2015
DOI: 10.1109/mm.2015.71
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Achieving Exascale Capabilities through Heterogeneous Computing

Abstract: have demanded increasingly powerful computer systems. High-performance computing (HPC) has steadily pushed supercomputers to greater computational capabilities, with petascale computing (10 15 floating-point operations per second [flops]) first being achieved in 2008. 1 The current fastest supercomputer is capable of 33.86 petaflops (see www.top500 .org). These HPC systems perform massive computations to drive important scientific experiments leading to impactful discoveries, from designing more efficient fuel… Show more

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Cited by 72 publications
(23 citation statements)
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“…Another observation that can be made from the last editions of Top500 is that the cores are mostly supplied in low-energy computing resources (GPU, MIC, etc.). Therefore, dealing with scalability implicitly induces the heterogeneity issue [43]. According to Chapel's official documentation, the Xeon Phi accelerator is supported.…”
Section: Road Towards Exascalementioning
confidence: 99%
“…Another observation that can be made from the last editions of Top500 is that the cores are mostly supplied in low-energy computing resources (GPU, MIC, etc.). Therefore, dealing with scalability implicitly induces the heterogeneity issue [43]. According to Chapel's official documentation, the Xeon Phi accelerator is supported.…”
Section: Road Towards Exascalementioning
confidence: 99%
“…Mittal and Vetter [129] performed an extensive survey on CPU-GPU heterogeneous computing and conclude that a collaboration between CPU and GPU is inevitable to achieve the exascale goals. To achieve exascale performance, AMD [160] envisions a heterogeneous processor (accelerated processing unit, APU) that integrates both CPUs and GPUs on the same chip. They consider such a design to be ideal for HPC since it combines the high throughput and energy-efficiency of GPUs with the fast serial processing of CPUs.…”
Section: Computer Architecturementioning
confidence: 99%
“…This capability is only made possible by having an architecture that can reasonably incorporate a wide variety of storage device technologies to meet various performance and capacity objectives at reasonable costs, as there is clearly no single storage device type that works optimally for all workloads. Further, most workloads require a variety of storage types to deliver good performance at an acceptable cost [8]. Indeed, this requirement is well recognized by the European as well as the International community.…”
Section: Exascale Challenges For Storage Systemsmentioning
confidence: 99%