Power gating applied to MP-SoCs for standby-mode power management

Complex SoCs from servers to intelligent sensors are increasingly built up from heterogeneous IP cores and subsystems. Accelerator blocks or additional processor cores support both general purpose and graphics optimized processing in mobile SoCs, but the number of cores that may be simultaneously ac...

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Bibliographische Detailangaben
Veröffentlicht in:2013 50th ACM/EDAC/IEEE Design Automation Conference (DAC) S. 1 - 5
1. Verfasser: Flynn, David
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: New York, NY, USA ACM 29.05.2013
IEEE
Schriftenreihe:ACM Conferences
Schlagworte:
Central Processor Unit (CPU)
Clocks
Computer systems organization > Embedded and cyber-physical systems
Computer systems organization > Real-time systems
Dynamic Voltage and Frequency Scaling (DVFS)
Electronic Design Automation (EDA)
energy-efficiency
Hardware > Electronic design automation > High-level and register-transfer level synthesis
Hardware > Emerging technologies
Hardware > Integrated circuits > Logic circuits > Sequential circuits
Hardware > Very large scale integration design
Implementation IP (IIP)
Intellectual Property (IP)
IP-deployment
Latches
Logic gates
Logical IP (LIP)
low-power
Multi-Threshold CMOS (MTCMOS)
Multi-Voltage (MV)
Physical IP (PIP)
power intent
Power-Gating (PG)
Rails
Registers
standard-cell
State-Retention (SR)
System-on-chip
System-on-Chip (SoC)
standard-cell
physical IP (PIP)
low-power
implementation IP (IIP)
power-gating (PG)
IP-deployment
dynamic voltage and frequency scaling (DVFS)
multi-voltage (MV)
intellectual property (IP)
system-on-chip (SoC)
multi-threshold CMOS (MTCMOS)
electronic design automation (EDA)
power intent
central processor unit (CPU)
logical IP (LIP)
energy-efficiency
state-retention (SR)
ISBN:1450320716, 9781450320719
ISSN:0738-100X
Online-Zugang:Volltext
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Beschreibung
Zusammenfassung:Complex SoCs from servers to intelligent sensors are increasingly built up from heterogeneous IP cores and subsystems. Accelerator blocks or additional processor cores support both general purpose and graphics optimized processing in mobile SoCs, but the number of cores that may be simultaneously active is typically restricted for both battery life and thermal package limits. Power gating is the primary approach to cutting the leakage power for inactive blocks, while state retention and standby voltage scaling can be valuable enhancements for improving energy and latency costs for such leakage mitigation schemes. This paper describes work on techniques that look promising to build on current multi-voltage EDA tools and power intent, without the costs of resorting to full-custom design techniques.
ISBN:1450320716
9781450320719
ISSN:0738-100X
DOI:10.1145/2463209.2488930