快速性能模型:fpga的紧密耦合分区仿真

Michael Pellauer, M. Vijayaraghavan, Michael Adler, Arvind, J. Emer
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引用次数: 42

摘要

本文探讨了在fpga上实现的微处理器性能模型。虽然fpga可以帮助提高仿真速度,但增加的实现复杂性会降低模型开发时间。我们评估了将模拟器分为紧密耦合的计时和功能分区是否可以通过简化计时模型的开发来解决这个问题,同时保留细粒度的并行性。给出了模拟器分区的语义,并讨论了其在FPGA上的实现架构。我们描述了截然不同的目标处理器的三种定时模型如何使用相同的功能分区,并评估了它们的性能。
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Quick Performance Models Quickly: Closely-Coupled Partitioned Simulation on FPGAs
In this paper we explore microprocessor performance models implemented on FPGAs. While FPGAs can help with simulation speed, the increased implementation complexity can degrade model development time. We assess whether a simulator split into closely-coupled timing and functional partitions can address this by easing the development of timing models while retaining fine-grained parallelism. We give the semantics of our simulator partitioning, and discuss the architecture of its implementation on an FPGA. We describe how three timing models of vastly different target processors can use the same functional partition, and assess their performance.
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