On-chip caches represent a sizeable fraction of the total power consumption of microprocessors. Although large caches can significantly improve performance, they have the potential to increase power consumption. As feature sizes shrink, the dominant component of this power loss will be leakage. In our previous work we have shown how the drowsy circuit—a simple, state-preserving, low-leakage circuit that relies on voltage scaling for leakage reduction— can be used to reduce the total energy consumption of data caches by more than 50%. In this paper, we extend the architectural control mechanism of the drowsy cache to reduce leakage power consumption of instruction caches without significant impact on execution time. Our results show that dat...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
Abstract—Reducing the supply voltage to reduce dynamic power consumption in CMOS devices, inadverten...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
Abstract—With the reduction in feature size the static power component, such as the leakage power, d...
Technology projections indicate that static power will become a major concern in future generations ...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
In this paper, a technique to reduce the leakage power consumption in embedded drowsy instruction c...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
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...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
Abstract—Reducing the supply voltage to reduce dynamic power consumption in CMOS devices, inadverten...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
Abstract—With the reduction in feature size the static power component, such as the leakage power, d...
Technology projections indicate that static power will become a major concern in future generations ...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
In this paper, a technique to reduce the leakage power consumption in embedded drowsy instruction c...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
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...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
Abstract—Reducing the supply voltage to reduce dynamic power consumption in CMOS devices, inadverten...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...