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Algorithms for VLSI Physical Design Automation

BuchKartoniert, Paperback
538 Seiten
Englisch
Springererschienen am13.10.20122. Aufl.
Algorithms for VLSI Physical Design Automation, Second Edition is a core reference text for graduate students and CAD professionals. Algorithms for VLSI Physical Design Automation covers all aspects of physical design.mehr
Verfügbare Formate
BuchKartoniert, Paperback
EUR53,49
BuchGebunden
EUR103,50
E-BookPDF1 - PDF WatermarkE-Book
EUR53,49

Produkt

KlappentextAlgorithms for VLSI Physical Design Automation, Second Edition is a core reference text for graduate students and CAD professionals. Algorithms for VLSI Physical Design Automation covers all aspects of physical design.
Details
ISBN/GTIN978-1-4613-5997-5
ProduktartBuch
EinbandartKartoniert, Paperback
Verlag
Erscheinungsjahr2012
Erscheinungsdatum13.10.2012
Auflage2. Aufl.
Seiten538 Seiten
SpracheEnglisch
Gewicht860 g
IllustrationenXXVII, 538 p.
Artikel-Nr.30046186

Inhalt/Kritik

Inhaltsverzeichnis
1 VLSI Physical Design Automation.- 1.1 VLSI Design Cycle.- 1.2 New Trends in VLSI Design Cycle.- 1.3 Physical Design Cycle.- 1.4 New Trends in Physical Design Cycle.- 1.5 Design Styles.- 1.6 System Packaging Styles.- 1.7 Historical Perspectives.- 1.8 Existing Design Tools.- 1.9 Summary.- 2 Design and Fabrication of VLSI Devices.- 2.1 Fabrication Materials.- 2.2 Transistor Fundamentals.- 2.3 Fabrication of VLSI Circuits.- 2.4 Design Rules.- 2.5 Layout of Basic Devices.- 2.6 Additional Fabrication Factors.- 2.7 Summary.- 2.8 Exercises.- 3 Data Structures and Basic Algorithms.- 3.1 Basic Terminology.- 3.2 Complexity Issues and NP-hardness.- 3.3 Basic Algorithms.- 3.4 Basic Data Structures.- 3.5 Graph Algorithms for Physical design.- 3.6 Summary.- 3.7 Exercises.- 4 Partitioning.- 4.1 Problem Formulation.- 4.2 Classification of Partitioning Algorithms.- 4.3 Group Migration Algorithms.- 4.4 Simulated Annealing and Evolution.- 4.5 Other Partitioning Algorithms.- 4.6 Performance Driven Partitioning.- 4.7 Summary.- 4.8 Exercises.- 5 Placement, Floorplanning and Pin Assignment.- 5.1 Placement.- 5.2 Floorplanning.- 5.3 Pin Assignment.- 5.4 Integrated Approach.- 5.5 Summary.- 5.6 Exercises.- 6 Global Routing.- 6.1 Problem Formulation.- 6.2 Classification of Global Routing Algorithms.- 6.3 Maze Routing Algorithms.- 6.4 Line-Probe Algorithms.- 6.5 Shortest Path Based Algorithms.- 6.6 Steiner Tree based Algorithms.- 6.7 Integer Programming Based Approach.- 6.8 Summary.- 6.9 Exercises.- 7 Detailed Routing.- 7.1 Problem Formulation.- 7.2 Classification of Routing Algorithms.- 7.3 Single-Layer Routing Algorithms.- 7.4 Two-Layer Channel Routing Algorithms.- 7.5 Three-Layer Channel Routing Algorithms.- 7.6 Multi-Layer Channel Routing Algorithms.- 7.7 Switchbox Routing Algorithms.- 7.8 Summary.- 7.9 Exercises.- 8 Over-the-Cell Routing and Via Minimization.- 8.1 Over-the-cell Routing.- 8.2 Via Minimization.- 8.3 Summary.- 8.4 Exercises.- 9 Specialized Routing.- 9.1 Clock Routing.- 9.2 Power and Ground Routing.- 9.3 Summary.- 9.4 Exercises.- 10 Compaction.- 10.1 Problem Formulation.- 10.2 Classification of Compaction Algorithms.- 10.3 One-Dimensional Compaction.- 10.4 l -Dimensional Compaction.- 10.5 Two-Dimensional Compaction.- 10.6 Hierarchical Compaction.- 10.7 Summary.- 10.8 Exercises.- 11 Physical Design Automation of FPGAs.- 11.1 FPGA Technologies.- 11.2 Physical Design Cycle for FPGAs.- 11.3 Partitioning.- 11.4 Routing.- 11.5 Summary.- 11.6 Exercises.- 12 Physical Design Automation of MCMs.- 12.1 MCM Technologies.- 12.2 MCM Physical Design Cycle.- 12.3 Partitioning.- 12.4 Placement.- 12.5 Routing.- 12.6 Summary.- 12.7 Exercises.- Author Index.mehr