Ph.D. physicist with extensive expertise in scientific computation, mathematical modeling, Monte Carlo and stochastic simulations, quantitative analysis, software design and algorithm development. Past areas of research: numerical solutions of spherical harmonics for the problem of un-exploded ordinances, bilayer-protein coupled field models of biological membranes relating to bacterial lysis and macular degeneration, membrane conformations, stochastic modeling of molecular motors and tubule networks for the study of active transport and anomalous diffusion Specialties Mathematics: mathematical modeling, Monte Carlo and stochastic simulations, ordinary/partial/stochastic differential equations, statistical analysis, quadrature integration Programming Langauges: Proficient in Fortran/C/C++, Unix shell, bash scripting, Latex. Familiar with Matlab, Java, Intel MKL, CUDA, OpenMP Computation: Extensive experience running scripted jobs on computing clusters and super computers with PBS/SGE queueing systems. Parallel Computation: CUDA and OpenMP