基于FPGA的32位RISC内核DLX架构功耗优化实现

2015 International Conference on Computing Communication Control and Automation Pub Date : 2015-02-26 DOI:10.1109/ICCUBEA.2015.191

S. Murthy, U. Verma

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引用次数: 9

摘要

本工作的目的是设计并降低低功耗32位RISC内核处理器的功耗。该设计基于5阶段流水线DLX架构。本文提出了一种低功耗RISC处理器的设计方案。在RISC内核中具有流水线控制的DLX架构由读取、解码、执行、流水线控制和内存组成。功率的降低是通过HDL修饰技术实现的。泄漏功率，即静态功率，也就是处理器中的静态功率，是无法降低的。在RISC内核的执行块中修改算法可以降低处理器的功耗。13.33%是普通处理器与低功耗版本处理器之间的总功耗降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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FPGA Based Implementation of Power Optimization of 32 Bit RISC Core Using DLX Architecture

The aim of the work is to design and reduce the power consumption of low power 32 bits RISC core processor. The design is based on 5-stage pipelined DLX architecture. This paper proposes the design for the low power RISC processor. The DLX architecture with pipelined control in a RISC core consists of Fetch, Decode, Execute, Pipeline Control and Memory. The reduction in the power is achieved using HDL modification technique. Leakage power i.e Quiescent power which is also a static power in the processor cannot be reduced. Algorithm modification in the execute block of the RISC core will reduce the power consumed by the processor. 13.33% is the total power reduction between a normal processor and the low power version of the processor.

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2015 International Conference on Computing Communication Control and Automation

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