I work at the intersection of computation, physics, and biology.
My background spans pure mathematics, a Computer Science PhD with highest distinction, high-performance scientific computing, AI/ML, CUDA, reaction networks, active matter, and DNA computing. I am interested in a central question: how do physical systems compute, adapt, and organize themselves into intelligent biological behavior?
I build software, simulations, and mathematical models for studying complex living systems, from molecular reaction networks to active matter and morphogenesis.
- OpenFPM: A scalable open framework for particle and particle-mesh simulations on parallel computers.
- TopoSPAM: A topological simulation platform for active matter.
- Molecular and DNA computing: programmable reaction networks, learning-like chemical dynamics, and physical computation.
- Scalable simulations of active matter and nonlinear hydrodynamics for studying morphogenesis algorithmically.
- Open source contributions: Homebrew, OpenFPM, ParaView, VTK, and scientific computing tools.
- Scientific software development and HPC.
- CUDA, C++, Python, MPI, OpenMP, and parallel algorithms.
- Active matter, morphogenesis, nonlinear hydrodynamics, and particle simulations.
- Mathematical modeling of biological systems.
- DNA computing, reaction networks, and programmable chemistry.
- Turning abstract mathematics into working computational systems.
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Programming Languages:
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Scientific / HPC Tools: CUDA, MPI, OpenMP, PETSc, ParaView, VTK, OpenFPM
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Developer Tools:
