As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become an inevitable issue for high-performance microprocessor designs. Since on-chip caches are major contributors of the leakage, a number of researchers have proposed efficient leakage reduction techniques. However, it is still not clear that 1) what kind of algorithm can be considered and 2) how much they have impact on energy and performance. To answer these questions, we explore runtime cache management algorithm, and evaluate the energy-performance efficiency for several alternatives
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power has grown significantly and is a major challenge in microprocessor design. Leakage is ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
A number of techniques to reduce cache leakage have so far been proposed. However, it is not clear t...
Recently, energy dissipation by microprocessors is getting larger, which leads to a serious problem ...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
Energy management is important for a spectrum of systems ranging from high-performance architectures...
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
fraction of the total power consumption of microprocessors. In nanometer-scale technology, the subth...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power has grown significantly and is a major challenge in microprocessor design. Leakage is ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
A number of techniques to reduce cache leakage have so far been proposed. However, it is not clear t...
Recently, energy dissipation by microprocessors is getting larger, which leads to a serious problem ...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
Energy management is important for a spectrum of systems ranging from high-performance architectures...
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
We evaluate the leakage reduction for both instruction and data cache in presence of drowsy or decay...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
fraction of the total power consumption of microprocessors. In nanometer-scale technology, the subth...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
Leakage power in data cache memories represents a sizable fraction of total power consumption, and m...
Leakage power has grown significantly and is a major challenge in microprocessor design. Leakage is ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...