DySER: Unifying Functionality and Parallelism Specialization for Energy-Efficient Computing
IEEE Micro(2012)
摘要
The DySER (Dynamically Specializing Execution Resources) architecture supports both functionality specialization and parallelism specialization. By dynamically specializing frequently executing regions and applying parallelism mechanisms, DySER provides efficient functionality and parallelism specialization. It outperforms an out-of-order CPU, Streaming SIMD Extensions (SSE) acceleration, and GPU acceleration while consuming less energy. The full-system field-programmable gate array (FPGA) prototype of DySER integrated into OpenSparc demonstrates a practical implementation.
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关键词
energy-efficient computing,efficient functionality,parallelism specialization,unifying functionality,out-of-order cpu,full-system field-programmable gate array,gpu acceleration,functionality specialization,practical implementation,dynamically specializing execution resources,streaming simd extensions,parallelism mechanism,energy efficiency,resource allocation,parallel processing,hardware,computer architecture,data level parallelism,architecture,field programmable gate arrays,prototypes
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