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[资料] A Practical Guide to Low-Power Design

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发表于 2016-3-6 19:12:55 | 显示全部楼层 |阅读模式

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Foreword
Preface
Acknowledgements
References and Bibliography
   
Sect.1 - 2
Sect.1 - 3
Sect.1 - 4
Sect.1 - 6
Low-Power Links
    Power Forward Initiative
    Cadence Low-Power Links
Sect.1 - 9
Sect.1 - 10
Sect.1 - 10
CPF Terminology Glossary
    Design Objects
    CPF Objects
Sect.1 - 12
Sect.1 - 12
Sect.1 - 12
Special Library Cells for Power Management
Sect.1 - 14
Introduction to Low Power
    Low Power Today
    Power Management
    Complete Low-Power RTL-to-GDSII Flow Using CPF
    A Holistic Approach to Low-Power Intent
    Verification of Low-Power Intent with CPF
    Power Intent Validation
    Low-Power Verification
    CPF Verification Summary
Sect.1 - 16
Sect.1 - 16
Sect.1 - 18
Sect.1 - 31
Sect.1 - 37
Sect.1 - 40
Sect.1 - 40
Sect.1 - 42
Sect.1 - 57
Front-End Design with CPF
    Architectural Exploration
    Synthesis Low-Power Optimization
    Automated Power Reduction in Synthesis
    CPF-Powered Reduction in Synthesis
    Simulation for Power Estimation
    CPF Synthesis Summary
Sect.1 - 60
Sect.1 - 60
Sect.1 - 62
Sect.1 - 64
Sect.1 - 69
Sect.1 - 79
Sect.1 - 82
Power-Aware Design for Test (DFT)
    Power Domain-Aware DFT
    Power-Aware Test
    CPF Test Summary
Sect.1 - 84
Sect.1 - 84
Sect.1 - 85
Sect.1 - 88
Low-Power Implementation with CPF
    Introduction to Low-Power Implementation
    Gate-Level Optimization in Power-Aware Physical Synthesis
    Clock Gating in Power-Aware Physical Synthesis
    Multi-Vth Optimization in Power-Aware Physical Synthesis
    Multiple Supply Voltage (MSV) in Power-Aware Physical Synthesis
    Power Shut-Off (PSO) in Power-Aware Physical Synthesis
    Dynamic Voltage/Frequency Scaling (DVFS) Implementation
    Substrate Biasing Implementation
    Diffusion Biasing
    CPF Implementation Summary
Sect.1 - 90
Sect.1 - 90
Sect.1 - 93
Sect.1 - 93
Sect.1 - 94
Sect.1 - 95
Sect.1 - 97
Sect.1 - 104
Sect.1 - 105
Sect.1 - 108
Sect.1 - 109
ARC Energy PRO: Technology for Active Power Management
    Overview of ARC Energy PRO
    The Power Struggle
    Designing Low-Power Solutions
    Project Subsystem: ARC CPU with Co-Processor
    Conclusion
Sect.2 - 2
Sect.2 - 2
Sect.2 - 2
Sect.2 - 2
Sect.2 - 5
Sect.2 - 8
NEC Electronics: Integrating Power Awareness in SoC Design with CPF
    NEC Electronics and CPF
    Why Low Power?
    Comprehensive Approach to Low Power
    Example of Mobile Phone System SoC
    NEC Electronics CPF Proof-Point Project: NEC-PPP
    Summary
Sect.3 - 2
Sect.3 - 3
Sect.3 - 4
Sect.3 - 6
Sect.3 - 7
Sect.3 - 11
Sect.3 - 18
Fujitsu: CPF in the Low-Power Design Reference Flow
    Fujitsu and CPF
    Low-Power Design Techniques Used by Fujitsu
    Low-Power Test Chip Developed with CPF
    Low-Power Design Flow with CPF
    Review of Low-Power Test Chip Design
    Fujitsu Reference Design Flow 3.0: Low Power with CPF
    Fujitsu's CPF Low-Power RDF Methodology
    Summary
Sect.4 - 2
Sect.4 - 4
Sect.4 - 5
Sect.4 - 6
Sect.4 - 7
Sect.4 - 8
Sect.4 - 9
Sect.4 -14
Sect.4 -14
NXP User Experience: Complex SoC Implementation with CPF
    Low Power is Critical to NXP
    CPF in Action on a Complex SoC Platform
    Power Network Intent
    Hierarchical Support for IP and Design Reuse
    Scalable Implementation
    DFT Impact
    CPF-Based Results
Sect.5 - 2
Sect.5 - 4
Sect.5 - 7
Sect.5 - 8
Sect.5 - 12
Sect.5 - 13
Sect.5 - 17
Sect.5 - 18
Freescale: Wireless Low-Power Design and Verification with CPF
    Business Implications of Power
    Wireless Carriers and Power
    Phone Power and Energy
    Active Power Challenge and Design Techniques
    Low-Power Design Methodology and CPF
    Mobile Application Power Reduction Results
    Summary
Sect.6 - 2
Sect.6 - 2
Sect.6 - 3
Sect.6 - 3
Sect.6 - 10
Sect.6 - 11
Sect.6 - 14
Sect.6 - 15
TSMC: Advanced Design for Low Power at 65nm and Below
    TSMC 65nm Low-Power Process
    Low-Power Design Techniques
    CPF: The Low-Power Standard
    The TSMC Proof-Point Project
    CPF-Based TSMC Reference Flow 9.0.
    TSMC Low-Power Library: CPF Compliant
    Summary
Sect.7 - 2
Sect.7 - 3
Sect.7 - 3
Sect.7 - 3
Sect.7 - 5
Sect.7 -9
Sect.7 - 20
Sect.7 - 21
ARM: 1176 IEM Reference Methodology
    Introduction
    ARM-Cadence Implementation Reference Methodologies
    ARM1176 Processor
    ARM1176JZF-S Low-Power Reference Methodology
    Conclusion
Sect.8 - 2
Sect.8 - 2
Sect.8 - 3
Sect.8 - 4
Sect.8 - 8
Sect.8 - 26
Faraday: CPF-Based Low-Power Design Methodology for Platform-Based SoCs
    Faraday Design Services and Low-Power Design
    Introduction
    Faraday CPF Flow
    Faraday So Compiler CPF-Enabled Platform-Based Design for Low-Power
    A Low-Power Platform-Based Design Example
    Faraday CPF Low-Power SoCompiler Design Methodology Summary
Sect.9 - 2
Sect.9 - 2
Sect.9 - 3
Sect.9 - 4
Sect.9 - 6
Sect.9 - 17
Sect.9 - 23
Sequence Design: Early Power Analysis with CPF
    Design for Power
    Nano CPU Design Overview
    Conclusions
Sect.10 - 2
Sect.10 - 2
Sect.10 - 7
Sect.10 - 11
ARM Cortex iRM: CPF-Driven Low-Power Functionality in a High-Performance Design Flow
    ARM and Cadence Collaboration
    iRM Flow Setups: Adding Low-Power Functionality to a High-Performance Design Flow
    Other Low-Power Functionality Additions to a High-Performance Design Flow
    Conclusions and Availability of ARM/Cadence iRMs
Sect.11 - 2
Sect.11 - 2
Sect.11 - 5
Sect.11 - 16
Sect.11 - 19
When Do You Know You Have Saved Enough Power?
    Impact of Low-Power Design
    Power Dissipation
    Static Power Optimization
    Static Power Optimization
    Dynamic Power Optimization
    ARM Intelligent Energy Manager™(IEM)
    Power Savings in Multicore Processors
    Conclusions
Sect.12 - 2
Sect.12 - 2
Sect.12 - 3
Sect.12 - 3
Sect.12 - 5
Sect.12 - 7
Sect.12 - 11
Sect.12 - 14
Sect.12 - 16
AMD: Power Gating in a High-Performance GPU
    AMD and Low Power
    Front-End Low-Power Logical Design/Verification Flow and Methodology
    Back-End Low-Power Physical Design/Verification Flow and Methodology
    CPF and Results
    Summary of Results
Sect.13 - 2
Sect.13 - 2
Sect.13 - 9
Sect.13 - 14
Sect.13 - 19
Sect.13 - 22
ARM 1176-JZFS CPU-Based Low-Power Subsystem:
Methodology to Reduce Electrical and Functional Failure in a Low-Power Design

    Abstract
    Overview of Ulterior Project
    Ulterior Implementation
    Assembly and Packaging
    Ulterior Implementation Results

Sect.14 - 2
Sect.14 - 2
Sect.14 - 2
Sect.14 - 11
Sect.14 - 22
Sect.14 - 23
Sonics: CPF Flow for Highly-Configurable On-Chip Network IP
    Overview
    Sonic Power Management Features
    CPF Generation and Automation
    Sample SoC Design
    Sonics CPF-based Low-Power Flow
    Low-Power Reference Flow and Tools
    Conclusion
Sect.15 - 2
Sect.15 - 2
Sect.15 - 4
Sect.15 - 5
Sect.15 - 6
Sect.15 - 7
Sect.15 - 12
Sect.15 - 14
Virage Logic: Minimizing Design Complexity with Power-Optimized Physical IP
    Virage Logic�s IP Portfolio
    Economics of Battery Life
    Economics of IC Cooling
    Low Power Design Solutions
    Virage Logic Power-Optimization Kit: Standard Cell Set
    Standard Cell in the Power Optimization Kit
    Using Library CPF for Level Shifters, Retention Flops and Power Switches
    40nm SiWare Memory Performance/Power Tradeoffs for Bank and Column Mux
    Summary




A Practical Guide to Low-Power Design.pdf.zip (11.62 MB, 下载次数: 2627 )
发表于 2016-3-7 14:19:45 | 显示全部楼层
goodbook
 楼主| 发表于 2016-3-7 14:36:35 | 显示全部楼层
回复 2# apteye


   做低功耗设计的 都要看!
发表于 2016-3-7 15:21:19 | 显示全部楼层
新技术,很好啊,下下来看看~
发表于 2016-3-7 15:43:08 | 显示全部楼层
thanks for sharing
 楼主| 发表于 2016-3-7 17:24:52 | 显示全部楼层
回复 4# keenforce001


   must be new.
发表于 2016-3-7 18:27:03 | 显示全部楼层
kankan
 楼主| 发表于 2016-3-8 10:21:14 | 显示全部楼层
回复 7# dcircuit


   看了吗、。
 楼主| 发表于 2016-4-2 09:00:03 | 显示全部楼层
回复 5# expmylife


   你下载了吗?
发表于 2016-4-7 10:17:08 | 显示全部楼层
thanks very
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