We propose a novel dynamic voltage scaling (DVS) approach for reliable and energy efficient cache memories. First, we demonstrate that, as memories age, leakage power reduction techniques become more effective due to sub-threshold current reduction with aging. Then, we provide an analytical model and a design exploration framework to evaluate trade-offs between leakage power and reliability, and propose a BTI and leakage aware selection of the 'drowsy' state retention voltage for DVS of cache memories. We propose three DVS policies, allowing us to achieve different power/reliability trade-offs. Through SPICE simulations, we show that a critical charge and a static noise margin increase up to 150% and 34.7%, respectively, is achieved compare...
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...
Deep-submicron CMOS designs have resulted in large leakage energy dissipation in microprocessors. Wh...
We propose a novel dynamic voltage scaling (DVS) approach for reliable and energy efficient cache me...
In this paper, we show how beneficial effects of aging on static power consumption can be exploited ...
In this paper, we show how beneficial effects of aging on static power consumption can be exploited ...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
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...
Power consumption in computing today has lead the industry towards energy efficient computing. As tr...
\u94Traditional implementations of low-power states based on voltage scaling or power gating have be...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
Technology projections indicate that static power will become a major concern in future generations ...
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...
Deep-submicron CMOS designs have resulted in large leakage energy dissipation in microprocessors. Wh...
We propose a novel dynamic voltage scaling (DVS) approach for reliable and energy efficient cache me...
In this paper, we show how beneficial effects of aging on static power consumption can be exploited ...
In this paper, we show how beneficial effects of aging on static power consumption can be exploited ...
Deep-submicron CMOS designs maintain high transistor switching speeds by scaling down the supply vol...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
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...
Power consumption in computing today has lead the industry towards energy efficient computing. As tr...
\u94Traditional implementations of low-power states based on voltage scaling or power gating have be...
Power dissipation is increasingly important in CPUs rang-ing from those intended for mobile use, all...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
Technology projections indicate that static power will become a major concern in future generations ...
Leakage power is becoming dominant part of the micro-processor chip power budget as feature size shr...
Energy consumption and speed of execution have long been recognized as conflicting requirements for ...
Deep-submicron CMOS designs have resulted in large leakage energy dissipation in microprocessors. Wh...