Low Power Methodology Manual: For System-on-Chip DesignSpringer Science & Business Media, 2007. gada 31. jūl. - 300 lappuses “Tools alone aren't enough to reduce dynamic and leakage power in complex chip designs - a well-planned methodology is needed. Following in the footsteps of the successful Reuse Methodology Manual (RMM), authors from ARM and Synopsys have written this Low Power Methodology Manual (LPMM) to describe [such] [a] low-power methodology with a practical, step-by-step approach.” Richard Goering, Software Editor, EE Times “Excellent compendium of low-power techniques and guidelines with balanced content spanning theory and practical implementation. The LPMM is a very welcome addition to the field of low power SoC implementation that has for many years operated in a largely ad-hoc fashion.” Sujeeth Joseph, Chief Architect - Semiconductor and Systems Solutions Unit, Wipro Technologies “The LPMM enables broader adoption of aggressive power management techniques based on extensive experience and silicon example with real data that every SOC designer can use to meet the difficulties faced in managing the power issues in deep submicron designs.” Anil Mankar, Sr VP Worldwide Core Engineering and Chief Development Officer, Conexant Systems Inc. “Managing power, at 90nm and below, introduces significant challenges to design flow. The LPMM is a timely and immediately useful book that shows how combination of tools, IP and methodology can be used together to address power management.” Nick Salter, Head of Chip Integration, CSR plc. |
No grāmatas satura
1.–5. rezultāts no 70.
... Power. Switching. Network................................225. 14.1 Ring vs ... Power Switching Control......................... 245 14.6 An Example of a Dual ... Area Efficiency Consideration and L/W Choice .......................... 234 ...
... Area Efficiency .......................................................... 260 Single Row vs. Double Row ... Power Methodology Manual Low Power Methodology Manual xiii APPENDIX B UPF Command Syntax 267.
... power consumption of microprocessor chips presents a significant problem for server farms. For these server farms, infrastructure costs (power ... area, and timing. Today, for most SoC designs, the power budget is one of the most important ...
... power, but it is energy—the area under the curve—that determines battery life. 1.4. Dynamic. Power. The total power for an SoC design consists of dynamic power and static power. Dynamic power is the power consumed when the device is active ...
... area of focus, its own priorities, and often its own language. One goal of this book is to give these groups a common language for discussing low power design and a common understanding of the issues involved in implementing a low power ...
Saturs
1 | |
13 | |
20 | |
CHAPTER 4 Power Gating Overview | 33 |
CHAPTER 5 Designing Power Gating | 41 |
CHAPTER 6 Architectural Issues for Power Gating | 74 |
CHAPTER 7 A Power Gating Example | 85 |
CHAPTER 8 IP Design for Low Power | 101 |
CHAPTER 10 Examples of Voltage and Frequency Scaling Design | 139 |
CHAPTER 11 Implementing Multi Voltage Power Gated Designs | 155 |
CHAPTER 12 Physical Libraries | 187 |
CHAPTER 13 Retention Register Design | 208 |
CHAPTER 14 Design of the Power Switching Network | 225 |
APPENDIX B UPF Command Syntax | 267 |
Index | 297 |
CHAPTER 9 Frequency and Voltage Scaling Design | 120 |
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