Hardware/Software Co-Simulation for Last Level Cache Exploration

摘要

Larger last level caches are being considered for bridging the performance gap between the processors and the memory subsystem. It requires much longer simulation time to exercise the whole cache and get accurate evaluation results. In this paper, we motivate the need for a trace-driven hardware/software co-simulation approach to solve this problem. We describe the components of the hardware/software co-simulation: (a) a hardware approach for FSB (front side bus) cycle accurate long trace extraction and (b) a software simulation infrastructure to simulate arbitrary length of traces limited only by the storage system. We compare this hardware/software co-simulation approach to previous approaches (software-only and hardware FPGA-cache simulation) and articulate why our proposed approach is more flexible, more repeatable and sufficiently fast for last-level cache exploration. Evaluation results based on our hardware/software co-simulation infrastructure shows that our approach provides accurate results and shows the importance of timing information in accurate trace-driven simulations. We also demonstrate that it is not adequate to use short traces to get accurate results. Instead, the whole trace for the whole lifecycle of the workload, or at least a long trace (~5 minutes) should be used to capture the real behavior of the workloads.