English

Parameter-Efficient Quantized Mixture-of-Experts Meets Vision-Language Instruction Tuning for Semiconductor Electron Micrograph Analysis

Machine Learning 2024-08-29 v1 Artificial Intelligence Computer Vision and Pattern Recognition

Abstract

Semiconductors, crucial to modern electronics, are generally under-researched in foundational models. It highlights the need for research to enhance the semiconductor device technology portfolio and aid in high-end device fabrication. In this paper, we introduce sLAVA, a small-scale vision-language assistant tailored for semiconductor manufacturing, with a focus on electron microscopy image analysis. It addresses challenges of data scarcity and acquiring high-quality, expert-annotated data. We employ a teacher-student paradigm, using a foundational vision language model like GPT-4 as a teacher to create instruction-following multimodal data for customizing the student model, sLAVA, for electron microscopic image analysis tasks on consumer hardware with limited budgets. Our approach allows enterprises to further fine-tune the proposed framework with their proprietary data securely within their own infrastructure, protecting intellectual property. Rigorous experiments validate that our framework surpasses traditional methods, handles data shifts, and enables high-throughput screening.

Keywords

Cite

@article{arxiv.2408.15305,
  title  = {Parameter-Efficient Quantized Mixture-of-Experts Meets Vision-Language Instruction Tuning for Semiconductor Electron Micrograph Analysis},
  author = {Sakhinana Sagar Srinivas and Chidaksh Ravuru and Geethan Sannidhi and Venkataramana Runkana},
  journal= {arXiv preprint arXiv:2408.15305},
  year   = {2024}
}

Comments

Paper published at ICML 2024 Workshop on Foundation Models in the Wild

R2 v1 2026-06-28T18:25:49.692Z