Early service direction

Scientific computing services

PhyNumerics is positioned around finite element methods, numerical PDEs, and simulation support for research groups, engineering teams, and technical startups.

Custom FEM solver development

Prototype and implement finite element solvers for PDE-based models in MATLAB or Python.

  • Weak-form implementation
  • Boundary conditions
  • Sparse linear systems
  • Simulation workflow

Verification and convergence

Build verification studies to check whether a numerical implementation behaves correctly.

  • Manufactured solutions
  • Error norms
  • Convergence tables
  • Technical reports

MATLAB/Python scientific computing

Develop, clean, translate, or document numerical research code.

  • MATLAB workflows
  • Python/SciPy sparse routines
  • Data visualization
  • Reproducible examples

Multiphysics simulation

Support coupled models involving heat, diffusion, phase fields, transport, and materials systems.

  • Coupled PDE systems
  • Time stepping
  • Parameter studies
  • Model interpretation

Research-to-product prototyping

Turn research models into clean technical demos and employer/client-facing case studies.

  • Portfolio reports
  • Simulation visuals
  • Technical presentation
  • Problem framing

Technical documentation

Prepare concise reports explaining the method, implementation, and numerical evidence.

  • Problem statements
  • Weak forms
  • Tables and plots
  • Professional summaries