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This well-organised book provides an in-depth coverage of VLSI design engineering, which ranges from CMOS logic to physical design automation. The book begins with a discussion on the structure and operation of MOS as MOSFET is the basic building block for any VLSI design. Then, it goes on to explain the various fabrication methods of MOSFET and CMOS, implementation and properties of MOS inverter circuit, and parasitic parameters and resistances associated with MOSFET, which determine and ultimately limit the performance of a digital system. Besides, it describes design methodology and the concept of the combinational static logic circuits, sequential circuit design and CMOS dynamic circuits. Finally, the book examines semiconductor memory and the importance of adder and multiplier circuits for the VLSI designer. Primarily intended as a text for the undergraduate and postgraduate students of Electrical and Electronics Engineering, the book would also be of considerable value to designers both beginners and professionals. Key Features: Provides mathematical derivations for both noise margin and logic voltage. Explains all combinational and sequential logics separately. Contains a large number of solved and unsolved problems based on issues related to digital VLSI design.
Computer Systems Organization -- Computer System Implementation.
Very Large Scale Integration (VLSI) has become a necessity rather than a specialization for electrical and computer engineers. This unique text provides Engineering and Computer Science students with a comprehensive study of the subject, covering VLSI from basic design techniques to working principles of physical design automation tools to leading edge application-specific array processors. Beginning with CMOS design, the author describes VLSI design from the viewpoint of a digital circuit engineer. He develops physical pictures for CMOS circuits and demonstrates the top-down design methodology using two design projects - a microprocessor and a field programmable gate array. The author then discusses VLSI testing and dedicates an entire chapter to the working principles, strengths, and weaknesses of ubiquitous physical design tools. Finally, he unveils the frontiers of VLSI. He emphasizes its use as a tool to develop innovative algorithms and architecture to solve previously intractable problems. VLSI Design answers not only the question of "what is VLSI," but also shows how to use VLSI. It provides graduate and upper level undergraduate students with a complete and congregated view of VLSI engineering.
Crossbar switch fabrics offer many benefits when designing switch/routers. This book discusses switch/router architectures using design examples and case studies of well-known systems that employ crossbar switch fabric as their internal interconnects. This book looks to explain the design of switch/routers from a practicing engineer’s perspective. It uses a broad range of design examples to illustrate switch/router designs and provides case studies to enhance readers comprehension of switch/router architectures. The book goes on to discuss industry best practices in switch/router design and explains the key features and differences between unicast and multicast packet forwarding architectures. This book will be of benefit to telecoms/networking industry professionals and engineers as well as researchers and academics looking for more practical and efficient approaches for designing non-blocking crossbar switch fabrics.
This book will show you how to approach the design covering everything from the circuit specification to the final design acceptance, including what support you can expect, sizing, timing analysis, power and packaging, various simulations, design verification, and design submission.