VLIW ASIP数据路径的延迟下界

M. Jacome, G. Veciana
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引用次数: 9

摘要

对数据流图延迟的传统下限估计假定没有数据传输延迟。虽然这种方法可以为具有集中式寄存器文件的数据路径生成严格的下界,但是对于具有分布式寄存器文件结构的数据路径(这是VLIW asip(非常大的指令字特定于应用程序的指令集处理器)的特征),结果可能没有提供信息。在本文中,我们提出了一个延迟边界来解释这种数据传输延迟。我们的方法的新颖之处在于构建了“窗口依赖图”和与捕获由于操作序列化和/或数据在分布式寄存器文件之间移动而导致的延迟惩罚问题相关的边界。通过一组基准示例,我们表明该界与最先进的方法具有竞争力。此外,我们的实验表明,该方法可以帮助迭代改进算法确定良好的功能单元分配,这是VLIW api代码生成的关键步骤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lower bound on latency for VLIW ASIP datapaths
Traditional lower bound estimates on latency for dataflow graphs assume no data transfer delays. While such approaches can generate tight lower bounds for datapaths with a centralized register file, the results may be uninformative for datapaths with distributed register file structures that are characteristic of VLIW ASIPs (very large instruction word application-specific instruction set processors). In this paper, we propose a latency bound that accounts for such data transfer delays. The novelty of our approach lies in constructing the "window dependency graph" and bounds associated with the problem which capture delay penalties due to operation serialization and/or data moves among distributed register files. Through a set of benchmark examples, we show that the bound is competitive with state-of-the-art approaches. Moreover, our experiments show that the approach can aid an iterative improvement algorithm in determining good functional unit assignments-a key step in code generation for VLIW ASIPs.
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