ospx
ospx is an extension package to farn, adding support to build OSP (co-)simulation cases using functional mockup units (FMUs).
ospx supports
- building of case-specific OSP (co-)simulation configuration files
- watching the progress of cosim, and saving final simulation results as a pandas dataframe.
Installation
pip install ospx
ospx requires the following (sub-)package:
- dictIO: foundation package, enabling ospx to handle configuration files in dictIO dict file format.
However, dictIO gets installed automatically with ospx.
Usage Example
ospx provides both an API for use inside Python as well as a CLI for shell execution of core functions.
Reading a caseDict file and building the case-specific OSP (co-)simulation configuration files:
from ospx import OspCaseBuilder
OspCaseBuilder.build('caseDict')
The above task can also be invoked from the command line, using the 'ospCaseBuilder' command line script installed with ospx:
ospCaseBuilder caseDict
For more examples and usage, please refer to ospx's documentation.
File Format
A caseDict is a file in dictIO dict file format used with farn.
For a documentation of the caseDict file format, see File Format in ospx's documentation on GitHub Pages.
For a detailed documentation of the dictIO dict file format used by farn, see dictIO's documentation on GitHub Pages.
Development Setup
1. Install uv
This project uses uv
as package manager.
If you haven't already, install uv, preferably using it's "Standalone installer" method:
..on Windows:
powershell -ExecutionPolicy ByPass -c "irm https://astral.sh/uv/install.ps1 | iex"
..on MacOS and Linux:
curl -LsSf https://astral.sh/uv/install.sh | sh
(see docs.astral.sh/uv for all / alternative installation methods.)
Once installed, you can update uv
to its latest version, anytime, by running:
uv self update
2. Install Python
This project requires Python 3.10 or later.
If you don't already have a compatible version installed on your machine, the probably most comfortable way to install Python is through uv
:
uv python install
This will install the latest stable version of Python into the uv Python directory, i.e. as a uv-managed version of Python.
Alternatively, and if you want a standalone version of Python on your machine, you can install Python either via winget
:
winget install --id Python.Python
or you can download and install Python from the python.org website.
3. Clone the repository
Clone the dictIO repository into your local development directory:
git clone https://github.com/dnv-opensource/ospx path/to/your/dev/ospx
4. Install dependencies
Run uv sync
to create a virtual environment and install all project dependencies into it:
uv sync
5. (Optional) Install CUDA support
Run uv sync
with option --extra cuda
to in addition install torch with CUDA support:
uv sync --extra cuda
Alternatively, you can manually install torch with CUDA support.
Note 1: Do this preferably after running uv sync
. That way you ensure a virtual environment exists, which is a prerequisite before you install torch with CUDA support using below uv pip install
command.
To manually install torch with CUDA support, generate a uv pip install
command matching your local machine's operating system using the wizard on the official PyTorch website.
Note: As we use uv
as package manager, remember to replace pip
in the command generated by the wizard with uv pip
.
If you are on Windows, the resulting uv pip install
command will most likely look something like this:
uv pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cu124
Hint: If you are unsure which cuda version to indicate in above uv pip install .. /cuXXX
command, you can use the shell command nvidia-smi
on your local system to find out the cuda version supported by the current graphics driver installed on your system. When then generating the uv pip install
command with the wizard from the PyTorch website, select the cuda version that matches the major version of what your graphics driver supports (major version must match, minor version may deviate).
6. (Optional) Activate the virtual environment
When using uv
, there is in almost all cases no longer a need to manually activate the virtual environment.
uv
will find the .venv
virtual environment in the working directory or any parent directory, and activate it on the fly whenever you run a command via uv
inside your project folder structure:
uv run <command>
However, you still can manually activate the virtual environment if needed.
When developing in an IDE, for instance, this can in some cases be necessary depending on your IDE settings.
To manually activate the virtual environment, run one of the "known" legacy commands:
..on Windows:
.venv\Scripts\activate.bat
..on Linux:
source .venv/bin/activate
7. Install pre-commit hooks
The .pre-commit-config.yaml
file in the project root directory contains a configuration for pre-commit hooks.
To install the pre-commit hooks defined therein in your local git repository, run:
uv run pre-commit install
All pre-commit hooks configured in .pre-commit-config.yaml
will now run each time you commit changes.
8. Test that the installation works
To test that the installation works, run pytest in the project root folder:
uv run pytest
Meta
Copyright (c) 2024 DNV SE. All rights reserved.
Frank Lumpitzsch – @LinkedIn – frank.lumpitzsch@dnv.com
Claas Rostock – @LinkedIn – claas.rostock@dnv.com
Seunghyeon Yoo – @LinkedIn – seunghyeon.yoo@dnv.com
Distributed under the MIT license. See LICENSE for more information.
https://github.com/dnv-opensource/ospx
Contributing
- Fork it (https://github.com/dnv-opensource/ospx/fork)
- Create an issue in your GitHub repo
- Create your branch based on the issue number and type (
git checkout -b issue-name
) - Evaluate and stage the changes you want to commit (
git add -i
) - Commit your changes (
git commit -am 'place a descriptive commit message here'
) - Push to the branch (
git push origin issue-name
) - Create a new Pull Request in GitHub
For your contribution, please make sure you follow the STYLEGUIDE before creating the Pull Request.