05361nam 2200661Ia 450 991014317540332120200520144314.01-280-26476-497866102647660-470-35666-90-471-46412-00-471-22414-6(CKB)111087027126472(EBL)215164(SSID)ssj0000080371(PQKBManifestationID)11107959(PQKBTitleCode)TC0000080371(PQKBWorkID)10095300(PQKB)10448815(MiAaPQ)EBC215164(CaSebORM)9780471415435(OCoLC)85819867(OCoLC)842439187(OCoLC)ocn842439187 (EXLCZ)9911108702712647220010214d2001 uy 0engur|n|---|||||txtccrAsynchronous circuit design /Chris J. Myers1st editionNew York J. Wiley & Sonsc20011 online resource (425 p.)Description based upon print version of record.0-471-41543-X Includes bibliographical references (p. 365-392) and index.Contents; Preface; Acknowledgments; 1 Introduction; 1.1 Problem Specification; 1.2 Communication Channels; 1.3 Communication Protocols; 1.4 Graphical Representations; 1.5 Delay-Insensitive Circuits; 1.6 Huffman Circuits; 1.7 Muller Circuits; 1.8 Timed Circuits; 1.9 Verification; 1.10 Applications; 1.11 Let's Get Started; 1.12 Sources; Problems; 2 Communication Channels; 2.1 Basic Structure; 2.2 Structural Modeling in VHDL; 2.3 Control Structures; 2.3.1 Selection; 2.3.2 Repetition; 2.4 Deadlock; 2.5 Probe; 2.6 Parallel Communication; 2.7 Example: MiniMIPS; 2.7.1 VHDL Specification2.7.2 Optimized MiniMIPS2.8 Sources; Problems; 3 Communication Protocols; 3.1 Basic Structure; 3.2 Active and Passive Ports; 3.3 Handshaking Expansion; 3.4 Reshuffling; 3.5 State Variable Insertion; 3.6 Data Encoding; 3.7 Example: Two Wine Shops; 3.8 Syntax-Directed Translation; 3.9 Sources; Problems; 4 Graphical Representations; 4.1 Graph Basics; 4.2 Asynchronous Finite State Machines; 4.2.1 Finite State Machines and Flow Tables; 4.2.2 Burst-Mode State Machines; 4.2.3 Extended Burst-Mode State Machines; 4.3 Petri Nets; 4.3.1 Ordinary Petri Nets; 4.3.2 Signal Transition Graphs4.4 Timed Event/Level Structures4.5 Sources; Problems; 5 Huffman Circuits; 5.1 Solving Covering Problems; 5.1.1 Matrix Reduction Techniques; 5.1.2 Bounding; 5.1.3 Termination; 5.1.4 Branching; 5.2 State Minimization; 5.2.1 Finding the Compatible Pairs; 5.2.2 Finding the Maximal Compatibles; 5.2.3 Finding the Prime Compatibles; 5.2.4 Setting Up the Covering Problem; 5.2.5 Forming the Reduced Flow Table; 5.3 State Assignment; 5.3.1 Partition Theory and State Assignment; 5.3.2 Matrix Reduction Method; 5.3.3 Finding the Maximal Intersectibles; 5.3.4 Setting Up the Covering Problem5.3.5 Fed-Back Outputs as State Variables5.4 Hazard-Free Two-Level Logic Synthesis; 5.4.1 Two-Level Logic Minimization; 5.4.2 Prime Implicant Generation; 5.4.3 Prime Implicant Selection; 5.4.4 Combinational Hazards; 5.5 Extensions for MIC Operation; 5.5.1 Transition Cubes; 5.5.2 Function Hazards; 5.5.3 Combinational Hazards; 5.5.4 Burst-Mode Transitions; 5.5.5 Extended Burst-Mode Transitions; 5.5.6 State Minimization; 5.5.7 State Assignment; 5.5.8 Hazard-Free Two-Level Logic Synthesis; 5.6 Multilevel Logic Synthesis; 5.7 Technology Mapping; 5.8 Generalized C-Element Implementation5.9 Sequential Hazards5.10 Sources; Problems; 6 Muller Circuits; 6.1 Formal Definition of Speed Independence; 6.1.1 Subclasses of Speed-Independent Circuits; 6.1.2 Some Useful Definitions; 6.2 Complete State Coding; 6.2.1 Transition Points and Insertion Points; 6.2.2 State Graph Coloring; 6.2.3 Insertion Point Cost Function; 6.2.4 State Signal Insertion; 6.2.5 Algorithm for Solving CSC Violations; 6.3 Hazard-Free Logic Synthesis; 6.3.1 Atomic Gate Implementation; 6.3.2 Generalized C-Element Implementation; 6.3.3 Standard C-Implementation; 6.3.4 The Single-Cube Algorithm6.4 Hazard-Free DecompositionWith asynchronous circuit design becoming a powerful tool in the development of new digital systems, circuit designers are expected to have asynchronous design skills and be able to leverage them to reduce power consumption and increase system speed. This book walks readers through all of the different methodologies of asynchronous circuit design, emphasizing practical techniques and real-world applications instead of theoretical simulation. The only guide of its kind, it also features an ftp site complete with support materials.Market: Electrical Engineers, Computer Scientists, Device DesAsynchronous circuitsDesign and constructionElectronic circuit designAsynchronous circuitsDesign and construction.Electronic circuit design.621.3815Myers Chris J.1969-911756MiAaPQMiAaPQMiAaPQBOOK9910143175403321Asynchronous circuit design2041724UNINA