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ASPDAC
2012
ACM
2012
ACM
An integrated and automated memory optimization flow for FPGA behavioral synthesis
Behavioral synthesis tools have made significant progress in compiling high-level programs into register-transfer level (RTL) specifications. But manually rewriting code is still necessary in order to obtain better quality of results in memory system optimization. In recent years different automated memory optimization techniques have been proposed and implemented, such as data reuse and memory partitioning, but the problem of integrating these techniques into an applicable flow to obtain a better performance has become a challenge. In this paper we integrate data reuse, loop pipelining, memory partitioning, and memory merging into an automated optimization flow (AMO) for FPGA behavioral synthesis. We develop memory padding to help in the memory partitioning of indices with modulo operations. Experimental results on Xilinx Virtex-6 FPGAs show that our integrated approach can gain an average 5.8x throughput and 4.55x latency improvement compared to the approach without memory partition...
Real-time TrafficASPDAC 2012 | Behavioral Synthesis | Hardware | Memory Optimization Techniques | Memory Partitioning |
Related Content
| Added | 20 Apr 2012 |
| Updated | 20 Apr 2012 |
| Type | Journal |
| Year | 2012 |
| Where | ASPDAC |
| Authors | Yuxin Wang, Peng Zhang, Xu Cheng, Jason Cong |
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