Leakage power in cache memories represents a sizable fraction of total power consumption, and many techniques have been proposed to reduce it. As a matter of fact, during a fixed period of time, only a small subset of cache lines is used. Previous techniques put unused lines, for example, to drowsy in order to save power. Our idea is to adaptively select the most used cache lines. In the case of instruction cache, we found that this can automatically achieved by coupling a tiny cache acting as a filter cache (IL0 cache) with a drowsy-cache. Our experiments, with complete MiBench suite for ARM based processor, show a 25% improvement in leakage saving versus drowsy
Abstract- A number of techniques to reduce cache leakage have so far been proposed. However, it is n...
As feature size shrinks, the dominant component of power consumption will be leakage. As caches repr...
Power consumption in computing today has lead the industry towards energy efficient computing. As tr...
Leakage power in cache memories represents a sizable fraction of total power consumption, and many t...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
In this paper, a technique to reduce the leakage power consumption in embedded drowsy instruction c...
Technology projections indicate that static power will become a major concern in future generations ...
On-chip caches represent a sizeable fraction of the total power consumption of microprocessors. Alth...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Abstract—With the reduction in feature size the static power component, such as the leakage power, d...
In this paper, we present a circuit technique that supports a superdrowsy mode with a single-V DD. I...
In the design of embedded systems, especially battery-powered systems, it is important to reduce ene...
Abstract- A number of techniques to reduce cache leakage have so far been proposed. However, it is n...
As feature size shrinks, the dominant component of power consumption will be leakage. As caches repr...
Power consumption in computing today has lead the industry towards energy efficient computing. As tr...
Leakage power in cache memories represents a sizable fraction of total power consumption, and many t...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
In this paper, a technique to reduce the leakage power consumption in embedded drowsy instruction c...
Technology projections indicate that static power will become a major concern in future generations ...
On-chip caches represent a sizeable fraction of the total power consumption of microprocessors. Alth...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Abstract—With the reduction in feature size the static power component, such as the leakage power, d...
In this paper, we present a circuit technique that supports a superdrowsy mode with a single-V DD. I...
In the design of embedded systems, especially battery-powered systems, it is important to reduce ene...
Abstract- A number of techniques to reduce cache leakage have so far been proposed. However, it is n...
As feature size shrinks, the dominant component of power consumption will be leakage. As caches repr...
Power consumption in computing today has lead the industry towards energy efficient computing. As tr...