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Introduction to VLSI Systems PDF

440 Pages·1980·54.935 MB·English
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INTRODUCTION TO SYSTEMS CARVER MEAD LYNN CONWAY • 3333333333 333333333H iiiiiiiiiiiiiiiiiin l-ii-iiJii^^!Jiiiiiiilj!«3lH^:^!=:Eiiiill! 2iS!t!LJfe.>1i as^^ 3333333J*33 n 31111 liiiiiiiiiiiiiiiillt EiiiillS'SlS'blLJt.Mi 3333333333 nr^illS^^n!^^!!!!!!!^^^!.^^ gi£nin7i 2^?!?^,! ~k!!!iUi;&=^Liiiiiiiilji^]H^!^!=: 33333J*3333jnr^!IIS'^n!^3iiiiiiiai!n^5 iiiiiiiimiiiiiiiiry!!!!iiii^^hiiiiUnlj!^]KE^=:Eiiii]lS^iiS!t!LJk.Mi lilllliliiiiiiiim'TliniiiJil^^^i nn j^ i*^=:E M! la-^n IllimilllllllllllC'l^! ! ul^^'J niii L3]kE^=^e iii i^ 2!^:Jk>u 3333333333 •liniiul^^l^iiiiiiilii^li.^:^ :i:Eiiii]l!^2a!b!nJi.Mi 3333333333 nr^iii[?^r!!=3imii|aj^^ 5 Si£^:=nM 3'"it,f imiiiiiiiiiiiiiiit 'll!!!^Li;^=dl2iiiiii^ljl^]L!^ 3333333333 liiiiiiiiiiiiiiiiilt 3333333333 nr?;il^=5n!V2i"iiiiaa33!^s ^]k<2^^ liiiiiiiiiiiiiiiiilt mm :i:Eiiii]5!i^la!b!nJt.Mti 3333333333 il^ln!:!? liilllllllllliilliiE Ull2:^ =::Eiiii]l!^1iS!!^:JkJlt2 ^ n 3333333333 rr^iii[?^n!=iiiii 1J 11 H!5 r^zi'^r-"i llliiiiliiilliiiliit :!:Eiiiiil!^ii2!&!U*iit2 3333333333 nr^iiir?"^7Ti=iiiii Ijiaii n^Hm^lSS llllllllilllilllillE 3333333333 liiilllllllllliillie 3333333333 iV^Vii^B Sr£?»i lilliiiiiiiiiiiiiiie It 11 rt.iit^=n I 1 1 1 1 1 z^ I lip H ImI fetktK*k*%•l|*k*If*k*li<t|*li* IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIK- IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIE in* nrPF llij iimiiiiiiiiiiiiiiiiiiiiiHiiiir LUMUnUflml IIIIIIIIIIIIIIIIIIIIIIIIHIIIIIIC'kiiiiiiii^. >HHHHHHHHHHH{*H3HH iiiimmiiiiiiiiiiiiHiiiiiiiir iiiimiiimiiiiiiiiiiiiiiiiiiie' IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIK- >HHHHHHHHHH3HHH}<H' lllllllillilllllHIIIIIIIIilllllC :i [111?!!' ^.^:i.?i: IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIC IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIK- IIIIIIIIIIHIIIIIIIIIIIIIIIIIIIIt' IIIIIIIIHIIIIIIIIIIIIIIIIIIIIIIC ?n»!«rn^ IIIH >H3HHHHH33HHH33HH nr;nrj7n:;5nMjii2![(:^5!^""F !IS=r-^'H:f I ft- fr»^^^^44ftKhhKKKK:l TlTlTIIlllllTlTllTiniinil Digitized by the Internet Archive 2011 in http://www.archive.org/details/introductiontovlOOmead INTRODUCTION TO SYSTEMS CARVER MEAD Professor ofComputer Science, Electrical Engineering, andApplied Physics, California Institute ofTechnology LYNN CONWAY Research Fellow, and Manager, VLSISystem Design Area Palo Alto Research Center, Xerox Corporation ADDISON-WESLEY PUBLISHING COMPANY Reading, Massachusetts • Menlo Park, California London • Amsterdam • Don Mills, Ontario • Sydney This book is in the Addison-Wesley Series in Computer Science Consulting Editor Michael A. Harrison Library ofCongress Cataloging in Publication Data Mead, Carver A Introduction to VLSI systems. — 1. Integrated circuits Large scale integration. 2. Microcomputers. 3. Digital electronics. 4. Computer architecture. I. Conway, Lynn A., joint author. II. Title. TK7874.M37 621.3819'535 78-74688 ISBN 0-201-04358-0 Secondprinting, October 1980 © Copyright 1980 by Addison-Wesley Publishing Company, Inc. Philippines copyright 1980 by Addison-Wesley Publishing Company, Inc. All rights reserved. No part ofthis publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the publisher. Printed in the United States of America. Published simultaneously in Canada. Library ofCongress Catalog Card No. 78-74688. ISBN 0-201-04358-0 KLMNOP-HA-898765 TO W. R. SUTHERLAND PREFACE As a result of improvements in fabrication technology, Large Scale Integrated (LSI) electronic circuitry has become so dense that a single silicon LSI chip may contain tens of thousands of transistors. Many LSI chips, such as microproces- sors, now consist of multiple complex subsystems, and thus are really integrated systems rather than integrated circuits. What we have seen so far is only the beginning. Achievable circuit density now doubles with each passing year or two. Physical principles indicate that transistors can be scaled down to less than 1/lOOth oftheir present area and still function as the sort ofswitchingelements with which we can build digital systems. By the late 1980s it will be possible to fabricate chips containing millions of transistors. The devices and interconnections in such very large scale integrated (VLSI) systems will have linear dimensions smallerthan the wavelength ofvisible light. New high-resolution lithographic techniques have already been demon- strated that will enable fabrication of such circuitry. VLSI electronics presents a challenge, not only to those involved in the development offabrication technology, but also to computer scientists and com- puterarchitects. The ways in which digital systems are structured, the procedures used to design them, the trade-offs between hardware and software, and the design of computational algorithms will all be greatly affected by the coming changes in integrated electronics. We believe this will be amajorareaofactivity in computer science on through the 1980s. Until recently the design of integrated circuitry has been the province of circuit and logic designers working within semiconductor firms. Computer ar- chitects have traditionally composed systems from standard integrated circuits designed and manufactured by these firms but have seldom participated in the specification and design of these circuits. Electrical Engineering and Computer Science (EE/CS) curricula reflect this tradition, with courses in device physics and integrated circuit design aimed at a different group of students than those interested in digital system architecture and computer science. Preface This text is written to fill a current gap in the Mterature and to introduce all EE/CS students \o integrated system architecture and design. Combined with individual study in related research areas and participation in large system design projects, this text provides the basis for a graduate course-sequence in integrated systems. However, it is primarily intended for use in intensive undergraduate courses on the subject. The material can also be used to augment courses on computer architecture. We assume the readers background contains the equiva- lent of introductory courses in computer science, electronic circuits, and digital design. There have been major obstacles in the way of those seeking an overall understanding of integrated systems. Integrated electronics has developed in a heatedly competitive and often secretive business environment. There has been a proliferation ofdifferent device technologies, circuit design families, logic design techniques, maskmaking and wafer fabrication techniques, etc. Many of these technologies have sprung up from the grass roots of "Silicon Valley" in the San Francisco Bay Area ofCalifornia, and thus many ofthe "experts" are located in that one region. Most workers in the industry have concentrated on narrow specialties. Separate integrated electronics cultures have independently evolved within many companies, and thus the terminology and practices ofthe specialties vary from company to company. As a result ofthis background, texts on integrated electronics have tended to give detailed accounts of some very narrow horizontal segment of the overall subject, such as device physics or circuit design, and are often tied in subtle ways to some specific context, thus limiting their general applicability. We have chosen instead to provide just enough essential information about devices, circuits, fabrication technology, logic design techniques, and system architecture to enable the readertofully span the entire range ofabstractions from the underlying physics to complete VLSI digital computer systems. A rather small set of key concepts is sufficient. Only by learning the essence ofeach topic, and by carrying alongthe least amount ofmental baggage at each step, will the student emerge with a good overall understanding of the subject. This understanding can then be mapped into the reader's own space of application, technology, and technical culture. The high rate of change of integrated electronics presents another obstacle: information often becomes obsolete very rapidly. The major force for obsoles- cence is the ongoing improvement in fabrication technology, leading to smaller and smaller devices as time passes and thus to a constant change in device characteristics. We attack this obstacle by stressing the effects of the scaling- down ofdevice dimensions. Many of the coming changes in system architectural parameters are thus anticipated. The reader will learn what is common to systems composed of 6 /xm. 2 fim. and 0.5 /am devices, and what is not. While the material in this text is presented in a particular order, it need not be read in that order. Each chapter presents material from a distinct level in the

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