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|a 9781461560654
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|a 10.1007/978-1-4615-6065-4
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|a Yeap, Gary K.
|e author.
|4 aut
|4 http://id.loc.gov/vocabulary/relators/aut
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|a Practical Low Power Digital VLSI Design
|h [electronic resource] /
|c by Gary K. Yeap.
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| 250 |
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|a 1st ed. 1998.
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| 264 |
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|a New York, NY :
|b Springer US :
|b Imprint: Springer,
|c 1998.
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| 300 |
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|a XV, 212 p.
|b online resource.
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|a text
|b txt
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|a Springer eBook Collection
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|a 1 Introduction -- 1.1 Needs for Low Power VLSI Chips -- 1.2 Charging and Discharging Capacitance -- 1.3 Short-circuit Current in CMOS Circuit -- 1.4 CMOS Leakage Current -- 1.5 Static Current -- 1.6 Basic Principles of Low Power Design -- 1.7 Low Power Figure of Merits -- 2 Simulation Power Analysis -- 2.1 SPICE Circuit Simulation -- 2.2 Discrete Transistor Modeling and Analysis -- 2.3 Gate-level Logic Simulation -- 2.4 Architecture-level Analysis -- 2.5 Data Correlation Analysis in DSP Systems -- 2.6 Monte Carlo Simulation -- 3 Probabilistic Power Analysis -- 3.1 Random Logic Signals -- 3.2 Probability and Frequency -- 3.3 Probabilistic Power Analysis Techniques -- 3.4 Signal Entropy -- 4 Circuit -- 4.1 Transistor and Gate Sizing -- 4.2 Equivalent Pin Ordering -- 4.3 Network Restructuring and Reorganization -- 4.4 Special Latches and Flip-flops -- 4.5 Low Power Digital Cell Library -- 4.6 Adjustable Device Threshold Voltage -- 5 Logic -- 5.1 Gate Reorganization -- 5.2 Signal Gating -- 5.3 Logic Encoding -- 5.4 State Machine Encoding -- 5.5 Precomputation Logic -- 6 Special Techniques -- 6.1 Power Reduction in Clock Networks -- 6.2 CMOS Floating Node -- 6.3 Low Power Bus -- 6.4 Delay Balancing -- 6.5 Low Power Techniques for SRAM -- 7 Architecture and System -- 7.1 Power and Performance Management -- 7.2 Switching Activity Reduction -- 7.3 Parallel Architecture with Voltage Reduction -- 7.4 Flow Graph Transformation -- 8 Advanced Techniques -- 8.1 Adiabatic Computation -- 8.2 Pass Transistor Logic Synthesis -- 8.3 Asynchronous Circuits.
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| 520 |
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|a Practical Low Power Digital VLSI Design emphasizes the optimization and trade-off techniques that involve power dissipation, in the hope that the readers are better prepared the next time they are presented with a low power design problem. The book highlights the basic principles, methodologies and techniques that are common to most CMOS digital designs. The advantages and disadvantages of a particular low power technique are discussed. Besides the classical area-performance trade-off, the impact to design cycle time, complexity, risk, testability and reusability are discussed. The wide impacts to all aspects of design are what make low power problems challenging and interesting. Heavy emphasis is given to top-down structured design style, with occasional coverage in the semicustom design methodology. The examples and design techniques cited have been known to be applied to production scale designs or laboratory settings. The goal of Practical Low Power Digital VLSI Design is to permit the readers to practice the low power techniques using current generation design style and process technology. Practical Low Power Digital VLSI Design considers a wide range of design abstraction levels spanning circuit, logic, architecture and system. Substantial basic knowledge is provided for qualitative and quantitative analysis at the different design abstraction levels. Low power techniques are presented at the circuit, logic, architecture and system levels. Special techniques that are specific to some key areas of digital chip design are discussed as well as some of the low power techniques that are just appearing on the horizon. Practical Low Power Digital VLSI Design will be of benefit to VLSI design engineers and students who have a fundamental knowledge of CMOS digital design.
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| 590 |
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|a Loaded electronically.
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| 590 |
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|a Electronic access restricted to members of the Holy Cross Community.
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| 650 |
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|a Electronic circuits.
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| 650 |
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|a Electrical engineering.
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