Paolo Rech scite author profile

Graphics Processing Units (GPUs) offer high computational power but require high scheduling strain to manage parallel processes, which increases the GPU cross section. The results of extensive neutron radiation experiments performed on NVIDIA GPUs confirm this hypothesis. Reducing the application Degree Of Parallelism (DOP) reduces the scheduling strain but also modifies the GPU parallelism management, including memory latency, thread registers number, and the processors occupancy, which influence the sensitivity of the parallel application. An analysis on the overall GPU radiation sensitivity dependence on the code DOP is provided and the most reliable configuration is experimentally detected. Finally, modifying the parallel management affects the GPU cross section but also the code execution time and, thus, the exposure to radiation required to complete computation. The Mean Workload and Executions Between Failures metrics are introduced to evaluate the workload or the number of executions computed correctly by the GPU on a realistic application.

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Understanding GPU errors on large-scale HPC systems and the implications for system design and operation

Tiwari

Gupta

Rogers

et al. 2015

130

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Paolo Rech

Analyzing and Increasing the Reliability of Convolutional Neural Networks on GPUs

Evaluation and Mitigation of Radiation-Induced Soft Errors in Graphics Processing Units

Selective Hardening for Neural Networks in FPGAs

Impact of GPUs Parallelism Management on Safety-Critical and HPC Applications Reliability

Understanding GPU errors on large-scale HPC systems and the implications for system design and operation

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