ECLIPSE: An Evolutionary Computation Library for Instrumentation Prototyping in Scientific Engineering
Abstract
Designing scientific instrumentation often requires exploring large, highly constrained design spaces using computationally expensive physics simulations. These simulators pose substantial challenges for integrating evolutionary computation (EC) into scientific design workflows. EC typically requires numerous design evaluations, making the integration of slow, low-throughput simulators challenging, as they are optimized for accuracy and ease of use rather than throughput. We present ECLIPSE, an evolutionary computation framework built to interface directly with complex, domain-specific simulation tools while supporting flexible geometric and parametric representations of scientific hardware. ECLIPSE provides a modular architecture consisting of (1) Individuals, which encode hardware designs using domain-aware, physically constrained representations; (2) Evaluators, which prepare simulation inputs, invoke external simulators, and translate the simulator's outputs into fitness measures; and (3) Evolvers, which implement EC algorithms suitable for this domain. We evolve solutions for two novel space-science applications: 3D antennas optimized for directional sensitivity and spacecraft geometries optimized for drag reduction. Notably, we identify antennas with directional sensitivity roughly comparable to the expected sensitivity of two-antenna interferometric arrays, representing potential cost-savings. ECLIPSE enables interdisciplinary teams of physicists, engineers, and EC researchers to collaboratively explore designs for scientific hardware while leveraging existing domain-specific simulation software.
Cite
@article{arxiv.2601.05098,
title = {ECLIPSE: An Evolutionary Computation Library for Instrumentation Prototyping in Scientific Engineering},
author = {Max Foreback and Evan Imata and Vincent Ragusa and Jacob Weiler and Jonathan Sy and Christina Shao and Joey Wagner and Dylan Wells and Rick Marcusen and Katherine G. Skocelas and Aman Hafez and Amy Conolly and Kyle R. Helson and Rajiv Ramnath and Wolfgang Banzhaf and Charles Ofria and Marcin Pilinski and Bryan Reynolds and Anselmo C. Pontes and Emily Dolson and Julie Rolla},
journal= {arXiv preprint arXiv:2601.05098},
year = {2026}
}
Comments
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