S. Shakirbasha is seeking a challenging position as a software professional. He has an M.Tech in VLSI and Embedded Systems from Madanapalle Institute of Technology and Science with a 7.7 SGPA. His technical skills include programming languages like C and MATLAB. His projects include real time depth estimation and measurement of uncalibrated stereo images using MATLAB and design and implementation of a Radix 4 FFT algorithm using VHDL. He is self-motivated, a good learner, and capable of working in a team.
1. S.SHAKIRBASHA
D.No: 5-58-3-b, Apparao thota,
Madanapalle, Chittoor, Andhra Pradesh-517325
shakirbasha491@gmail.com +91-95534-10853 (6pm to 9am)
Career Objective:
To secure a challenging position where I can effectively contribute my skills as a software
professional possessing competent technical skills.
Educational Qualifications:
Sno: Course School/college Board/university Year of
completion
Aggregate
1 M.Tech
[VLSI &
Embedded
Systems]
Madanapalle Institute of
Technology and Science,
[MITS] AUTONOMOUS
Madanapalle
JNTU-
Ananthapuram
2016 7.7/10
SGPA
Till1st
year
2 B.Tech
[E.C.E]
Madanapalle Institute of
Technology and Science,
Madanapalle.
JNTU-
Ananthapuram
2013 73.13 %
3 Intermediate
[M.P.C]
Sri Siddhartha Jr. college,
Madanapalle.
Board of
Intermediate
Education-AP
2009 91.9%
4 Secondary
School
Mpl E.M High School,
Madanapalle.
Board of
Secondary
Education-AP
2007 83.13%
Technical Skills:
• Programming Languages : C, MATLAB, and Verilog.
• Packages : MS Office.
• Operating Systems : Windows XP, 7, 8.1, Linux, Ubuntu.
• Design Tools : Multisim, Xilinx IDE.
Areas of Specification:
• Electronic devices and circuits (EDC).
• Communications (AC, DC).
. Project:
2. PG: Real Time Depth Estimation and measurement of un calibrated stereo image
• Software: MATLAB 2014a.
• Technology: Embedded Applications.
• Description:
This project proposes Rectification of un-calibrated stereo images and real time depth estimation and
measurement of object both in static and dynamic scene by using hardware Intel compute stick. From
algorithm of sum of absolute difference (SAD) stereo images to match the features correction of matching
points computes by Epipolar constraints. The corrected 3D rectified stereo image gives analysis of depth
estimation of object. Real time static and dynamic object measurement is calculated. It is modified in to a
standalone application package in portable of small size Intel compute stick. Advantage its simple setup with
less cost. Applications in real time object tracking, 3D reconstruction etc.
UG: Design and implementation of Radix 4 FFT Algorithm.
• Software : VHDL;
• Technology: VLSI.
• Description:
The design and implementation of Radix-4 FFT algorithm in FPGA using Xilinx Spartan-3 kit. In these
proposed algorithm inputs are taken serially in the form of bits. The concept of Twiddle factors is taken from
FFT which have all the twiddle factors is inbuilt as compared to Algorithm Cooley-Tukey algorithm. The
main approach without using RAM code is written in VHDL. The Radix-2 and Radix-4 algorithms are used
mostly for practical purposes because of its simple structure and computation speed. The advantage of this
project obtained from synthesis results shows parameters like Area, Power consumption etc. is reduced.
Implemented in FPGA Xilinx Spartan-3 kit is observed and verified its parameters.
Strengths:
• Self-motivated.
• Good Learner and dedicated worker.
• Positive attitude.
• Capable to work in a team.
Extra Curricular Activities:
• Active coordinator as illuminator at Departmental Activity in college.
• Participated NCC at school level.
Personal Details:
• Name : S.Shakirbasha.
• Date of Birth : 06-05-1991.
• Father’s Name : Mr. S.Munawarbasha.
• Nationality : Indian.
• Languages Known : English(r,w,s), Hindi(r,s) ,Urdu(r,s), and Telugu(r,w,s).
• Hobbies : Riding bicycle, jogging and surfing net.
3. Declaration:
I hereby declare that the above information is correct to the best of my knowledge and I hear the
responsibility for the correctness of these particulars.
Date:
Place: Madanapalle. s. shakir basha.