Ebook: Timing Optimization Through Clock Skew Scheduling
- Tags: Circuits and Systems, Computer-Aided Engineering (CAD CAE) and Design, Electronics and Microelectronics Instrumentation, Electronic and Computer Engineering
- Year: 2009
- Publisher: Springer US
- Edition: 1
- Language: English
- pdf
Timing Optimization Through Clock Skew Scheduling focuses on optimizing the timing of large scale, high performance, digital synchronous systems. A particular emphasis is placed on algorithms for non-zero clock skew scheduling to improve the performance and reliability of VLSI circuits.
This research monograph answers the need for a broad introduction to state-of-the-art clock skew scheduling algorithms from a circuit, graph, and mathematical optimization background. A detailed description of clock skew scheduling application on edge-triggered and level-sensitive circuits, synchronized with single and multi-phase clocking schemes, and formulated as linear programming (LP) and quadratic programming (QP) formulations are provided along with an analysis of optimal computer solution techniques. Theoretical limits of improvement in clock frequency through clock skew scheduling are highlighted. Hints and a preliminary implementation of a parallel skew scheduling application are also included.
Timing Optimization Through Clock Skew Scheduling contains sufficient detail for the advanced CAD algorithm developer, researcher and graduate student. Furthermore, with the material provided on timing properties and optimization, those readers with less background can also benefit from this book.
Timing Optimization Through Clock Skew Scheduling focuses on optimizing the timing of large scale, high performance, digital synchronous systems. A particular emphasis is placed on algorithms for non-zero clock skew scheduling to improve the performance and reliability of VLSI circuits.
This research monograph answers the need for a broad introduction to state-of-the-art clock skew scheduling algorithms from a circuit, graph, and mathematical optimization background. A detailed description of clock skew scheduling application on edge-triggered and level-sensitive circuits, synchronized with single and multi-phase clocking schemes, and formulated as linear programming (LP) and quadratic programming (QP) formulations are provided along with an analysis of optimal computer solution techniques. Theoretical limits of improvement in clock frequency through clock skew scheduling are highlighted. Hints and a preliminary implementation of a parallel skew scheduling application are also included.
Timing Optimization Through Clock Skew Scheduling contains sufficient detail for the advanced CAD algorithm developer, researcher and graduate student. Furthermore, with the material provided on timing properties and optimization, those readers with less background can also benefit from this book.
Timing Optimization Through Clock Skew Scheduling focuses on optimizing the timing of large scale, high performance, digital synchronous systems. A particular emphasis is placed on algorithms for non-zero clock skew scheduling to improve the performance and reliability of VLSI circuits.
This research monograph answers the need for a broad introduction to state-of-the-art clock skew scheduling algorithms from a circuit, graph, and mathematical optimization background. A detailed description of clock skew scheduling application on edge-triggered and level-sensitive circuits, synchronized with single and multi-phase clocking schemes, and formulated as linear programming (LP) and quadratic programming (QP) formulations are provided along with an analysis of optimal computer solution techniques. Theoretical limits of improvement in clock frequency through clock skew scheduling are highlighted. Hints and a preliminary implementation of a parallel skew scheduling application are also included.
Timing Optimization Through Clock Skew Scheduling contains sufficient detail for the advanced CAD algorithm developer, researcher and graduate student. Furthermore, with the material provided on timing properties and optimization, those readers with less background can also benefit from this book.
Content:
Front Matter....Pages i-xvi
Introduction....Pages 1-6
VLSI Systems....Pages 7-18
Signal Delay in VLSI Systems....Pages 19-39
Timing Properties of Synchronous Systems....Pages 41-70
Clock Skew Scheduling and Clock Tree Synthesis....Pages 71-96
Clock Skew Scheduling of Level-Sensitive Circuits....Pages 97-120
Clock Skew Scheduling for Improved Reliability....Pages 121-143
Delay Insertion and Clock Skew Scheduling....Pages 145-165
Practical Considerations....Pages 167-181
Clock Skew Scheduling in Rotary Clocking Technology....Pages 183-204
Experimental Results....Pages 205-241
Back Matter....Pages 243-265
Timing Optimization Through Clock Skew Scheduling focuses on optimizing the timing of large scale, high performance, digital synchronous systems. A particular emphasis is placed on algorithms for non-zero clock skew scheduling to improve the performance and reliability of VLSI circuits.
This research monograph answers the need for a broad introduction to state-of-the-art clock skew scheduling algorithms from a circuit, graph, and mathematical optimization background. A detailed description of clock skew scheduling application on edge-triggered and level-sensitive circuits, synchronized with single and multi-phase clocking schemes, and formulated as linear programming (LP) and quadratic programming (QP) formulations are provided along with an analysis of optimal computer solution techniques. Theoretical limits of improvement in clock frequency through clock skew scheduling are highlighted. Hints and a preliminary implementation of a parallel skew scheduling application are also included.
Timing Optimization Through Clock Skew Scheduling contains sufficient detail for the advanced CAD algorithm developer, researcher and graduate student. Furthermore, with the material provided on timing properties and optimization, those readers with less background can also benefit from this book.
Content:
Front Matter....Pages i-xvi
Introduction....Pages 1-6
VLSI Systems....Pages 7-18
Signal Delay in VLSI Systems....Pages 19-39
Timing Properties of Synchronous Systems....Pages 41-70
Clock Skew Scheduling and Clock Tree Synthesis....Pages 71-96
Clock Skew Scheduling of Level-Sensitive Circuits....Pages 97-120
Clock Skew Scheduling for Improved Reliability....Pages 121-143
Delay Insertion and Clock Skew Scheduling....Pages 145-165
Practical Considerations....Pages 167-181
Clock Skew Scheduling in Rotary Clocking Technology....Pages 183-204
Experimental Results....Pages 205-241
Back Matter....Pages 243-265
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