Energy management is important for a spectrum of systems ranging from high-performance architectures to low-end mobile and embedded devices. With the increasing number of transistors, smaller feature sizes, lower supply and threshold voltages, the focus on energy optimization is shifting from dynamic to leakage energy. In fact, leakage energy is projected to become the dominant portion of the chip power budget for 0.10 micron technology and below. Leakage energy is of particular concern in dense cache memories that form a major portion of the transistor budget
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Energy management is important for a spectrum of systems ranging from high-performance architectures...
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...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
fraction of the total power consumption of microprocessors. In nanometer-scale technology, the subth...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
Gate leakage current is fast becoming a major contributor to total leakage and will become the domin...
Leakage energy reduction techniques in deep submicron cache memories: A comparative stud
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
Energy management is important for a spectrum of systems ranging from high-performance architectures...
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...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
fraction of the total power consumption of microprocessors. In nanometer-scale technology, the subth...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
Gate leakage current is fast becoming a major contributor to total leakage and will become the domin...
Leakage energy reduction techniques in deep submicron cache memories: A comparative stud
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...