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In this article, we propose TAPA, an end-to-end framework that compiles a C++ task-parallel dataflow program into a high-frequency FPGA accelerator. Compared to existing solutions, TAPA has two major advantages. First, TAPA provides a set of convenient APIs that allows users to easily express flexible and complex inter-task communication structures. Second, TAPA adopts a coarse-grained floorplanning step during HLS compilation for accurate pipelining of potential critical paths. In addition, TAPA implements several optimization techniques specifically tailored for modern HBM-based FPGAs. In our experiments with a total of 43 designs, we improve the average frequency from 147 MHz to 297 MHz (a 102% improvement) with no loss of throughput and a negligible change in resource utilization. Notably, in 16 experiments, we make the originally unroutable designs achieve 274 MHz, on average. The framework is available athttps://github.com/UCLA-VAST/tapaand the core floorplan module is available athttps://github.com/UCLA-VAST/AutoBridge
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Lo, Michael; Choi, Young-kyu; Qiao, Weikang; Chang, Mau-Chung Frank; Cong, Jason (, ACM)
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Choi, Young-kyu; Chi, Yuze; Qiao, Weikang; Samardzic, Nikola; Cong, Jason (, Proceedings of the 2021 ACM/SIGDA International Symposium on Field Programmable Gate Arrays (FPGA ’21))null (Ed.)
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Guo, Licheng; Chi, Yuze; Wang, Jie; Lau, Jason; Qiao, Weikang; Ustun, Ecenur; Zhang, Zhiru; Cong, Jason (, Proceedings of the 2021 ACM/SIGDA International Symposium on Field Programmable Gate Arrays (FPGA ’21), Best Paper Award)null (Ed.)
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Samardzic, Nikola; Qiao, Weikang; Aggarwal, Vaibhav; Chang, Mau-Chung Frank; Cong, Jason (, Proceedings of the 47th International Symposium on Computer Architecture (ISCA 2020))
