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The continuous increase of leakage power consumption in deep sub-micro technologies necessitates more aggressive leakage control. Runtime leakage control (RTLC) is effective, since runtime circuits generally have significant amount of idleness. However, current RTLC techniques are only used when circuits have long idleness, rendering the techniques less profitable. The reason is due to the large energy...
Runtime leakage control techniques, such as power gating (PG) and body biasing (BB), have been applied in a coarse-grained manner traditionally. In order to enable more aggressive leakage reduction, researchers are seeking ways to control leakage with finer granularity. Our research proposes two novel methods, namely circuit clustering for temporal and spatial idleness exploitation, to systematically...
Ever since the invention of various leakage power reduction techniques, leakage and dynamic power reduction techniques are categorized into two separate sets. Most of them cannot be applied together during runtime. The gap between them is due to the large energy breakeven time (EBT) and wakeup time (WUT) of conventional leakage reduction techniques. This paper proposes a new leakage reduction technique...
Run-time Power Gating (RTPG) is a recent technique, which aims at aggressively reducing leakage power consumption. Energy breakeven time (EBT), or equivalent sleep time has been proposed as a critical figure of merit of RTPG. Our research introduces the definition of average EBT in a run-time environment. We develop a method to estimate the average EBT for any given circuit block, considering the...
With the technology moving into the deep sub-100 nm region, the increase of leakage power consumption necessitates more aggressive power reduction techniques. Power gating is a promising technique. Our research emphasizes the virtual ground voltage (VVG) as the key to make critical design trade-offs for power gating. We develop an accurate model to estimate the dynamic VVG value of a circuit block...
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