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IEEEPACT
2008
IEEE
2008
IEEE
Multi-optimization power management for chip multiprocessors
The emergence of power as a first-class design constraint has fueled the proposal of a growing number of run-time power optimizations. Many of these optimizations trade-off power saving opportunity for a variable performance loss which depends on application characteristics and program phase. Furthermore, the potential benefits of these optimizations are sometimes non-additive, and it can be difficult to identify which combinations of these optimizations to apply. Trial-and-error approaches have been proposed to adaptively tune a processor. However, in a chip multiprocessor, the cost of individually configuring each core under a wide range of optimizations would be prohibitive under simple trial-and-error approaches. In this work, we introduce an adaptive, multi-optimization power saving strategy for multi-core power management. Specifically, we solve the problem of meeting a global chip-wide power budget through run-time adaptation of highly configurable processor cores. Our ap...
Real-time TrafficHardware | IEEEPACT 2008 | Optimizations Trade-off Power | Power Saving | Run-time Power Optimizations |
| Added | 31 May 2010 |
| Updated | 31 May 2010 |
| Type | Conference |
| Year | 2008 |
| Where | IEEEPACT |
| Authors | Ke Meng, Russ Joseph, Robert P. Dick, Li Shang |
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