Process and environmental temperature variations have a detrimental effect on performance and reliability of modern embedded systems. This sensitivity to operating conditions significantly increases in ultra-low-power (ULP) devices and in all those applications that rely on reduced supply voltage to achieve energy efficiency. We propose a lightweight runtime solution to tolerate process and environmental temperature variations. The novelty of our solution is the ability to tackle both hold time and setup time sensitivity to variations by dynamically adapting latencies of the datapaths without compromising execution correctness. We extensively tested our solution evaluating the trade-offs, demonstrating the cost, performance, reliability gai...
Abstract—Instance and temperature-dependent power variation has a direct impact on quality of sensin...
iii As feature sizes scale toward atomic limits, parameter variation continues to increase, leading ...
Abstract—Increasing number of cores and clock speeds on a smaller chip area implies more heat dissip...
Process and environmental temperature variations have a detrimental effect on performance and reliab...
Near Threshold Operation is today a key research area in ultra-low power (ULP) computing, as it prom...
Near-threshold operation is today a key research area in Ultra-Low Power (ULP) computing, as it prom...
Environmental temperature variations, as well as process variations, have a detrimental effect on pe...
none3noIn this brief, we propose a variation-tolerant architecture for shared-L1 processor clusters ...
With scaling of semiconductor fabrication technologies and the push towards deep sub-micron technolo...
The performance and reliability of Ultra-Low-Power (ULP) computing platforms are adversely affected ...
none4The power density inside high performance systems continues to rise with every process technolo...
Operating an integrated circuit at the prescribed nominal supply voltage is not preferable for relia...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Abstract—We present a new methodology which takes into consideration the effect of within-die (WID) ...
Variation in performance and power across manufactured parts and their operating conditions is a wel...
Abstract—Instance and temperature-dependent power variation has a direct impact on quality of sensin...
iii As feature sizes scale toward atomic limits, parameter variation continues to increase, leading ...
Abstract—Increasing number of cores and clock speeds on a smaller chip area implies more heat dissip...
Process and environmental temperature variations have a detrimental effect on performance and reliab...
Near Threshold Operation is today a key research area in ultra-low power (ULP) computing, as it prom...
Near-threshold operation is today a key research area in Ultra-Low Power (ULP) computing, as it prom...
Environmental temperature variations, as well as process variations, have a detrimental effect on pe...
none3noIn this brief, we propose a variation-tolerant architecture for shared-L1 processor clusters ...
With scaling of semiconductor fabrication technologies and the push towards deep sub-micron technolo...
The performance and reliability of Ultra-Low-Power (ULP) computing platforms are adversely affected ...
none4The power density inside high performance systems continues to rise with every process technolo...
Operating an integrated circuit at the prescribed nominal supply voltage is not preferable for relia...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Abstract—We present a new methodology which takes into consideration the effect of within-die (WID) ...
Variation in performance and power across manufactured parts and their operating conditions is a wel...
Abstract—Instance and temperature-dependent power variation has a direct impact on quality of sensin...
iii As feature sizes scale toward atomic limits, parameter variation continues to increase, leading ...
Abstract—Increasing number of cores and clock speeds on a smaller chip area implies more heat dissip...