In this work, we evaluate aggressive undervolting, i.e., voltage scaling below the nominal level to reduce the energy consumption of Field Programmable Gate Arrays (FPGAs). Usually, voltage guardbands are added by chip vendors to ensure the worst-case process and environmental scenarios. Through experimenting on several FPGA architectures, we measure this voltage guardband to be on average 39% of the nominal level, which in turn, delivers more than an order of magnitude power savings. However, further undervolting below the voltage guardband may cause reliability issues as the result of the circuit delay increase, i.e., start to appear faults. We extensively characterize the behavior of these faults in terms of the rate, locatio...
Abstract Chip manufacturers define voltage margins on top of the “best-case” operational voltage of...
Over two decades of research has led to numerous low-power design techniques being reported. Two pop...
State retention power gating and voltage-scaled state retention are two effective design techniques,...
In this work, we evaluate aggressive undervolting, i.e., voltage scaling below the nominal level to ...
The power and energy efficiency of Field Programmable Gate Arrays (FPGAs) are estimated to be up to ...
In this work, we evaluate aggressive undervolting, i.e., voltage underscaling below the nominal leve...
The power consumption of digital circuits, e.g., Field Programmable Gate Arrays (FPGAs), is directly...
We empirically evaluate an undervolting technique, i.e., underscaling the circuit supply voltage bel...
As more Neural Networks on Field Programmable Gate Arrays (FPGAs) are used in a wider context, the i...
©2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Modern computing devices employ High-Bandwidth Memory (HBM) to meet their memory bandwidth requireme...
Deep Neural Networks (DNNs) are inherently computation-intensive and also power-hungry. Hardware acc...
On-chip memory (usually based on Static RAMs-SRAMs) are crucial components for various computing dev...
On-chip memory (usually based on Static RAMs-SRAMs) are crucial components for various computing dev...
As the semiconductor roadmap reaches smaller feature sizes and the end of Dennard Scaling, design go...
Abstract Chip manufacturers define voltage margins on top of the “best-case” operational voltage of...
Over two decades of research has led to numerous low-power design techniques being reported. Two pop...
State retention power gating and voltage-scaled state retention are two effective design techniques,...
In this work, we evaluate aggressive undervolting, i.e., voltage scaling below the nominal level to ...
The power and energy efficiency of Field Programmable Gate Arrays (FPGAs) are estimated to be up to ...
In this work, we evaluate aggressive undervolting, i.e., voltage underscaling below the nominal leve...
The power consumption of digital circuits, e.g., Field Programmable Gate Arrays (FPGAs), is directly...
We empirically evaluate an undervolting technique, i.e., underscaling the circuit supply voltage bel...
As more Neural Networks on Field Programmable Gate Arrays (FPGAs) are used in a wider context, the i...
©2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Modern computing devices employ High-Bandwidth Memory (HBM) to meet their memory bandwidth requireme...
Deep Neural Networks (DNNs) are inherently computation-intensive and also power-hungry. Hardware acc...
On-chip memory (usually based on Static RAMs-SRAMs) are crucial components for various computing dev...
On-chip memory (usually based on Static RAMs-SRAMs) are crucial components for various computing dev...
As the semiconductor roadmap reaches smaller feature sizes and the end of Dennard Scaling, design go...
Abstract Chip manufacturers define voltage margins on top of the “best-case” operational voltage of...
Over two decades of research has led to numerous low-power design techniques being reported. Two pop...
State retention power gating and voltage-scaled state retention are two effective design techniques,...