Skew-Tolerant Circuit Design (e-bog) af Harris, David
Harris, David (forfatter)

Skew-Tolerant Circuit Design e-bog

403,64 DKK (inkl. moms 504,55 DKK)
As advances in technology and circuit design boost operating frequencies of microprocessors, DSPs and other fast chips, new design challenges continue to emerge. One of the major performance limitations in today's chip designs is clock skew, the uncertainty in arrival times between a pair of clocks. Increasing clock frequencies are forcing many engineers to rethink their timing budgets and to u...
E-bog 403,64 DKK
Forfattere Harris, David (forfatter)
Udgivet 16 juni 2000
Længde 300 sider
Genrer Computer architecture and logic design
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780080541266
As advances in technology and circuit design boost operating frequencies of microprocessors, DSPs and other fast chips, new design challenges continue to emerge. One of the major performance limitations in today's chip designs is clock skew, the uncertainty in arrival times between a pair of clocks. Increasing clock frequencies are forcing many engineers to rethink their timing budgets and to use skew-tolerant circuit techniques for both domino and static circuits. While senior designers have long developed their own techniques for reducing the sequencing overhead of domino circuits, this knowledge has routinely been protected as trade secret and has rarely been shared. Skew-Tolerant Circuit Design presents a systematic way of achieving the same goal and puts it in the hands of all designers.This book clearly presents skew-tolerant techniques and shows how they address the challenges of clocking, latching, and clock skew. It provides the practicing circuit designer with a clearly detailed tutorial and an insightful summary of the most recent literature on these critical clock skew issues. Synthesizes the most recent advances in skew-tolerant design in one cohesive tutorial Provides incisive instruction and advice punctuated by humorous illustrations Includes exercises to test understanding of key concepts and solutions to selected exercises