Near Threshold Voltage (NTV) computing has been recently proposed as a technique to save energy, at the cost of incurring higher error rates including, among others, Silent Data Corruption (SDC). In this paper, we evaluate the energy efficiency of dense linear algebra routines using several low-power multicore processors and we analyze whether the potential energy reduction achieved when scaling the processor to operate at a low voltage compensates the cost of integrating a fault tolerance mechanism that tackles SDC. Our study targets algorithmic-based fault-tolerant versions of the dense matrix-vector and matrix(-matrix) multiplication kernels (gemv and gemm, respectively), using the BLIS framework, as well as an implementation of the LU f...
International audienceWhen designing electronic systems, a standard technique to reduce the energy c...
Achieving high-performance while reducing power consumption is the key question as tech-nology scali...
We analyze power dissipation and energy consumption during the execution of high-performance dense ...
Near Threshold Voltage (NTV) computing has been recently proposed as a technique to save energy, at ...
[EN] Near Threshold Voltage (NTV) computing has been recently proposed as a technique to save energy...
In this paper we conduct a detailed analysis of the sources of power dissipation and energy consumpt...
As the exascale supercomputers are expected to embark around 2020, supercomputers nowadays expand ra...
This paper addresses the efficient exploitation of task-level parallelism, present in many dense lin...
The end of Dennard scaling has promoted low power consumption into a first-order concern for computi...
In this paper, we propose a model for the energy consumption of the concurrent execution of three ke...
This paper analyzes the impact on power consumption of two DVFS-control strategies when applied to t...
Sparse and irregular computations constitute a large fraction of applications in the data-intensive ...
The power wall asks for a holistic effort from the high performance and scientific communities to de...
Technology scaling trends have enabled the exponential growth of computing power. However, the perfo...
As the semiconductor roadmap reaches smaller feature sizes and the end of Dennard Scaling, design go...
International audienceWhen designing electronic systems, a standard technique to reduce the energy c...
Achieving high-performance while reducing power consumption is the key question as tech-nology scali...
We analyze power dissipation and energy consumption during the execution of high-performance dense ...
Near Threshold Voltage (NTV) computing has been recently proposed as a technique to save energy, at ...
[EN] Near Threshold Voltage (NTV) computing has been recently proposed as a technique to save energy...
In this paper we conduct a detailed analysis of the sources of power dissipation and energy consumpt...
As the exascale supercomputers are expected to embark around 2020, supercomputers nowadays expand ra...
This paper addresses the efficient exploitation of task-level parallelism, present in many dense lin...
The end of Dennard scaling has promoted low power consumption into a first-order concern for computi...
In this paper, we propose a model for the energy consumption of the concurrent execution of three ke...
This paper analyzes the impact on power consumption of two DVFS-control strategies when applied to t...
Sparse and irregular computations constitute a large fraction of applications in the data-intensive ...
The power wall asks for a holistic effort from the high performance and scientific communities to de...
Technology scaling trends have enabled the exponential growth of computing power. However, the perfo...
As the semiconductor roadmap reaches smaller feature sizes and the end of Dennard Scaling, design go...
International audienceWhen designing electronic systems, a standard technique to reduce the energy c...
Achieving high-performance while reducing power consumption is the key question as tech-nology scali...
We analyze power dissipation and energy consumption during the execution of high-performance dense ...