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A High-Performance Core Micro-Architecture Based on RISC-V ISA for Low Power Applications

Satyajit Bora, Roy Paily

2020IEEE Transactions on Circuits & Systems II Express Briefs37 citationsDOI

Abstract

Design of high-performance processors with very low power requirement is the primary goal of many contemporary and futuristic applications. This brief presents a novel processor micro-architecture which is capable of achieving these requirements. The micro-architecture is based on RISC-V Instruction Set Architecture (ISA). The core is implemented and verified on Xilinx Virtex-7 FPGA board with a resource requirement of 7617 LUTs and 2319 FFs. This core could achieve a Dhrystone benchmark score of 1.71 DMIPS per MHz which is higher than ARM Cortex-M3 (1.50 DMIPS per MHz) and ARM Cortex-M4 (1.52 DMIPS per MHz). The Coremark benchmark is also tested on this core and it gives 4.13 Coremark per MHz. The physical design result of the core using commercial tools shows that it can achieve a maximum frequency of 198.02 MHz with 0.036 mm <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sup> area and 17.36 μW/MHz power requirement at UMC 40 nm technology node. The core consumes a dynamic power of 19.75 μW/MHz at UMC 90nm which is 36% and 40% better than ARM Cortex-M3 and Cortex-M4 respectively and also lower than many others cores. The results show that this core can outperform many existing commercial and open-source cores.

Topics & Concepts

Benchmark (surveying)ARM architectureField-programmable gate arrayComputer scienceCore (optical fiber)Reduced instruction set computingEmbedded systemPower (physics)Instruction setNode (physics)ArchitectureClock rateVirtexMulti-core processorFLOPSComputer architectureComputer hardwareParallel computingEngineeringTelecommunicationsPhysicsGeodesyGeographyStructural engineeringArtChipVisual artsQuantum mechanicsLow-power high-performance VLSI designParallel Computing and Optimization TechniquesEmbedded Systems Design Techniques
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