A case study on modeling shared memory access effects during performance analysis of HW/SW systems

Abstract

Behavioral simulation with timing annotations derived from performance modeling and analysis is a promising alternative for use in evaluating system-level design trade-offs. The accuracy of such approaches is determined by how well the effects of various HW and SW architectural features, like the Real Time Operating System (RTOS), shared memories and buses, HW/SW communication mechanisms, etc are modeled at this level. We present a study of the effects of shared memory buses during system-level performance analysis in the POLIS co-design environment using the example of a TCP/IP Network Interface System. We demonstrate how the effects of the memory arbiter and shared memory bus can be modeled efficiently at the behavioral level, and used to evaluate various design tradeoffs. Experimental results demonstrate that modeling these effects can significantly increase the accuracy of system-level performance estimates.