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E-raamat: Handbook of Algorithms for Physical Design Automation

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Edited by , Edited by (University of Minnesota, Minneapolis, USA), Edited by
  • Formaat: 1024 pages
  • Ilmumisaeg: 12-Nov-2008
  • Kirjastus: Auerbach
  • ISBN-13: 9781420013481
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Handbook of Algorithms for Physical Design AutomationSuurem pilt
  • Formaat: 1024 pages
  • Ilmumisaeg: 12-Nov-2008
  • Kirjastus: Auerbach
  • ISBN-13: 9781420013481
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The physical design flow of any project depends upon the size of the design, the technology, the number of designers, the clock frequency, and the time to do the design. As technology advances and design-styles change, physical design flows are constantly reinvented as traditional phases are removed and new ones are added to accommodate changes in technology.





Handbook of Algorithms for Physical Design Automation provides a detailed overview of VLSI physical design automation, emphasizing state-of-the-art techniques, trends and improvements that have emerged during the previous decade. After a brief introduction to the modern physical design problem, basic algorithmic techniques, and partitioning, the book discusses significant advances in floorplanning representations and describes recent formulations of the floorplanning problem. The text also addresses issues of placement, net layout and optimization, routing multiple signal nets, manufacturability, physical synthesis, special nets, and designing for specialized technologies. It includes a personal perspective from Ralph Otten as he looks back on the major technical milestones in the history of physical design automation.





Although several books on this topic are currently available, most are either too broad or out of date. Alternatively, proceedings and journal articles are valuable resources for researchers in this area, but the material is widely dispersed in the literature. This handbook pulls together a broad variety of perspectives on the most challenging problems in the field, and focuses on emerging problems and research results.
Editors xiii
Contributors xv
PART I Introduction
Introduction to Physical Design
3(6)
Charles J. Alpert
Dinesh P. Mehta
Sachin S. Sapatnekar
Layout Synthesis: A Retrospective
9(20)
Ralph H.J.M. Otten
Metrics Used in Physical Design
29(26)
Frank Liu
Sachin S. Sapatnekar
PART II Foundations
Basic Data Structures
55(18)
Dinesh P. Mehta
Hai Zhou
Basic Algorithmic Techniques
73(16)
Vishal Khandelwal
Ankur Srivastava
Optimization Techniques for Circuit Design Applications
89(20)
Zhi-Quan Luo
Partitioning and Clustering
109(30)
Dorothy Kucar
PART III Floorplanning
Floorplanning: Early Research
139(22)
Susmita Sur-Kolay
Slicing Floorplans
161(24)
Ting-Chi Wang
Martin D.F. Wong
Floorplan Representations
185(18)
Evangeline F. Y. Young
Packing Floorplan Representations
203(36)
Tung-Chieh Chen
Yao-Wen Chang
Recent Advances in Floorplanning
239(18)
Dinesh P. Mehta
Yan Feng
Industrial Floorplanning and Prototyping
257(20)
Louis K. Scheffer
PART IV Placement
Placement: Introduction/Problem Formulation
277(12)
Gi-Joon Nam
Paul G. Villarrubia
Partitioning-Based Methods
289(22)
Jarrod A. Roy
Igor L. Markov
Placement Using Simulated Annealing
311(16)
William Swartz
Analytical Methods in Placement
327(20)
Ulrich Brenner
Jens Vygen
Force-Directed and Other Continuous Placement Methods
347(30)
Andrew Kennings
Kristofer Vorwerk
Enhancing Placement with Multilevel Techniques
377(22)
Jason Cong
Joseph R. Shinnerl
Legalization and Detailed Placement
399(24)
Ameya R. Agnihotri
Patrick H. Madden
Timing-Driven Placement
423(24)
David Z. Pan
Bill Halpin
Haoxing Ren
Congestion-Driven Physical Design
447(22)
Saurabh N. Adya
Xiaojian Yang
PART V Net Layout and Optimization
Global Routing Formulation and Maze Routing
469(18)
Muhammet Mustafa Ozdal
Martin D.F. Wong
Minimum Steiner Tree Construction
487(22)
Gabriel Robins
Alexander Zelikovsky
Timing-Driven Interconnect Synthesis
509(26)
Jiang Hu
Gabriel Robins
Cliff C. N. Sze
Buffer Insertion Basics
535(22)
Jiang Hu
Zhuo Li
Shiyan Hu
Generalized Buffer Insertion
557(12)
Milos Hrkic
John Lillis
Buffering in the Layout Environment
569(16)
Jiang Hu
Cliff C. N. Sze
Wire Sizing
585(14)
Sanghamitra Roy
Charlie Chung-Ping Chen
PART VI Routing Multiple Signal Nets
Estimation of Routing Congestion
599(16)
Rupesh S. Shelar
Prashant Saxena
Rip-Up and Reroute
615(12)
Jeffrey S. Salowe
Optimization Techniques in Routing
627(18)
Christoph Albrecht
Global Interconnect Planning
645(28)
Cheng-Kok Koh
Evangeline F.Y. Young
Yao-Wen Chang
Coupling Noise
673(22)
Rajendran Panda
Vladimir Zolotov
Murat Becer
PART VII Manufacturability and Detailed Routing
Modeling and Computational Lithography
695(42)
Franklin M. Schellenberg
CMP Fill Synthesis: A Survey of Recent Studies
737(34)
Andrew B. Kahng
Kambiz Samadi
Yield Analysis and Optimization
771(20)
Puneet Gupta
Evanthia Papadopoulou
Manufacturability-Aware Routing
791(22)
Minsik Cho
Joydeep Mitra
David Z. Pan
PART VIII Physical Synthesis
Placement-Driven Synthesis Design Closure Tool
813(22)
Charles J. Alpert
Nathaniel Hieter
Arjen Mets
Ruchir Puri
Lakshmi Reddy
Haoxing Ren
Louise Trevillyan
X Architecture Place and Route: Physical Design for the X Interconnect Architecture
835(30)
Steve Teig
Asmus Hetzel
Joseph Ganley
Jon Frankle
Aki Fujimura
PART IX Designing Large Global Nets
Inductance Effects in Global Nets
865(16)
Yehea I. Ismail
Clock Network Design: Basics
881(16)
Chris Chu
Min Pan
Practical Issues in Clock Network Design
897(16)
Chris Chu
Min Pan
Power Grid Design
913(28)
Haihua Su
Sani Nassif
PART X Physical Design for Specialized Technologies
Field-Programmable Gate Array Architectures
941(16)
Steven J.E. Wilton
Nathalie Chan King Choy
Scott Y.L. Chin
Kara K. W. Poon
FPGA Technology Mapping, Placement, and Routing
957(28)
Kia Bazargan
Physical Design for Three-Dimensional Circuits
985(18)
Kia Bazargan
Sachin S. Sapatnekar
Index 1003
Charles J. Alpert, Dinesh p. Mehta, Sachin S. Sapatnekar
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