在单个芯片上跨多个超标量处理器的VLIW

Proceedings 1997 International Conference on Parallel Architectures and Compilation Techniques Pub Date : 1997-11-11 DOI:10.1109/PACT.1997.644013

Soohong P. Kim, R. Hoare, H. Dietz

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引用次数: 2

摘要

集成电路技术的进步提高了集成密度以实现更高的时钟速率，并为微处理器设计提供了更多的机会。利用vliw风格的静态调度技术和标量架构的动态调度技术，提出了一种利用单芯片上多个标量处理器的指令级并行性(ILP)的新范式。在提出的范例中，编译器从顺序程序中利用ILP，这种类似vliw的并行化代码在运行时由双向超标量引擎进一步并行化。超标量处理器通过聚合函数网络连接，该网络可以强制执行必要的静态定时约束，并提供ILP所需的适当的处理器间数据通信机制。聚合函数操作是静态调度的，不仅实现了细粒度的通信和控制，而且还实现了简单的全局计算，类似于网络中的收缩数组操作。

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VLIW across multiple superscalar processors on a single chip

Advances in IC technology increase the integration density for higher clock rates and provide more opportunities for microprocessor design. The authors propose a new paradigm to exploit instruction-level parallelism (ILP) across multiple superscalar processors on a single chip by taking advantages of both VLIW-style static scheduling techniques and dynamic scheduling of superscalar architecture. In the proposed paradigm, ILP is exploited by a compiler from a sequential program and this VLIW-like-parallelized code is further parallelized by 2-way superscalar engines at run-time. Superscalar processors are connected by an aggregate function network, which can enforce the necessary static timing constraints and provide appropriate inter-processor data communication mechanisms that are needed for ILP. The aggregate function operations are statically scheduled and implement not only fine-grain communication and control, but also simple global computations resembling systolic array operations within the network.

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Proceedings 1997 International Conference on Parallel Architectures and Compilation Techniques

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