none3noIn this brief, we propose a variation-tolerant architecture for shared-L1 processor clusters working at near-threshold (NT). Our variation-tolerant technique is able to compensate the effect of delay variations, which are exacerbated by moving to the NT region, on the processor to memory communication by adding one or two stages of controllable pipelines. Moreover, we propose a reconfigurable address-interleaving technique, which enables us to shut down some of the memory blocks if they are either too slow due to the variation or not needed by the application (to reduce power consumption). Experimental results show that our speed adaptation approach is able to compensate up to 90% degradation in the request path with less than 2% har...
As the CMOS technology continues to scale down for higher performance, power dissipation and robustn...
Parallel ultra low power computing is emerging as an enabler to meet the growing performance and ene...
This book presents design techniques, analysis and implementation of high performance and power effi...
A reliable and variation-tolerant architecture for shared-L1 processor clusters is proposed. The arc...
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...
Process and environmental temperature variations have a detrimental effect on performance and reliab...
none4siA key challenge in scaling shared-L1 multi-core clusters towards many-core (more than 16 core...
L1 instruction caches in many-core systems represent a siz-able fraction of the total power consumpt...
open6siThe steeply growing performance demands for highly power- and energy-constrained processing s...
none4Shared L1 memory is an interesting architectural option for building tightly-coupled multi-core...
A shared-L1 cache architecture is proposed for tightly coupled processor clusters. Sharing an L1 tig...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Improving the performance of future computing systems will be based upon the ability of increasing t...
The OpenRISC processor core, featuring a flat pipeline and a low area footprint has been integrated ...
As the CMOS technology continues to scale down for higher performance, power dissipation and robustn...
Parallel ultra low power computing is emerging as an enabler to meet the growing performance and ene...
This book presents design techniques, analysis and implementation of high performance and power effi...
A reliable and variation-tolerant architecture for shared-L1 processor clusters is proposed. The arc...
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...
Process and environmental temperature variations have a detrimental effect on performance and reliab...
none4siA key challenge in scaling shared-L1 multi-core clusters towards many-core (more than 16 core...
L1 instruction caches in many-core systems represent a siz-able fraction of the total power consumpt...
open6siThe steeply growing performance demands for highly power- and energy-constrained processing s...
none4Shared L1 memory is an interesting architectural option for building tightly-coupled multi-core...
A shared-L1 cache architecture is proposed for tightly coupled processor clusters. Sharing an L1 tig...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Improving the performance of future computing systems will be based upon the ability of increasing t...
The OpenRISC processor core, featuring a flat pipeline and a low area footprint has been integrated ...
As the CMOS technology continues to scale down for higher performance, power dissipation and robustn...
Parallel ultra low power computing is emerging as an enabler to meet the growing performance and ene...
This book presents design techniques, analysis and implementation of high performance and power effi...