Development of a cycle-accurate simulator of the Elbrus processor core memory subsystem

D. V. Znamenskiy, V. Kutsevol
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引用次数: 1

Abstract

Increasing complexity of modern microprocessors, combined with semiconductor technology progress slowdown, make a further increase in performance more difficult. Under these circumstances, the relevance of the performance estimations of prospective microprocessors by dint of cycle-accurate simulation prior to their production in silicon is of growing importance. The approach to implementation of cycle-accurate simulator of core memory subsystem for Elbrus architecture, controlled by the existing functional simulator of this architecture, is presented herein. The method for validation of a cycleaccurate simulator by comparison with modeling of the RTL description of the prospective microprocessor is considered. The data on the speed of the cycle-accurate simulator and the main optimization methods, which were used to achieve acceptable performance, are presented. The preliminary estimates of the impact on the performance of some changes in the prospective processor core, including the cache access latency and hardware support for virtualization, obtained with the help of the cycle-accurate simulator are given. These assessments are important for making architectural decisions when designing the prospective Elbrus architecture processors.
Elbrus处理器核心存储子系统周期精确模拟器的研制
现代微处理器的复杂性日益增加,加上半导体技术进步的放缓,使得进一步提高性能变得更加困难。在这种情况下,通过在硅中生产之前进行周期精确模拟来评估未来微处理器的性能的相关性变得越来越重要。提出了利用Elbrus体系结构现有的功能模拟器控制核心存储器子系统周期精确模拟器的实现方法。通过与未来微处理器的RTL描述模型的比较,考虑了周期精确模拟器的验证方法。给出了周期精确模拟器的速度数据和主要优化方法,使其达到可接受的性能。在周期精确模拟器的帮助下,初步估计了未来处理器核心的一些变化对性能的影响,包括缓存访问延迟和硬件对虚拟化的支持。在设计未来的Elbrus体系结构处理器时,这些评估对于做出体系结构决策非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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