APMC: advanced pattern based memory controller (abstract only)

Abstract

In this paper, we present APMC, the Advanced Pattern based Memory Controller, that uses descriptors to support both regular and irregular memory access patterns without using a master core. It keeps pattern descriptors in memory and prefetches the complex 1D/2D/3D data structure into its special scratchpad memory. Support for irregular Memory accesses are arranged in the pattern descriptors at program-time and APMC manages multiple patterns at run-time to reduce access latency. The proposed APMC system reduces the limitations faced by processors/accelerators due to irregular memory access patterns and low memory bandwidth. It gathers multiple memory read/write requests and maximizes the reuse of opened SDRAM banks to decrease the overhead of opening and closing rows. APMC manages data movement between main memory and the specialized scratchpad memory; data present in the specialized scratchpad is reused and/or updated when accessed by several patterns. The system is implemented and tested on a Xilinx ML505 FPGA board. The performance of the system is compared with a processor with a high performance memory controller. The results show that the APMC system transfers regular and irregular datasets up to 20.4x and 3.4x faster respectively than the baseline system. When compared to the baseline system, APMC consumes 17% less hardware resources, 32% less on-chip power and achieves between 3.5x to 52x and 1.4x to 2.9x of speedup for regular and irregular applications respectively. The APMC core consumes 50% less hardware resources than the baseline system's memory controller. In this paper, we present APMC, the Advanced Pattern based Memory Controller, an intelligent memory controller that uses descriptors to supports both regular and irregular memory access patterns. support of the master core. It keeps pattern descriptors in memory and prefetches the complex data structure into its special scratchpad memory. Memory accesses are arranged in the pattern descriptors at program-time and APMC manages multiple patterns at run-time to reduce access latency. The proposed APMC system reduces the limitations faced by processors/accelerators due to irregular memory access patterns and low memory bandwidth. The system is implemented and tested on a Xilinx ML505 FPGA board. The performance of the system is compared with a processor with a high performance memory controller. The results show that the APMC system transfers regular and irregular datasets up to 20.4x and 3.4x faster respectively than the baseline system. When compared to the baseline system, APMC consumes 17% less hardware resources, 32% less on-chip power and achieves between 3.5x to 52x and 1.4x to 2.9x of speedup for regular and irregular applications respectively. The APMC core consumes 50% less hardware resources than the baseline system's memory controller.memory accesses. In this paper, we present APMC, the Advanced Pattern based Memory Controller, an intelligent memory controller that supports both regular and irregular memory access patterns. The proposed APMC system reduces the limitations faced by processors/accelerators due to irregular memory access patterns and low memory bandwidth. The system is implemented and tested on a Xilinx ML505 FPGA board. The performance of the system is compared with a processor with a high performance memory controller. The results show that the APMC system transfers regular and irregular datasets up to 20.4x and 3.4x faster respectively than the baseline system. When compared to the baseline system, APMC consumes 17% less hardware resources, 32% less on-chip power and achieves between 3.5x to 52x and 1.4x to 2.9x of speedup for regular and irregular applications respectively.