Amanote Research
Register
Sign In
Discover open access scientific publications
Search, annotate, share and cite publications
Publications by S. Bleda
Analysis of Periodic Anisotropic Media by Means of Split-Field FDTD Method and GPU Computing
Related publications
Efficient Split Field FDTD Analysis of Third-Order Nonlinear Materials in Two-Dimensionally Periodic Media
Parallel Computing of Discrete Element Method on GPU
Applied Mathematics
Design Features of Block Algorithms of FDTD-method Implemented on a GPU Using MATLAB
Computer Optics
Electronic Engineering
Pattern Recognition
Engineering
Molecular Physics,
Computer Vision
Computer Science Applications
Electrical
Atomic
Optics
Solution of the Maxwell's Equations of the Electromagnetic Field in Two Dimensions by Means of the Finite Difference Method in the Time Domain (FDTD)
Contemporary Engineering Sciences
Materials Science
Mutagenesis
Computer Networks
Fluid Flow
Communications
Engineering
Health
Transfer Processes
Toxicology
Social Sciences
An Extended Newmark-FDTD Method for Complex Dispersive Media
International Journal of Antennas and Propagation
Electronic Engineering
Electrical
The Capability of GPU Computing
Journal of the Visualization Society of Japan
HIE-FDTD Method for Hybrid System With Lumped Elements and Conductive Media
IEEE Microwave and Wireless Components Letters
Electronic Engineering
Electrical
Condensed Matter Physics
A Comparative Study of GPU Computing by Using CUDA and OpenCL
International Journal of Computer Applications
Hybrid FDTD Analysis for Periodic On-Chip Terahertz (THz) Structures