Graphic processing units (GPUs) have become a basic accelerator both in high-performance nodes and low-power system-on-chip (SoC). They provide massive data parallelism and very high performance per watt. However, their reliability in harsh environments is an important issue to take into account, especially for safety-critical applications. In this article, we evaluate the influence of the parallelization strategy on the reliability of lower–upper (LU) decomposition on a GPU-accelerated SoC under proton irradiation. Specifically, we compare a memory bound and a compute bound implementation of the decomposition on a K20A GPU embedded on a Tegra K1 (TK1) SoC. We leverage the GPU and CPU clock frequencies both to highlight the radiation sensit...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environments such as s...
Abstract—Soft Error Resiliency is a major concern for Pet-ascale high performance computing (HPC) sy...
Space applications using SRAM-based FPGA devices demand an accurate evaluation of high-energy radiat...
Thanks to the capability of efficiently executing massive computations in parallel, General Purpose ...
In this paper, we evaluate the error criticality of radiation-induced errors on modern High-Performa...
The high processing power of GPUs makes them attractive for safety-critical applications, where tran...
Abstract–Graphics Processing Units specifically designed for High Performance Computing applications...
GPGPUs are used increasingly in several domains, from gaming to different kinds of compu...
This paper analyzes the suitability of single-instruction multiple data (SIMD) extensions of current...
The interest of the space industry in Real-Time Operating Systems for achieving stringent real-time...
In this paper we characterise two embedded GPU devices from the NVIDIA Xavier family System-on-Chip ...
The radiation in harsh environments affects electronic systems, inducing permanent and temporary err...
The fast-growing demand for computational capacity has led to the emergence of large-scale systems w...
Abstract—Due to many factors such as, high transistor density, high frequency, and low voltage, toda...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environ-ments such as ...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environments such as s...
Abstract—Soft Error Resiliency is a major concern for Pet-ascale high performance computing (HPC) sy...
Space applications using SRAM-based FPGA devices demand an accurate evaluation of high-energy radiat...
Thanks to the capability of efficiently executing massive computations in parallel, General Purpose ...
In this paper, we evaluate the error criticality of radiation-induced errors on modern High-Performa...
The high processing power of GPUs makes them attractive for safety-critical applications, where tran...
Abstract–Graphics Processing Units specifically designed for High Performance Computing applications...
GPGPUs are used increasingly in several domains, from gaming to different kinds of compu...
This paper analyzes the suitability of single-instruction multiple data (SIMD) extensions of current...
The interest of the space industry in Real-Time Operating Systems for achieving stringent real-time...
In this paper we characterise two embedded GPU devices from the NVIDIA Xavier family System-on-Chip ...
The radiation in harsh environments affects electronic systems, inducing permanent and temporary err...
The fast-growing demand for computational capacity has led to the emergence of large-scale systems w...
Abstract—Due to many factors such as, high transistor density, high frequency, and low voltage, toda...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environ-ments such as ...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environments such as s...
Abstract—Soft Error Resiliency is a major concern for Pet-ascale high performance computing (HPC) sy...
Space applications using SRAM-based FPGA devices demand an accurate evaluation of high-energy radiat...