ILP架构:用硬件换取软件复杂性

Proceedings of 3rd International Conference on Algorithms and Architectures for Parallel Processing Pub Date : 1997-12-10 DOI:10.1109/ICAPP.1997.651486

H. Corporaal

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引用次数: 3

摘要

一些有趣的超标量和VLIW(非常大的指令字)处理器已经上市。这些处理器利用了所谓的指令级并行性(ILP);每个周期执行多个操作。本文分析了ILP处理器，特别是vliw的数据路径复杂度。它表明，当扩展到非常高性能时，它们的复杂性会失控。研究了几种降低这种复杂性的方法。本质上，这些方法以硬件换取软件复杂性，即在编译时尽可能多地执行。这就产生了一种称为传输触发的新体系结构方法。概述了其概念和特点。这个概念的应用带来了许多硬件优势，并引入了几个新的调度优化。

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ILP architectures: trading hardware for software complexity

Several interesting superscalar and VLIW (very large instruction word) processors have hit the market. These processors exploit so-called instruction level parallelism (ILP); each cycle multiple operations are executed. This paper analyzes the data path complexity of ILP processors, in particular of VLIWs. It demonstrates that their complexity gets out of control when scaling to very high performance. Several methods are researched for reducing this complexity. Essentially these methods trade hardware for software complexity, i.e., performing as much as possible at compile time. This results in a new architectural approach called transport triggering. Its concept and characteristics are outlined. The application of this concept results in a number of hardware advantages, and introduces several new scheduling optimizations.

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Proceedings of 3rd International Conference on Algorithms and Architectures for Parallel Processing

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