SSR: A Stall Scheme Reducing Bubbles in Load-Use Hazard of RISC-V Pipeline

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Abstract

Modern processors usually adopt pipeline structure and often load data from memory. At that point, the load-use hazard will inevitably occur, which usually stall the pipeline and reduce performance. This paper introduces and compares two schemes to solve load-use hazard. One is the traditional scheme that detect hazard between ID stage and EXE stage, which stalls the pipeline and insert bubbles between the two instructions. In the scheme we proposed, we add a simple bypass unit between EXE and MEM stage that disables the stall of load-use hazard caused by the traditional scheme, which can reduce the bubble between the two instructions. It’s quite a considerable benefit in eliminating bubbles especially in the long pipeline or programs of plenty load instructions. The scheme was implemented in the open source RISC-V SoC generator Rocket-chip and synthesized in SMIC 130-nm technology. The results show that the performance of the latter scheme is increased by 6.9% in the Dhrystone benchmark with the reasonable cost of area and power.

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APA

Su, D., Li, Y., & Yuan, B. (2020). SSR: A Stall Scheme Reducing Bubbles in Load-Use Hazard of RISC-V Pipeline. In Advances in Intelligent Systems and Computing (Vol. 1151 AISC, pp. 559–565). Springer. https://doi.org/10.1007/978-3-030-44041-1_50

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