Near-threshold operation has emerged as a competitive approach for energy-efficient architecture design. In particular, a combina-tion of near-threshold circuit techniques and parallel SIMD compu-tations achieves excellent energy efficiency for easy-to-parallelize applications. However, near-threshold operations suffer from delay variations due to increased process variability. This is exacerbated in wide SIMD architectures where the number of critical paths are multiplied by the SIMD width. This paper provides a systematic in-depth study of delay variations in near-threshold operations and shows that simple techniques such as structural duplication and supply voltage/frequency margining are sufficient to mitigate the timing variation probl...
This tutorial paper surveys the past 20 years of near/sub-threshold digital integrated circuit desig...
Power consumption and delivery have emerged as one of the major challenges facing modern SoC design....
Standard low power design utilizes a variety of approaches for supply and threshold control to reduc...
Abstract—Near threshold computing has recently gained signifi-cant interest due to its potential to ...
The power-wall problem and its dual utilization- wall problem are considered among the main barriers...
This book explores near-threshold computing (NTC), a design-space using techniques to run digital ch...
Abstract—Near-Threshold Computing (NTC) shows poten-tial to provide significant energy efficiency im...
This paper presents an ultra low power programmable proces-sor architecture for wireless devices tha...
This book explores near-threshold computing (NTC), a design-space using techniques to run digital ch...
Near-Threshold Voltage Computing (NTC), where the supply voltage is only slightly higher than the tr...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
The inherent capability of wide-SIMD architectures to exploit data level parallelism enables a high ...
This tutorial paper surveys the past 20 years of near/sub-threshold digital integrated circuit desig...
Power consumption and delivery have emerged as one of the major challenges facing modern SoC design....
Standard low power design utilizes a variety of approaches for supply and threshold control to reduc...
Abstract—Near threshold computing has recently gained signifi-cant interest due to its potential to ...
The power-wall problem and its dual utilization- wall problem are considered among the main barriers...
This book explores near-threshold computing (NTC), a design-space using techniques to run digital ch...
Abstract—Near-Threshold Computing (NTC) shows poten-tial to provide significant energy efficiency im...
This paper presents an ultra low power programmable proces-sor architecture for wireless devices tha...
This book explores near-threshold computing (NTC), a design-space using techniques to run digital ch...
Near-Threshold Voltage Computing (NTC), where the supply voltage is only slightly higher than the tr...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
The inherent capability of wide-SIMD architectures to exploit data level parallelism enables a high ...
This tutorial paper surveys the past 20 years of near/sub-threshold digital integrated circuit desig...
Power consumption and delivery have emerged as one of the major challenges facing modern SoC design....
Standard low power design utilizes a variety of approaches for supply and threshold control to reduc...