A data‐driven processor for alleviating bottlenecks of sequential programs and maintaining multiprocessing capability

R. Kurebayashi, S. Ito, Toru Takahashi, H. Tomiyasu, H. Nishikawa
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Abstract

Existing data-driven processors offer the advantages of being able to naturally resolve the problems inherent in a wide variety of granularities of parallelism, and of being able to multiprocess without overhead. However, because an instruction is not issued until the instruction that generates the source operand finishes executing, a delay equal to the number of stages in the pipeline occurs before an instruction that has a data-dependency relationship can be executed. As a result, portions of sequential processing in a program become a bottleneck. The authors are therefore in the process of developing an LSI processor that is able to retain the advantages of conventional data-driven processors while being able to efficiently execute blocks of sequential processing. This paper presents and evaluates the performance of the proposed execution model and pipeline structure of this processor. This processor uses the same pipeline to perform instruction level multiprocessing of data-driven programs that issue instructions based on the data-dependency relationships and control-driven programs that issue instructions sequentially based on a program counter. The effectiveness of parallel processing by data-driven programs, improvements in the efficiency of sequential processing by introducing control-driven programs, and the ability to evenly share the pipeline when data-driven and control-driven programs are multiprocessing are evaluated. © 2007 Wiley Periodicals, Inc. Electron Comm Jpn Pt 3, 90(12): 36–49, 2007; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/ecjc.20358
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一种数据驱动的处理器,用于缓解顺序程序的瓶颈和维持多处理能力
现有的数据驱动处理器的优点是能够自然地解决各种并行性粒度所固有的问题,并且能够在没有开销的情况下进行多进程。但是,由于在生成源操作数的指令完成执行之前不会发出指令,因此在执行具有数据依赖关系的指令之前,会出现与管道中阶段数相等的延迟。结果,程序中顺序处理的部分成为瓶颈。因此,作者正在开发一种能够保留传统数据驱动处理器的优点,同时能够有效地执行顺序处理块的LSI处理器。本文给出并评价了该处理器的执行模型和流水线结构的性能。该处理器使用相同的管道来执行基于数据依赖关系发出指令的数据驱动程序和基于程序计数器顺序发出指令的控制驱动程序的指令级多处理。评估了数据驱动程序并行处理的有效性,引入控制驱动程序提高顺序处理的效率,以及当数据驱动和控制驱动程序进行多处理时均匀共享管道的能力。©2007 Wiley期刊公司电子工程学报,2009,29 (3):393 - 398;在线发表于Wiley InterScience (www.interscience.wiley.com)。DOI 10.1002 / ecjc.20358
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