alexpapados
Lead Software Engineer, HPC, AI, Scientific Computing, MSc in Applied Mathematics, Statistics & Scientific Computing
University of Maryland, College ParkBethesda, Maryland
Pinned Repositories
2-D-Compressible-Euler-Equations-FVM
C++ implementation of the finite volume method with flux-limiting to solve 2-D compressible Euler Equations (Liska, 2003)
Finite-Volume-Physics-Informed-Neural-Network
Finite Volume PINNs for Hyperbolic Conservation Laws & Compressible Flow
Physics-Informed-Deep-Learning-Solid-and-Fluid-Mechanics
Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems
alexpapados's Repositories
alexpapados/Physics-Informed-Deep-Learning-Solid-and-Fluid-Mechanics
Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems
alexpapados/Finite-Volume-Physics-Informed-Neural-Network
Finite Volume PINNs for Hyperbolic Conservation Laws & Compressible Flow
alexpapados/2-D-Compressible-Euler-Equations-FVM
C++ implementation of the finite volume method with flux-limiting to solve 2-D compressible Euler Equations (Liska, 2003)