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Hardware acceleration of de novo genome assembly.

, , , и . Int. J. Embed. Syst., 9 (1): 74-89 (2017)

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Sharat Chikkerur

Nitin Varma

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Sudhir Varma

 

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High-throughput cellular imaging with high-speed asymmetric-detection time-stretch optical microscopy under FPGA platform., , , , , , , , и . ReConFig, стр. 1-6. IEEE, (2016)Accelerating Genome Assembly Using Hard Embedded Blocks in FPGAs., , и . VLSID, стр. 306-311. IEEE Computer Society, (2014)Configurable Architectures for Multi-Mode Floating Point Adders., , , , , и . IEEE Trans. Circuits Syst. I Regul. Pap., 62-I (8): 2079-2090 (2015)FAssem: FPGA Based Acceleration of De Novo Genome Assembly., , , и . FCCM, стр. 173-176. IEEE Computer Society, (2013)Real-time object detection and classification for high-speed asymmetric-detection time-stretch optical microscopy on FPGA., , , , , , , и . FPT, стр. 261-264. IEEE, (2016)Architecture for Dual-Mode Quadruple Precision Floating Point Adder., , и . ISVLSI, стр. 249-254. IEEE Computer Society, (2015)Accelerating 3D-FFT Using Hard Embedded Blocks in FPGAs., , и . VLSI Design, стр. 92-97. IEEE Computer Society, (2013)Hardware acceleration of de novo genome assembly., , , и . Int. J. Embed. Syst., 9 (1): 74-89 (2017)High Level Design Approach to Accelerate De Novo Genome Assembly Using FPGAs., , и . DSD, стр. 66-73. IEEE Computer Society, (2014)