DISVLIW体系结构的编译器处理器权衡

Proceedings International Symposium on Parallel Architectures, Algorithms and Networks. I-SPAN'02 Pub Date : 2002-08-07 DOI:10.1109/ISPAN.2002.1004282

Sunghyun Jee, K. Palaniappan

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引用次数: 3

摘要

动态指令调度的VLIW (DISVLIW)处理器体系结构设计用于在编译器和处理器之间更均匀地平衡调度工作。增强了DISVLIW指令格式，允许将依赖位向量放在同一个VLIW字中。在长指令中的每个指令格式中添加依赖位向量，以实现前后指令之间的同步。DISVLIW处理器使用功能单元和动态调度程序对动态调度长指令中的每条指令。每个动态调度器在调度每条指令时动态检查数据依赖关系和资源冲突。显式并行性、平衡调度工作和动态调度等特性可用于为超级计算提供可靠的基础设施。我们模拟了DISVLIW架构，并表明在各种缓存大小和数值基准应用程序中，DISVLIW处理器的性能明显优于VLIW处理器。

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Compiler processor tradeoffs for DISVLIW architecture

The dynamically instruction-scheduled VLIW (DISVLIW) processor architecture is designed for balancing scheduling effort more evenly between the compiler and the processor. The DISVLIW instruction format is augmented to allow dependency bit vectors to be placed in the same VLIW word. Dependency bit vectors are added to each instruction format within long instructions to enable synchronization between prior and subsequent instructions. The DISVLIW processor dynamically schedules each instruction in long instructions using functional unit and dynamic scheduler pairs. Each dynamic scheduler dynamically checks for data dependencies and resource collisions while scheduling each instruction. Features such as explicit parallelism, balanced scheduling effort and dynamic scheduling can be used to provide a sound infrastructure for supercomputing. We simulate the DISVLIW architecture and show that the DISVLIW processor performs significantly better than the VLIW processor for a wide range of cache sizes and across numerical benchmark applications.

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Proceedings International Symposium on Parallel Architectures, Algorithms and Networks. I-SPAN'02

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