研究员(自然科学)
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Gender:Male
Status:Employed
Department:School of Optical and Electronic Information
Education Level:Postgraduate (Doctoral)
Degree:Doctoral Degree in Engineering
Discipline:Microelectronics and Solid-state Electronics
Electrical Circuit and System
Near-Threshold Energy and Area Efficient Reconfigurable DWPT/DWT Processor for Healthcare Monitoring Applications
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Indexed by:Journal paper
Co-author:C. Wang, J. Zhou, L. Liao, J. Lan, J. Luo, X. Liu,M. Je
Journal:IEEE Trans. on Circuits and Systems-II Express Briefs (TCAS-II) 2015
Included Journals:SCI
Volume:62
Issue:1
Page Number:70-74
DOI number:10.1109/TCSII.2014.2362791
Date of Publication:2014-10-14
Abstract:This brief presents an energy- and area-efficient discrete wavelet packet transform (DWPT) processor design for power-constrained and cost-sensitive healthcare-monitoring applications. This DWPT processor employs recursive memory-shared architecture to achieve low hardware complexity while performing required arbitrary-basis DWPT decomposition. By exploiting inherent characteristics of different physiological signals through an entropy statistic engine, the DWPT processor core can be reconfigured to compute multilevel wavelet decomposition with effective time and frequency resolution. Various design techniques from algorithm to circuit levels, including reconfigurable computing, lifting scheme, dual-port pipeline processing, near-threshold operation, and clock gating, are applied to achieve energy efficiency. With a 0.18- μm CMOS technology at 0.5 V and 1 MHz, the DWPT core only consumes 26 μW for performing three-level 256-point DWPT decomposition with entropy statistic calculation. When integrated in an ARM Cortex-M0-based biomedical system-on-a-chip test platform, the DWPT processor achieves processing acceleration by three orders of magnitude and reduces energy consumption by four orders of magnitude compared with CPU-only implementations.
Links to published journals:https://ieeexplore.ieee.org/document/6922525
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