Performance evaluation and optimization of dual-port SDRAM architecture for mobile embedded systems

Recently dual-port SDRAM (DPSDRAM) architecture tailored for dual-processor based mobile embedded systems has been announced where a single memory chip plays the role of the local memories and the shared memory for both processors. In order to keep memory consistency from simultaneous accesses of both ports, every access to the shared memory should be protected by a synchronization mechanism, which can result in substantial access latency. We propose two optimization techniques by exploiting the communication patterns of target application: lock-priority scheme and static-copy scheme. Further, by dividing the shared bank into multiple blocks, we enable simultaneous accesses to different blocks and achieve considerable performance gain. Experiments on a virtual prototyping system show a promising result that we achieve about 20-50% performance gain compared to the base DPSDRAM architecture.

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