7 New VLSI Books Defining Innovation in 2025

Drawing from their deep academic and practical expertise in electronic design automation, Dr B Mythily Devi and Dr B Bhaskar Reddy crafted this book to clarify the complex automation processes behind VLSI physical design. You explore detailed methodologies for critical stages like partitioning, floorplanning, placement, routing, and timing optimization, gaining familiarity with algorithms such as Kernighan-Lin and Maze routing. The text also delves into crucial topics like power management and signal integrity, while addressing emerging trends including 3D integrated circuits and machine learning applications. If your work or study involves VLSI design automation, this book offers concrete insights into both foundational theory and contemporary practices.

What happens when expertise in machine learning intersects with VLSI chip design? Abhishek Kumar, Suman Lata Tripathi, and K. Srinivasa Rao explore this fusion by detailing hardware and software implementations that integrate AI algorithms directly into chip design processes. You’ll gain insights into how FPGA and CMOS circuits can efficiently support machine learning applications, and how ML enhances electronic design automation by reducing design time and costs. The book also tackles practical challenges like defect detection and the future potential of upgradable integrated circuits. If your work involves VLSI architecture or the evolving role of AI in hardware, this book offers a focused look at emerging techniques and applications.

This tailored book explores the latest breakthroughs shaping VLSI design in 2025, focusing on emerging techniques and discoveries relevant to your background and interests. It reveals cutting-edge developments in physical design, automation, and verification, offering a focused journey through new challenges and solutions that define the current landscape. The content is tailored to match your specific goals, ensuring you delve deeply into areas that matter most to you, from layout programming to advanced chip design concepts. By concentrating on what matters to you personally, this book facilitates an efficient learning experience, connecting you with the pulse of VLSI innovation. It examines the evolving role of machine learning in design processes and highlights novel research trends, making it a dynamic resource for staying ahead in this fast-moving field.

J Solworth's background in VLSI design shines through in this focused exploration of Generic, a programming language tailored for VLSI layout and manipulation. You gain a clear understanding of Generic's syntax, core data structures, and algorithms, supported by practical examples illustrating layout creation and optimization techniques. The book suits engineers and designers eager to deepen their control over VLSI circuit customization, especially those interested in programming-driven layout workflows. While it assumes familiarity with integrated circuit concepts, the detailed examination of layout manipulation offers valuable insights for advancing your VLSI design toolkit.

While working as an Associate Professor and industry expert with over sixteen years at Cadence, Synopsys, and Magma, Sneh Saurabh noticed a gap in accessible resources for mastering the entire VLSI design flow. This book walks you through the entire chip design process, from logic synthesis to verification, physical design, and testing, emphasizing hands-on activities with freely available tools. You'll gain a clear understanding of recent semiconductor trends alongside practical problem sets that reinforce concepts. It suits students building foundational skills and professionals refreshing their knowledge, though those seeking ultra-advanced research might find it more of a thorough introduction than a deep dive.

When Erik Seligman drew on over two decades at Intel and his current role at Cadence Design Systems, he crafted this book to bridge the gap between theory and practical verification in VLSI design. You’ll gain a thorough understanding of how formal verification can analyze RTL designs mathematically, bypassing some exhaustive simulations and speeding up validation cycles. The second edition updates every chapter with evolving techniques and adds a new segment on formal signoff, giving you insights into replacing simulation tasks with more productive methods. If you work in chip design or validation and want to integrate formal verification into your process, this book offers clear explanations and real-world examples from industry insiders.

This personalized AI-created book explores the evolving landscape of VLSI design in 2025, focusing on the latest discoveries and challenges tailored to your role. It delves into emerging techniques and innovations, offering a deep dive into next-generation chip design and verification processes. By matching your background and specific goals, it reveals cutting-edge insights that keep you ahead in this rapidly advancing field. The content balances foundational concepts with the newest research trends, enabling a focused and engaging learning journey. This tailored approach ensures you gain relevant knowledge that directly supports planning and executing future VLSI projects with confidence and clarity.

Drawing from his background in VLSI circuit design, Debasis Mukherjee offers a focused exploration of optimizing physical design for high-performance integrated circuits. You’ll gain insight into the challenges of scaling and efficiency in modern VLSI layouts, with clear explanations on fundamental techniques and emerging optimization strategies. Mukherjee’s concise 72-page treatment zeroes in on practical aspects, such as physical domain constraints and performance trade-offs, making it particularly useful for engineers and students looking to deepen their technical understanding without wading through superfluous theory. This book suits those aiming to refine design skills specifically in physical optimization rather than broad chip architecture.

While working as a circuit design engineer, Hongjiang Song noticed a gap in practical resources focusing on VLSI modulation circuits. This book guides you through problem sets covering PWM modulation, sigma-delta modulation, and specialized circuits like class-D amplifiers and fractional-N PLLs. Each chapter challenges you to apply concepts in signal processing, data conversion, and power management, sharpening your design skills. If you’re involved in VLSI design or signal processing applications, this text offers targeted practice rather than broad theory, making it a solid companion for hands-on learning.