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International Conference:
International Conference on Trends in Engineering with Computation Hikes
Paper Title: Enhanced Modified Booth Recoding Technique for Signal Processing
Application

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I obtained B.Tech (ECE) from the department of Electronics and Communication, Karunya University and got M.E degree (VLSI Design) from Vel Tech Multi Tech Engineering College, Anna University. Now I am pursuing a PhD (ICE) at Anna University. As a VLSI engineer, it is a challenge to do the computation even faster and even more economical. It’s inspired me to do some research, in the field of DSP applications like MAC (multiplier-accumulator), filtering, and convolution. And other interesting fields are Nanoscale device modelling and simulation such as FinFET, CNFET, and TFET technology and also, optimize the VLSI circuits. Moreover, I have a special interest in Number Theory system, particularly the Residue Number system and Logarithmic Number system for the Floating-point arithmetic computation.  I have participated in some of the International conferences and published some papers in the refereed and SCI-indexed journals. I am a recognized peer-reviewer of the SAGE...
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Workshop Attended (9)  [1] Attended workshop programme on ROBOTICS-ROBO TOUCH , ABLab Solutions        organized  by Karunya University on 4 th & 5 th March 2011.    [2] National level workshop and hands-on-training on DIGITAL IC DESIGN USING        CADENCE EDA , Vel Tech Multi Tech Engineering College on   o4, April 2014 .   [3] Workshop on ADVANCED NANO-SCALE DEVICE DESIGN USING TCAD ,        VIT Chennai on 9 th May 2014.    [4] Presented Seminar topic entitled “ Fixed Width Parallel Multiplier-Accumulator        based on Higher Radix Algorithm ” in the Faculty Research Day held on 17 th Aril, 2015        at Sri Venkateswara College of Engineering.    [5] Participated in the one day workshop on “ Academic Writing in Refereed Journals and   ...
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FIR Filter Design Using Floating point Column Bypassing Technique

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ABSTRACT:   This paper presents the design of floating-point fixed-width multiplier using column bypassing technique for signal processing applications. The designed fixed-width multiplier provides less power consumption due to the reduction of switching activity in the operands of the partial products. This is the key element of the Multiply-accumulate (MAC) unit for enhancing its performance. The proposed MAC can be implemented in an FIR filter for DSP applications. To improve the accuracy of the FIR filter, various rounding methods have been used to solve the truncation error in the product. The power consumption is 10% lesser than conventional fixed-width multiplier and the accuracy also have been improved. The output response of the proposed filter will be simulated in the virtual software and hardware environment with the MATLAB software. Index Terms: Column bypassing technique, error reduction algorithms, FIR filter, Fixed-width multiplier, nearest rounding, wrap overf...
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