R-GPU: A reconfigurable GPU architecture

G.J. van den Braak, H. Corporaal

Research output: Contribution to journalArticleAcademicpeer-review

3 Citations (Scopus)

Abstract

Over the last decade, Graphics Processing Unit (GPU) architectures have evolved from a fixed-function graphics pipeline to a programmable, energy-efficient compute accelerator for massively parallel applications. The compute power arises from the GPU's Single Instruction/Multiple Threads architecture: concurrently running many threads and executing them as Single Instruction/Multiple Data-style vectors. However, compute power is still lost due to cycles spent on data movement and control instructions instead of data computations. Even more cycles are lost on pipeline stalls resulting from long latency (memory) operations. To improve not only performance but also energy efficiency, we introduce R-GPU: a reconfigurable GPU architecture with communicating cores. R-GPU is an addition to a GPU, which can still be used as such, but also has the ability to reorganize the cores of a GPU in a reconfigurable network. In R-GPU data movement and control is implicit in the configuration of the network. Each core executes a fixed instruction, reducing instruction decode count and increasing energy efficiency. On a number of benchmarks we show an average performance improvement of 2.1× over the same GPU without modifications.We further make a conservative power estimation of R-GPU which shows that power consumption can be reduced by 6%, leading to an energy consumption reduction of 55%, while area only increases by a mere 4%.

Original languageEnglish
Article number12
Number of pages24
JournalACM Transactions on Architecture and Code Optimization
Volume13
Issue number1
DOIs
Publication statusPublished - 1 Mar 2016

Keywords

  • Design
  • GPGPU
  • Performance
  • Reconfigurable architecture

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