Epyscan (short for EPOCH Python scan) generates EPOCH campaigns over a parameter space using different sampling methods. Part of BEAM (Broad EPOCH Analysis Modules).
Install from PyPI with:
pip install epyscanor from a local checkout:
git clone https://github.com/epochpic/epyscan.git
cd epyscan
pip install .We recommend switching to uv to manage packages.
Parameter space to be sampled is described by a dict where keys
should be in the form of block_name:parameter, and values should
be dicts with the following keys:
"min": minimum value of the parameter"max": maximum value of the parameter"log": (optional)bool, ifTruethen grid is done in log space for this parameter
import pathlib
import epyscan
import epydeck
# Define the parameter space to be sampled. Here, we are varying the intensity
# and density
parameters = {
# Intensity varies logarithmically between 1.0e22 and 1.0e24
"constant:intens": {"min": 1.0e22, "max": 1.0e24, "log": True},
# Density varies logarithmically between 1.0e20 and 1.0e24
"constant:nel": {"min": 1.0e20, "max": 1e24, "log": True},
}
# Load a deck file to use as a template for the simulations
with open("template_deck_filename") as f:
deck = epydeck.load(f)
# Create a grid scan object that will generate 4 different sets of parameters
# within the specified ranges
grid_scan = epyscan.GridScan(parameters, n_samples=4)
# Define the root directory where the simulation folders will be saved.
# This directory will be created if it doesn't exist
run_root = pathlib.Path("example_campaign")
# Initialize a campaign object with the template deck and the root directory.
# This will manage the creation of simulation cases
campaign = epyscan.Campaign(deck, run_root)
# Generate the folders and deck files for each set of parameters in the
# grid scan
paths = [campaign.setup_case(sample) for sample in grid_scan]
# Save the paths of the generated simulation folders to a file
with open("paths.txt", "w") as f:
[f.write(f"{path}\n") for path in paths]
# Opening paths.txt
# example_campaign/run_0_1000000/run_0_10000/run_0_100/run_0
# example_campaign/run_0_1000000/run_0_10000/run_0_100/run_1
# example_campaign/run_0_1000000/run_0_10000/run_0_100/run_2
# ...If epyscan contributes to a project that leads to publication, please acknowledge this by citing epyscan. This can be done by clicking the "cite this repository" button located near the top right of this page.
BEAM is a collection of independent yet complementary open-source tools for analysing EPOCH simulations, designed to be modular so researchers can adopt only the components they require without being constrained by a rigid framework. In line with the FAIR principles — Findable, Accessible, Interoperable, and Reusable — each package is openly published with clear documentation and versioning (Findable), distributed via public repositories (Accessible), designed to follow common standards for data structures and interfaces (Interoperable), and includes licensing and metadata to support long-term use and adaptation (Reusable). The packages are as follows:
- sdf-xarray: Reading and processing SDF files and converting them to xarray.
- epydeck: Input deck reader and writer.
- epyscan: Create campaigns over a given parameter space using various sampling methods.
Originally developed by PlasmaFAIR, EPSRC Grant EP/V051822/1