Srinivas M

From Msplacements

e-mail: srinivas.mpg08@research.iiit.ac.in
contact No: +91 9848028854

Objective
Quest to work in a real professional atmosphere that enables me to cope up with the emerging as well as the latest technologies and scope for widening the spectrum of my knowledge.

Academic Profile

• Pursuing, MS by Research in Computational Natural Sciences , International Institute of Information Technology, Hyderabad, July 2008 – Present, C.G.P.A – 7.25.
• M.Tech. Computational Techniques, University Of Hyderabad, Hyderabad – 70%.
• M.Phil. Physics, Pondicherry University, Puducherry – C.G.P.A – 8.71.
• M.Sc. Physics, Osmania University, Hyderabad – 73%
• B.Sc. Computer Science, Kakatiya University, Warangal – 73%

Areas of Interest

• NanoScience
• Molecular Dynamics
• Mathematical Modelling

Work Experience

• Worked as a lecturer in Vignan Institute of Technology and Science, Hyderabad
• Worked as a Software Engineer in SQL STAR INTERNATIONAL LIMITED, Hyderbad

Technical Skills

• Programming Languages  : GNU/C, GNU/FORTRAN, Core Java.
• Scripting Language  : awk
• Databases  : Oracle6i, MSSQL
• Web Technologies  : HTML, ASP
• Operating Systems  : GNU/Linux, Windows 98/XP.

Primary Research & MS Thesis

Title: Mechanism of water flow through Carbon Nanotubes

• Advisor: Dr. Prabhakar Bhimalapuram
• Organization: International Institute of Information Technology, Hyderbad
• Operating System: Fedora 9 Linux
• Molecular Dynamics Packages: CHARMM, VMD

Academic Projects

Title: Computational Studies of Bio-Molecular Reactions

• Organization : Pondicherry Central University, Puducherry

• Description  : Computation of rates of bimolecular reactions is important for designing drugs with desired binding strength and binding rate. Brownian dynamics is a widely used computational technique to compute rates of reactions, where coarse grained models of proteins such as spheres, cylinder are used. However, in the presence complicate potential barriers, the reaction events are rare and computational time is large for rate calculations. Weighted Ensemble Brownian Dynamics provides an alternate technique, which can be used efficiently to compute even small rates. In the present work, WEBD Simulations are carried out. The model system studied in this work can be regarded as a generic system to represent a large class of Enzyme-Substrate reactions. Most of the biological reactions can be considered as enzyme-substrate reactions. In this work, a general two-molecule reaction process is considered, where one molecule is modeled as a diffusing sphere and the other as a static cylinder, with a reactive segment defined. Weighted ensemble Brownian (WEB) dynamics is used to compute the reaction rates, with and without a typical force field.

• Operating System : Ubuntu Dapper Drake Linux
• Languages  : FORTRAN, MATLAB
• Role Played  : coding and analysis
• Duration  : 6 Months

Title: Study of Wavelet Transforms for Image Processing Applications

• Organization : National Remote Sensing Agency, Hyderabad

• Description  : The main objective of the project was "Application of Wavelet Transforms for Image Processing ". Various techniques were implemented like decomposing and composing of images using Haar wavelet transform. It is a two-dimensional Wavelet Algorithm, which detects horizontal,vertical and diagonal edges of the entire image. Using these wavelet transforms Denoising algorithm was implemented on a two-dimensional image. During the project work, FILTER FOR EDGE DETECTION was designed. This filter maximizes correlation with an edge of any direction while having optimum noise properties. Using Haar wavelet transforms, a program was developed in C-language for compression and merging of Images.

• Operating System  : MS-WINDOWS 98
• Languages  : C, MATLAB
• Role Played  : coding and analysis
• Duration  : 6 months

Course work

Advanced BioMolecular Architecture | BioMolecular Structure Interaction and Dynamics | BioStatistics| Database Management Systems | Thermodynamics and Statistical Mechanics | Problem solving and Programming | Data Structures | Modelling and Simulations in Computational Natural Sciences | Monte-Carlo Simulations | Numerical Analysis | Wavelet Transforms | Computational Physics |

Academic Achievements

• Gold Medal for M.Phil. Physics from Pondichery Central University, Puducherry
• Ist rank in M.Tech. Computational Techniques entrance examination conducted by University of Hyderabad
• University I rank during the course work of M.Tech. Computational Techniques
• Ist rank during the course work of M.Sc. Physics from P.G. Centre - Osmania University