International audienceWe propose a software-based approach using dynamic voltage overscaling to reduce the energy consumption of HPC applications. This technique aggressively lowers the supply voltage below nominal voltage, which introduces timing errors , and we use Algorithm-Based Fault-Tolerance (ABFT) to provide fault tolerance for matrix operations. We introduce a formal model, and we design optimal polynomial-time solutions, to execute a linear chain of tasks. Evaluation results obtained for matrix multiplication demonstrate that our approach indeed leads to significant energy savings, compared to the standard algorithm that always operates at nominal voltage
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
©2001 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
International audienceWe propose a software-based approach using dynamic voltage overscaling to redu...
International audienceIn this paper, we discuss several scheduling algorithms to execute independent...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Low-power consumption has become an important aspect of processors and systems design. Many techniqu...
Dynamic voltage scaling (DVS) technique is primarily used in digital design to enhance the energy ef...
In this paper, we discuss several scheduling algorithms to execute independent taskswith voltage ove...
Dynamic voltage scaling (DVS) technique is primarily used in digital design to enhance the energy ef...
Abstract In this brief an approach is proposed to achieve energy savings from reduced voltage opera...
Scaling of semiconductor devices has enabled higher levels of integration and performance improvemen...
In recent years, circuit reliability in modern high-performance processors has become increasingly i...
The emphasis on processors that are both low power and high performance has resulted in the incorpor...
Modern digital IC designs have a critical operating point, or ???wall of slack???, that limits volta...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
©2001 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
International audienceWe propose a software-based approach using dynamic voltage overscaling to redu...
International audienceIn this paper, we discuss several scheduling algorithms to execute independent...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Low-power consumption has become an important aspect of processors and systems design. Many techniqu...
Dynamic voltage scaling (DVS) technique is primarily used in digital design to enhance the energy ef...
In this paper, we discuss several scheduling algorithms to execute independent taskswith voltage ove...
Dynamic voltage scaling (DVS) technique is primarily used in digital design to enhance the energy ef...
Abstract In this brief an approach is proposed to achieve energy savings from reduced voltage opera...
Scaling of semiconductor devices has enabled higher levels of integration and performance improvemen...
In recent years, circuit reliability in modern high-performance processors has become increasingly i...
The emphasis on processors that are both low power and high performance has resulted in the incorpor...
Modern digital IC designs have a critical operating point, or ???wall of slack???, that limits volta...
International audienceModern high performance computing subsystems (HPC) - including processor, netw...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
©2001 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...