English

PRISM: Protocol Refinement through Intelligent Simulation Modeling

Robotics 2026-01-12 v1 Artificial Intelligence Multiagent Systems Quantitative Methods

Abstract

Automating experimental protocol design and execution remains as a fundamental bottleneck in realizing self-driving laboratories. We introduce PRISM (Protocol Refinement through Intelligent Simulation Modeling), a framework that automates the design, validation, and execution of experimental protocols on a laboratory platform composed of off-the-shelf robotic instruments. PRISM uses a set of language-model-based agents that work together to generate and refine experimental steps. The process begins with automatically gathering relevant procedures from web-based sources describing experimental workflows. These are converted into structured experimental steps (e.g., liquid handling steps, deck layout and other related operations) through a planning, critique, and validation loop. The finalized steps are translated into the Argonne MADSci protocol format, which provides a unified interface for coordinating multiple robotic instruments (Opentrons OT-2 liquid handler, PF400 arm, Azenta plate sealer and peeler) without requiring human intervention between steps. To evaluate protocol-generation performance, we benchmarked both single reasoning models and multi-agent workflow across constrained and open-ended prompting paradigms. The resulting protocols were validated in a digital-twin environment built in NVIDIA Omniverse to detect physical or sequencing errors before execution. Using Luna qPCR amplification and Cell Painting as case studies, we demonstrate PRISM as a practical end-to-end workflow that bridges language-based protocol generation, simulation-based validation, and automated robotic execution.

Keywords

Cite

@article{arxiv.2601.05356,
  title  = {PRISM: Protocol Refinement through Intelligent Simulation Modeling},
  author = {Brian Hsu and Priyanka V Setty and Rory M Butler and Ryan Lewis and Casey Stone and Rebecca Weinberg and Thomas Brettin and Rick Stevens and Ian Foster and Arvind Ramanathan},
  journal= {arXiv preprint arXiv:2601.05356},
  year   = {2026}
}

Comments

43 pages, 8 figures, submitted to RSC Digital Discovery. Equal contribution: B. Hsu, P.V. Setty, R.M. Butler. Corresponding author: A. Ramanathan

R2 v1 2026-07-01T08:56:58.541Z