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Analyzing the trade-off between power consumption and beamforming algorithm performance using a hearing aid ASIP

, , , , , , and . 2017 International Conference on Embedded Computer Systems: Architectures, Modeling, and Simulation (SAMOS), page 88-96. IEEE, (July 2017)
DOI: 10.1109/SAMOS.2017.8344615

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DNN-based performance measures for predicting error rates in automatic speech recognition and optimizing hearing aid parameters., , , , , and . Speech Communication, (2019)KAVUAKA: A Low Power Application Specific Hearing Aid Processor., , and . VLSI-SoC, page 99-104. IEEE, (2019)FLINT+: A runtime-configurable emulation-based stochastic timing analysis framework., , , , , and . PATMOS, page 1-8. IEEE, (2017)Analyzing the trade-off between power consumption and beamforming algorithm performance using a hearing aid ASIP., , , , , , and . SAMOS, page 88-96. IEEE, (2017)Efficient Emulation of Floating-Point Arithmetic on Fixed-Point SIMD Processors., , and . SiPS, page 254-259. IEEE, (2016)FLINT: layout-oriented FPGA-based methodology for fault tolerant ASIC design., , , , and . DATE, page 297-300. ACM, (2015)Analyzing the trade-off between power consumption and beamforming algorithm performance using a hearing aid ASIP, , , , , , and . 2017 International Conference on Embedded Computer Systems: Architectures, Modeling, and Simulation (SAMOS), page 88-96. IEEE, (July 2017)Customizing a VLIW-SIMD application-specific instruction-set processor for hearing aid devices., , , and . SiPS, page 115-120. IEEE, (2014)An area efficient real- and complex-valued multiply-accumulate SIMD unit for digital signal processors., , and . SiPS, page 1-6. IEEE, (2015)FLINT+: A runtime-configurable emulation-based stochastic timing analysis framework., , , , , and . Integration, (2019)