About: Near-memory acceleration strives to tackle the data-to-task locality issue in MPSoCs in order to obtain higher performance and lower power consumption. However, it is not easy to determine whether the advantages arise from the near-memory integration or the hardware acceleration (versus software execution). We propose X-CEL, a method to accurately estimate the potential of near-memory acceleration using an easy-to-integrate near-memory core. We showcase X-CEL’s benefits with three variants of graph copy mechanisms in a tile-based MPSoC. Evaluations reveal that the estimated speedup is in good accordance with the actual speedup achieved by the near-memory accelerator.   Goto Sponge  NotDistinct  Permalink

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  • Near-memory acceleration strives to tackle the data-to-task locality issue in MPSoCs in order to obtain higher performance and lower power consumption. However, it is not easy to determine whether the advantages arise from the near-memory integration or the hardware acceleration (versus software execution). We propose X-CEL, a method to accurately estimate the potential of near-memory acceleration using an easy-to-integrate near-memory core. We showcase X-CEL’s benefits with three variants of graph copy mechanisms in a tile-based MPSoC. Evaluations reveal that the estimated speedup is in good accordance with the actual speedup achieved by the near-memory accelerator.
subject
  • Artificial intelligence
  • Digital electronics
  • Electric power
  • Central processing unit
  • Computer memory
  • Computer optimization
  • MOSFETs
  • Microprocessors
  • Hardware acceleration
  • Graphics hardware
  • Application-specific integrated circuits
  • System on a chip
  • Analysis of parallel algorithms
  • Electronics and the environment
  • Gate arrays
  • Tile-based video games
  • Video games with tile-based graphics
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