gprMax is open source software that simulates electromagnetic wave propagation using the Finite-Difference Time-Domain (FDTD) method for numerical modelling of Ground Penetrating Radar (GPR)
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Updated
Oct 19, 2024 - Python
gprMax is open source software that simulates electromagnetic wave propagation using the Finite-Difference Time-Domain (FDTD) method for numerical modelling of Ground Penetrating Radar (GPR)
A 3D electromagnetic FDTD simulator written in Python with optional GPU support
🦐 Electromagnetic Simulation + Automatic Differentiation
Fast electromagnetic solver (FDTD) at scale.
Simulation of the propagation of incoherent light, aiming to illustrate the concept of spatial coherence.
fdtd3d is an open source 1D, 2D, 3D FDTD electromagnetics solver with MPI, OpenMP and CUDA support for x64, ARM, ARM64, RISC-V, PowerPC, Wasm architectures
Interactive web-based simulator of electromagnetic waves
Single-file implementations of 2D and 3D acoustic and elastic wave propagation in time domain using finite-differences(FDTD). Simple formulation and implementation
<NEEDS MAJOR UPDATE> Simulations of electromagnetic waves - easier scripting, postprocessing and field export
cram is a computational room acoustics module to simulate and explore various acoustic properties of a modeled space
Time-Reversal Algorithm with Finite-Difference Time-Domain Method
Acoustic wave propagation in 2D domain using CUDA, O(2,8). Solve second order wave equation in time domain using finite-differences.
Development of an SMA coaxial to microstrip transition using open source software (openEMS)
Simulation of reflection and refraction of polarized opticial beams at plane and curved dielectric interfaces.
An optics simulation suite for Windows and Linux, including a raytracer, a FDTD solver and various tools.
Fortran-Julia syntax comparison and Maxwell Solver in 2D using Yee numerical scheme and MPI topology
Computational ElectroMagnetism on a Yee Lattice
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]
Computational Electromagnetics Framework
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