Harnessing the Potential of Deep-learning Algorithms and Generative AI for SoC and Chiplet Design and...

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Imed Ben Dhaou Hannu Tenhunen

Harnessing the Potential of Deep-learning Algorithms and Generative AI for SoC and Chiplet Design and Verification

Imed Ben Dhaou, Hannu Tenhunen, Ahmed Abdelgawad , Sree Ranjani Rajendran

$118.95 $95.20

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English

now publishers Inc
01 May 2025

Electrical engineering

Series: Foundations and Trends® in Engineering

Summary
Details

Recent developments in semiconductor technology have significantly increased integration density, with modern System-on-Chip (SoC) designs for high-performance computing now exceeding 10 billion transistors. However, the traditional CMOS transistor scaling law has reached its physical limits. This has necessitated the adoption of More-than-Moore (MtM) technology, which integrates novel design methodologies and heterogeneous computing architectures. Electronic Design Automation (EDA), design reuse, and IP-based methodologies have been instrumental in bridging the productivity gap, reducing time-to-market, and meeting increasingly stringent performance and security requirements. As electronic systems grow in complexity, new design and verification methodologies are emerging to address these challenges effectively.

In the pre-Internet of Things (IoT) era, the security of SoC designs was often an afterthought. However, the widespread adoption of IoT devices has made security a critical concern at every level of deployment. Current EDA tools, while optimizing for performance, inadvertently introduce vulnerabilities that expose circuits to threats such as side-channel attacks, reverse engineering, and hardware Trojans. This increasing focus on security necessitates the development of security-aware EDA tools capable of addressing threats such as fault injection, information leakage, and timing and power-based attacks.

Deep learning algorithms and Large Language Models (LLMs) have emerged as promising solutions to address the growing challenges in SoC and chiplet design and verification. The application of AI-driven methodologies is revolutionizing Register Transfer Logic (RTL) generation, hardware security, and design automation, leading to enhanced power-performance-area (PPA) metrics and improved verification efficiency. This special issue features three works that explore the transformative role of AI in EDA and SoC design, namely Deep Learning and Generative AI for Monolithic and Chiplet SoC Design and Verification, Large Language Models for EDA, and Evaluating LLMs for Automatic RTL Generation for Combinational Circuits via High-Level Synthesis. These works collectively underscore the transformative potential of AI and LLMs in revolutionizing SoC design and EDA workflows. This special issue provides valuable insights for researchers and industry professionals, inspiring further advancements in AI-assisted hardware design and verification.

Edited by: Imed Ben Dhaou, Hannu Tenhunen, Ahmed Abdelgawad, Sree Ranjani Rajendran, Rajat Subhra Chakraborty
Imprint: now publishers Inc
Country of Publication: United States
Dimensions: Height: 234mm, Width: 156mm,
Weight: 181g
ISBN: 9781638285380
ISBN 10: 1638285381
Series: Foundations and Trends® in Engineering
Pages: 120
Publication Date: 01 May 2025
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Active

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Harnessing the Potential of Deep-learning Algorithms and Generative AI for SoC and Chiplet Design and Verification

Imed Ben Dhaou, Hannu Tenhunen, Ahmed Abdelgawad , Sree Ranjani Rajendran

$118.95 $95.20

Paperback

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