Device Circuit Co-Design Issues in FETs 1st Edition

Capture the cutting edge of semiconductor design with Device Circuit Co-Design Issues in FETs, 1st Edition by Béatrice Hendrich. This authoritative resource bridges transistor physics and practical circuit implementation, delivering clear guidance for engineers, graduate students, and design teams working in CMOS, MOSFET and advanced FET technologies.

Explore how device-level behavior influences circuit performance—noise, variability, scaling limits, and low-power trade-offs—through focused chapters that translate complex theory into actionable design choices. Case studies and real-world examples highlight common pitfalls and optimization strategies for analog and digital blocks, helping you minimize time-to-market and improve yield across Europe, North America, and the Asia-Pacific semiconductor hubs.

Designed for practicing IC designers and researchers, this book emphasizes practical co-design techniques: compact modeling implications, layout-aware circuit strategies, and methods to mitigate process variation. The writing is technical yet accessible, making it ideal for team lead discussions, university courses, and R&D reference shelves.

Why this book matters: it unites device physics with circuit-level decision-making so you can design more reliable, power-efficient FET-based systems. Whether you’re optimizing a mixed-signal front end or pushing submicron digital designs, Hendrich’s insights provide measurable improvements in performance and manufacturability.

Add Device Circuit Co-Design Issues in FETs by Béatrice Hendrich to your professional library today—order now to strengthen your design toolkit and stay competitive in the global semiconductor industry.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.