7 New Hardware Books Reshaping the Industry in 2025

After developing this book, Hiu Yung Wong crafted a resource that bridges the gap between engineering education and quantum computing hardware. You gain a clear path through complex physics and math, tailored to engineers who may not have deep backgrounds in those areas. The book’s step-by-step explanations, including spin qubits and superconducting qubits, make it easier for you to understand how quantum computers meet the five DiVincenzo criteria. If you’re involved in quantum hardware design or keen on grasping the engineering side of quantum tech, this book offers practical frameworks and simulation code examples to sharpen your skills.

Travis Goodspeed, an embedded systems reverse engineer from Tennessee, channels his deep expertise into exploring real-world microcontroller vulnerabilities in this detailed work. You’ll learn precise techniques for extracting firmware from chips like the STM32F0, STM32F1, and Texas Instruments MSP430, including clever exploits such as using exception handling and even camera flashes to leak data. The book’s second half serves as a thorough catalog of vulnerabilities, indexed for practical use in security research. This isn’t an introduction but a resource for those ready to engage with complex hardware hacking methods and experiment in their own labs.

This tailored book explores the intricate world of quantum hardware design with a focus that matches your background and specific goals. It delves into the latest developments of 2025, examining emerging quantum technologies and novel engineering approaches. By concentrating on areas you find most relevant, it reveals how quantum hardware components work, from qubit architectures to control systems, emphasizing practical understanding alongside theoretical insights. This personalized guide fosters deep comprehension of quantum device engineering, helping you stay current with rapid advancements in this cutting-edge field.

When Istvan Nagy set out to write this book, he drew from deep experience designing complex digital circuit boards for critical systems like servers and routers. You’ll find a thorough exploration starting from high-level system architecture and drilling down to the nitty-gritty of signal integrity and layout design. The book offers a layered approach—short intros to basics for newcomers, but it doesn’t shy away from diving into advanced topics that challenge even seasoned hardware engineers. If you’re involved in digital hardware design and want a resource that bridges fundamental concepts with cutting-edge practices, this book gives you a clear path through complexity without fluff.

Frank Bruno's decades of hands-on FPGA design experience, including roles at SpaceX and Belvedere Trading, shaped this second edition into a practical guide for mastering SystemVerilog and VHDL in hardware development. You’ll gain concrete skills through projects like building a VGA controller, calculator, and embedded microcontroller, which illuminate the complexities of FPGA architectures and tool flows. This book dives into essential concepts such as parallelism, pipelining, and interfacing with AXI and PS/2 keyboards, taking you beyond basics to real-world applications. If you're aiming to develop versatile FPGA programming expertise grounded in industry practices, this book offers a structured path without fluff or overwhelming theory.

Drawing from extensive expertise in system-on-chip design, the authors offer a detailed exploration of Arm-based SoC performance optimization. You’ll find practical insights into integrating diverse IP components, understanding performance bottlenecks, and employing the latest analysis techniques. The book breaks down complex design challenges with examples that illuminate how to balance power, speed, and market demands. If you work on SoC development or hardware architecture, this resource equips you with targeted strategies to enhance efficiency and product readiness in cutting-edge Arm environments.

This tailored book explores the latest advancements and practical techniques in FPGA programming, specially crafted to align with your background and goals as a modern hardware engineer. It reveals step-by-step methods for developing FPGA designs while integrating cutting-edge 2025 insights, ensuring you focus on areas that match your interests and skill level. The book examines real-world applications and emerging trends, helping you deepen your understanding of hardware description languages, design optimization, and implementation challenges. By offering a personalized approach, the content addresses your specific FPGA programming objectives, allowing you to engage with the most relevant discoveries and techniques. This tailored guide makes mastering FPGA development an efficient, focused learning experience that stays ahead of evolving hardware demands.

This book captures the evolving landscape of heterogeneous hardware and managed runtime environments with precision. The authors, experts in computer science, dissect the distinctions between traditional CPUs and heterogeneous accelerators like GPGPUs, clarifying their critical components and programming challenges. You’ll gain insight into how various programming APIs influence both performance and ease of use when harnessing these diverse processors, along with an evaluation of current runtime solutions’ strengths and weaknesses. This work suits scientists and seasoned developers aiming to deepen their understanding of integrating heterogeneous hardware efficiently within managed runtime systems. It’s a technical deep dive tailored for those ready to navigate complex hardware-software interactions rather than a broad overview.

While working as hardware engineers, Chipressian observed a distinct lack of consolidated resources for digital design interviews, especially compared to software counterparts. This book zeroes in on Architecture and Micro-Architecture design, essential skills that define modern ASIC and VLSI workflows, offering you an insider’s roadmap to what companies truly seek. By organizing content to mirror industry practices, it equips you with a clear understanding of these complex topics, from system partitioning to micro-architectural decisions. If you’re aiming to navigate hardware interviews with confidence or deepen your expertise in digital design, this book provides focused knowledge without fluff.