Skew-Tolerant Circuit Design
暫譯: 抗偏斜電路設計

David Harris

Skew-Tolerant Circuit Design
  • 出版商: Morgan Kaufmann
  • 出版日期: 2000-05-22
  • 售價: $3,000
  • 貴賓價: 9.5$2,850
  • 語言: 英文
  • 頁數: 300
  • 裝訂: Paperback
  • ISBN: 155860636X
  • ISBN-13: 9781558606364

    • 已絕版

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"Harris leads the way to more performance with a clear strategy for design. He shows how to combine logic and latching to do more logic in less time. In an era where less stuff means higher speed, everyone interested in high performance logic must understand these techniques or be left behind."

- Ivan Sutherland
Vice President and Fellow, Sun Microsystems

"The author thoroughly explains important circuit design techniques including various types of latch design styles, clocking strategies, and methods of accounting for clock skew. That all of this is captured in one place is one of the great strengths of this book."

- Emily J. Shriver
Alpha Development Group, Compaq Computer Corporation

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.

Features:

  • 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

Authors:

David Harris is currently an Assistant Professor of Engineering at Harvey Mudd College. He received his Ph.D. in 1999 from Stanford University on skew-tolerant circuit design. Since receiving his M. Eng. from MIT in 1994, he has consulted and taught in the field of high-speed CMOS circuit design at Sun Microsystems, Intel Corporation, HAL Computer, and Evans & Sutherland. In addition, he has taught circuit design at the UC Berkeley Extension and Stanford University.

Table of Contents:

CHAPTER 1 - SKEW-TOLERANT CIRCUIT DESIGN
CHAPTER 2 - STATIC CIRCUITS
CHAPTER 3 - DOMINO CIRCUITS
CHAPTER 4 - CIRCUIT METHODOLOGY
CHAPTER 5 - CLOCKING
CHAPTER 6 - TIMING ANALYSIS
CHAPTER 7 - CONCLUSIONS

Web-Enhanced:

A PowerPoint tutorial on skew-tolerant domino circuits.

Tutorial (c) 2000 TechOnLine. Secton 3 of the Copyright Transfer form grants:

"You may reproduce or authorize others to reporduce the Work, material extracted verbatim from the Work, or derivative works thereof for your personal use, provided that (i) such copies carry a copyright notice indicating TOL's ownership of the Work, (ii) the copies are not used in any way that implies TOL endorsement of a product or service, and (iii) the copies themselves are not offered for sale. You may make limited distribution of all or portions of the Work prior to publication if you inform TOL of the nature and extent of such limited distribution prior to such distribution."

Solutions for exercises from the text. [Available to instructors only; request a password from your academic sales representative]

Related Titles:

Computer Architecture & Design



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「Harris 以清晰的設計策略引領更高的性能。他展示了如何結合邏輯和鎖存器,以在更短的時間內執行更多的邏輯。在一個物品越少意味著速度越快的時代,所有對高性能邏輯感興趣的人都必須理解這些技術,否則將會被拋在後頭。」
- Ivan Sutherland
副總裁及研究員,Sun Microsystems

「作者徹底解釋了重要的電路設計技術,包括各種鎖存器設計風格、時鐘策略以及考慮時鐘偏移的方法。所有這些內容集中在一個地方是本書的一大優勢。」
- Emily J. Shriver
Alpha Development Group, Compaq Computer Corporation

隨著技術和電路設計的進步,微處理器、數位信號處理器(DSP)及其他快速晶片的操作頻率不斷提升,新的設計挑戰也隨之而來。當今晶片設計的一個主要性能限制是時鐘偏移,即一對時鐘之間到達時間的不確定性。隨著時鐘頻率的提高,許多工程師被迫重新思考他們的時序預算,並對多米諾電路和靜態電路使用容忍偏移的電路技術。雖然資深設計師長期以來已經發展出自己的技術來減少多米諾電路的序列開銷,但這些知識通常被視為商業機密,鮮少分享。《容忍偏移的電路設計》提供了一種系統化的方法來實現相同的目標,並將其交到所有設計師的手中。

本書清楚地介紹了容忍偏移的技術,並展示了它們如何應對時鐘、鎖存器和時鐘偏移的挑戰。它為實踐中的電路設計師提供了詳細的教程和對這些關鍵時鐘偏移問題的最新文獻的深刻總結。

特點:
- 將最新的容忍偏移設計進展整合成一個連貫的教程
- 提供尖銳的指導和建議,並穿插幽默的插圖
- 包含測試關鍵概念理解的練習及選定練習的解答

作者:
David Harris 目前是哈維穆德學院的工程助理教授。他於1999年在斯坦福大學獲得博士學位,專攻容忍偏移的電路設計。自1994年從麻省理工學院獲得碩士學位以來,他在Sun Microsystems、Intel Corporation、HAL Computer和Evans & Sutherland等公司從事高速度CMOS電路設計的諮詢和教學。此外,他還在加州大學伯克利分校延伸部和斯坦福大學教授電路設計。

目錄:
第1章 - 容忍偏移的電路設計
第2章 - 靜態電路
第3章 - 多米諾電路
第4章 - 電路方法論
第5章 - 時鐘
第6章 - 時序分析
第7章 - 結論

網路增強:
一個關於容忍偏移的多米諾電路的 PowerPoint 教程。
教程 (c) 2000 TechOnLine。版權轉讓表的第3節授予:
「您可以複製或授權他人複製該作品、從該作品中逐字提取的材料或其衍生作品供您個人使用,前提是 (i) 這些副本附有顯示 TOL 擁有該作品的版權聲明,(ii) 這些副本不以任何方式暗示 TOL 對某產品或服務的認可,(iii) 這些副本本身不被提供出售。您可以在出版前有限分發該作品的全部或部分內容,前提是您在此分發之前告知 TOL 有關該有限分發的性質和範圍。」

練習的解答 [僅限教師使用;請向您的學術銷售代表索取密碼]

相關書籍:
計算機架構與設計

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