Work place: Department of Electrical and Computer Engineering, Graduate University of Advanced Technology, Kerman, Iran
E-mail: m.shafieabadi@student.kgut.ac.ir
Website:
Research Interests: Hardware Security, Information Security, Network Security, Information-Theoretic Security
Biography
Mohammad Ali Shafieabadi was born in Kerman, Iran, in 1995.He received his bachelor’s degree in computer software from Shahid Bahonar University in 2017. He is currently studying in a master degree in the field of computer architecture at the Graduate University of Advanced Technology, Kerman, Iran .
His main research interests are VLSI, Spin based circuits and hardware security.
By Mohammad Ali Shafieabadi Fazel Sharifi Mohammad Mehdi Faghih
DOI: https://doi.org/10.5815/ijmecs.2019.08.04, Pub. Date: 8 Aug. 2019
In many classes of applications, mainly in signal and image processing applications, decreasing the static power of computational circuits is a challenge. Multipliers are typically located on the critical path of such systems. A promising approach for energy-efficient design of digital systems is approximate or inexact computing. On the other hand, leakage power and limited scalability become serious obstacles that prevent the continuous miniaturization of the conventional CMOS-based logic circuits. Spin-based devices are considered as promising alternatives for CMOS technology due to their proper characteristics such as near-zero current leakage, sustainability, integrity, low standby power. In this paper a new low power approximate 4-2 compressor is presented which is implemented using spintronic devices. The proposed design is utilized in a multiplier tree for image processing applications. We have simulated and compared the proposed design with state-of-the-art designs in both quantitative and qualitative metrics. The simulation results show that the proposed design has 92% and 188% lower power consumption and PDP, respectively compared to the best state-of-the-art design.
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