simulate two days after warmup instead of the whole two-week scenario. This is for #576.
- Fix unit tests for possible false passes in certain test cases. This is for #620.
- Add
activatecontrol inputs to all test case documentation and updateget_html_IO.pyto print one file with all inputs, outputs, and forecasts. This is for #555. - Add storing of scenario result trajectories, kpis, and test information to simulation directory within test case docker container. This is for #626.
Released on 10/04/2023.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Add materials for BS2023 workshop at
docs/workshops/BS23Workshop_20230904. This is for #552. - Allow forecast horizons of 0 to retrieve boundary condition data at current time like pricing or temperature setpoints. This is for #554.
- Update
docs/tutorials/tutorial1_developeranddocs/workshops/BS21Workshop_20210831. This is for #532. - In examples and unit test Python requests, use
jsonattribute instead ofdata. This is for #528. - In unit test checking fetching of single forecast variable, specify specific forecast point to check for each test case. This is for #529.
- Update
KPI_Calculator.get_computational_time_ratioto returnNoneif no simulation steps have been processed. This is for #540. - Add
forecastParametersto dashboard submission with empty dictionary and update url for submitting dashboard results. This is for #548. - Fix so that results can be submitted to dashboard if sitting at end of scenario time period instead of needing to try to advance one step past. This is for #546.
- Fix for just-in-time adding example python controller scripts to PYTHONPATH. This is for #565.
- Add an interface for interacting with a test case through BACnet. See new directory
bacnet. This is for #547. - Update Flask API argument type for overwrite values in the
/advancerequest to be float to prevent truncation. This is for #577.
The following changes are backwards-compatible, but might change benchmark results:
- Fix check on control input overwrite in
testcase.TestCase.advancewhen overwriting a value of 0. This will change results if using BOPTEST-Service and delivering control input overwrites, with value of 0, in an /advance request using thejsonattribute with the python requests library. This is for #533.
The following changes are not backwards-compatible, but do not significantly change benchmark results:
- Update BOPTEST test case Docker container to use Python 3.10, pyfmi 2.11, and co-simulation FMUs. Also convert all test case FMUs to co-simulation. This is for #146.
- Non-backwards compatible due to stricter check by Flask REST API to require content as application/json. If using Python
requests, use thejsonparameter instead ofdata. - Tends to slightly speed up simulation time for simpler, single-zone models, while more significantly slowing simulation time for more complex, multi-zone models. Refer to this comment for some benchmarking.
- Non-backwards compatible due to stricter check by Flask REST API to require content as application/json. If using Python
Released on 03/21/2023.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Use python arrays instead of numpy arrays for storage of data in
y_storeandu_storeintestcase.pyfor more efficient memory utilization, resulting in more consistent computation time for each advance step and faster overall test simulations. This is for #520. - Specify version on master branch as
<latest release>-devinstead of0.x.x. This is for #516. - Update tutorial in
docs/workshops/BS21Workshop_20210831to be compatible with BOPTEST v0.3.0 deployed in BOPTEST-Service. This is for #507. - Add
get_html_IO.pyto/datafolder and remove it from/testcasesfolders to avoid code duplication. This is for #464. - Abstract the definition of input and output lists within if-else statements in the API unit tests in
utilities.pyto the setUp method in each test cases's specific testing filetest_<testcase>, by introducing theinputandmeasurementattributes. This is for #463. - Add unit test reporting script to each individual unit test target in the
testing/makefile. This is for #466. - Add error message in case testcase path does not exist in
testcase.py TestCase __Init__method. This is for #475. - Update script
get_html_IO.pyto run with the latest API implementation by adding['payload']. This is for #487. - Update
twozone_apartment_hydronicdocumentation with reference to publication where envelope model was validated with experimental data. This is for #496. - Update
twozone_apartment_hydronicweather.csvandgenerate_data.pyby adding global horizontal radiationHGloHor. This is for #499.
The following changes are not backwards-compatible but do not significantly change benchmark results:
- Change the PUT
forecastAPI to accept lists of variable names with the parameterpoint_namesinstead of returning data for all variables. Also add parametersintervalandhorizonto that API endpoint. Add API GETforecast_pointsto return available forecast point names and metadata. Remove APIs GET and PUTforecast_parameters. This is for #356. - Change the PUT
resultsAPI to accept lists of variable names with the parameterpoint_namesinstead of a single string variable namepoint_name. This is for #398.
The following new test cases have been added:
twozone_apartment_hydronic, a 2-zone apartment based on a real newly built building in Milan, Italy, served by an air-to-water heat pump coupled with a floor heating system. This is for #409.
Released on 07/27/2022.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Clarify
README.mdinstructions for the deployment of a test case. This for #451. - Split unit tests into parallel jobs on travis. This is for #450.
- Add simulation support for test case FMUs compiled using Spawn of EnergyPlus. Does not address workflows for the compiling process for test case FMUs using Spawn. This is for #406.
- New project home page launched at https://ibpsa.github.io/project1-boptest/. This is for #214.
- Add file exclusion list to
data_manager.pywhen loading data from fmu resource directory. This is for #423. - Specify better command on
README.mdfor specifying test case to deploy on Windows. This is for #419. - Remove dependency of example controllers on
pathlibpackage. This is for #416. - Fix and clarify
README.mdfor the/initializeand other API end points. This is for #408.
The following changes are not backwards-compatible but do not significantly change benchmark results:
- Add the POST
submitAPI to submit test results to the online dashboard under a user's account there. This is for #403. - Update API to standardize return package format and information about about errors and warnings. The new return package is in the form
{"status":<status_code_int>, "message":<message_str>, "payload":<relevant_return_data>}. Status codes are: 200, successful with or without warning; 400, bad input; 500, internal error. Users should expect the data returned in"payload"to be the same as the previous version API, which should facilitate the necessary code modifications to maintain compatibility with the new API. This is for #73.
The following new test cases have been added:
multizone_office_simple_air, a 5-zone building based on the U.S. DOE medium office reference building located in Chicago, IL, USA, served by a single-duct Variable Air Volume (VAV) with terminal reheat, air-cooled chiller, and air-to-water heat pump. This is for #273.
The following new core KPIs have been added:
- Peak Electricity Demand (
pele_totin kW/m^2): The maximum 15-minute HVAC electrical demand over the test interval. Returnsnullif test case has no electricity consumption. This is for #388. - Peak Gas Demand (
pgas_totin kW/m^2): The maximum 15-minute HVAC gas demand over the test interval. Returnsnullif test case has no gas consumption. This is for #388. - Peak District Heating Demand (
pdih_totin kW/m^2): The maximum 15-minute HVAC district heating demand over the test interval. Returnsnullif test case has no district heating consumption. This is for #388.
Released on 03/05/2022.
The following changes are backwards-compatible and do not significantly change benchmark results:
- Make the test case parser compatible wth python 3. This is for #404.
- Use
docker-composefor building and running test case. Use ofmake buildandmake rundeprecated. SeeREADME.mdfor new deployment instructions. This is for #365. - Posted developer tutorial given to IBPSA Project 1 WP1.2 during Rome expert meeting and updated for current version of BOPTEST. Located at
docs/tutorials/tutorial1_developer/BOPTEST_Tutorial1_developer_20220110.pdf. This is for #358. - For
multizone_residential_hydronic, correct one-port temperature sensors to two-port and update door models fromBuildings.Airflow.Multizone.DoorDiscretizedOperabletoBuildings.Airflow.Multizone.DoorDiscretizedOpen. This is for #384. - Refactor python-based example tests to utilize a single BOPTEST interface script. This is for #279.
- Fix
data/data_generatorto produce correct set points for defined occupied and unnoccupied times. This is for #368. - Freeze IBPSA Modelica library version in creation of
jmimage for unit testing. This is for #371. - Update test cases to use Buildings v8.0.0 and IDEAS v2.2.1 commit f1fdd8b. This is for #362 and #364.
- Add content to
/docs/workshopsfor workshop at IBPSA Building Simulation 2021 Conference. This is for #348 and #374. - Update README.md to add links to
boptest-serviceandboptest-gym. This is for #353. - Fix path for documentation images for bestest_hydronic_heat_pump test case. This is for #351.
The following changes are backwards-compatible but do change benchmark results:
- Correct calculation of mix day scenario in
/data/find_days.py. This changes the reference day for the mix day scenario time period for thebestest_airtest case. This is for #381.
The following changes are not backwards-compatible but do not significantly change benchmark results:
- Fix so that data returned through the API using
/resultsand/advancefor<control_signal_name>_urepresents the "current value" of the control signal utilized within the emulator. It is equal to the baseline controller value if not being overwritten and the overwritten value otherwise. While this change does not change benchmark results, it is not backward compatible since the measurement signals available in some test cases that reported such "current values" (e.g.reaTSetHea_yinbestest_hydronic) have been removed. Users should instead request data for the control signal<control_signal_name>_u(e.g.oveTSetHea_uinbestest_hydronic). This is for #364.
The following new test cases have been added:
singlezone_commercial_hydronic, a single-zone commercial hydronic model with district heating source, zone radiator, and air handling unit providing fresh air with CO2 control and heat recovery. This is for #162.
Released on 07/13/2021.
This is an initial development release.