Abstract
Random Access Memory (RAM) is a common resources needed by networking hardware modules. Synchronous Dynamic RAM (SDRAM) provides a cost effective solution for such data storage. As the packet processing speeds in the hardware increase memory throughput can be a bottleneck to achieve overall high performance. Typically there are multiple hardware modules which perform different operations on the packet payload and hence all try to access the common packet buffer simultaneously. This gives rise to a need for a memory controller which arbitrates between the memory requests made by different modules and maximizes the memory throughput. This paper discusses the design and implementation of a SDRAM controller which satisfies both the requirements. The memory throughput depends on the burst lengths, the address pattern of the memory accesses and the type of memory access (read/write). Given the information about the current SDRAM access and the pending SDRAM access requests, the controller finds the memory access request among the pending requests which utilizes the data bus most efficiently and increases the throughput. This leads to the... Read complete abstract on page 2.
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