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Accelerating Large-Scale Graph Analytics with FPGA and HMC.

, , , и . FCCM, стр. 82. IEEE Computer Society, (2017)

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Laurence Maxwell

Hugh Maxwell

Maxwell Kusi-Mensah

Maxwell Ralph Jacobs

William Cary Maxwell

 

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Unified Buffer: Compiling Image Processing and Machine Learning Applications to Push-Memory Accelerators., , , , , , , и . ACM Trans. Archit. Code Optim., 20 (2): 26:1-26:26 (июня 2023)The Sparse Abstract Machine., , , , , , , и . CoRR, (2022)A-QED Verification of Hardware Accelerators., , , , , , , , , и 3 other автор(ы). DAC, стр. 1-6. IEEE, (2020)Compiling Halide Programs to Push-Memory Accelerators., , , , , , , , , и 1 other автор(ы). CoRR, (2021)Amber: A 367 GOPS, 538 GOPS/W 16nm SoC with a Coarse-Grained Reconfigurable Array for Flexible Acceleration of Dense Linear Algebra., , , , , , , , , и 13 other автор(ы). VLSI Technology and Circuits, стр. 70-71. IEEE, (2022)Accelerating Graph Analytics by Co-Optimizing Storage and Access on an FPGA-HMC Platform., , , и . FPGA, стр. 239-248. ACM, (2018)Amber: A 16-nm System-on-Chip With a Coarse- Grained Reconfigurable Array for Flexible Acceleration of Dense Linear Algebra., , , , , , , , , и 12 other автор(ы). IEEE J. Solid State Circuits, 59 (3): 947-959 (марта 2024)Automating System Configuration., , , , , , и . FMCAD, стр. 102-111. IEEE, (2021)Amber: Coarse-Grained Reconfigurable Array-Based SoC for Dense Linear Algebra Acceleration., , , , , , , , , и 13 other автор(ы). HCS, стр. 1-30. IEEE, (2022)Accelerating Large-Scale Graph Analytics with FPGA and HMC., , , и . FCCM, стр. 82. IEEE Computer Society, (2017)