Profiling of lossless-compression algorithms for a novel biomedical-implant architecture

C. Strydis, G. Gaydadjiev
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引用次数: 10

Abstract

In view of a booming market for microelectronic implants, our ongoing research work is focusing on the specification and design of a novel biomedical microprocessor core targeting a large subset of existing and future biomedical applications. Towards this end, we have taken steps in identifying various tasks commonly required by such applications and profiling their behavior and requirements. A prominent family of such tasks is lossless data compression. In this work we profile a large collection of compression algorithms on suitably selected biomedical workloads. Compression ratio, average and peak power consumption, total energy budget, compression rate and program-code size metrics have been evaluated. Findings indicate the best-performing algorithms across most metrics to be mlzo (scores high in 5 out of 6 imposed metrics) and fin (present in 4 out of 6 metrics). Further mlzo profiling reveals the dominance of i) address-generation, load, branch and compare instructions, and ii) interdependent logical-logical and logical-compare instructions combinations.
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一种新型生物医学植入体结构的无损压缩算法分析
鉴于微电子植入物市场的蓬勃发展,我们正在进行的研究工作集中在规范和设计一种新型生物医学微处理器核心,目标是现有和未来生物医学应用的一个大子集。为了达到这个目的,我们已经采取步骤来识别这些应用程序通常需要的各种任务,并分析它们的行为和需求。这类任务的一个突出的家族是无损数据压缩。在这项工作中,我们在适当选择的生物医学工作负载上分析了大量压缩算法。压缩比,平均和峰值功耗,总能源预算,压缩率和程序代码大小指标进行了评估。研究结果表明,在大多数指标中表现最好的算法是mlzo(在6个强制指标中有5个得分高)和fin(在6个指标中有4个得分高)。进一步的mlzo分析揭示了i)地址生成、加载、分支和比较指令的主导地位,以及ii)相互依赖的逻辑-逻辑和逻辑-比较指令组合。
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