32-bit vs 64-bit
32-bit vs 64-bit Introduction
OptiFDTD provides two types of FDTD simulations: 32-bit simulations (performed by 32-bit Simulators). 64-bit simulations (performed by 64-bit Simulators). These simulation options differ in certain aspects of supporting features or. Memory The most important difference between these two simulator types is the memory limitation imposed on 32-bit simulators. All the 32-bit applications may utilize up…
OptiFDTD Manuals
- Background and Tutorials
- Applications
- Symmetric Lossless X Coupler
- Power Combiner
- VFEM Accuracy and Advantages
- Plasmon Polaritons – Vector Finite Element Method
- Hollow Core Fiber – Vector Finite Element Method
- Plasmonic Arrays
- Surface Plasmon
- Diffraction Grating
- Photonic Crystal
- Nanoparticle
- Silicon Nanowire for Photovoltaic Applications
- Nano-Lens and Micro-Lens Simulations
- Light Scattering from Single Biological Cells
- Optical Grating simulations using OptiFDTD
- Photonic Bandgap Micro-cavity in Optical Waveguide
- OptiFDTD Overview
- Overview
- Material Models
- Material Models Introduction
- Constant Dielectrics
- Lossy Dielectrics
- Lorentz-Drude Model
- Nonlinear Material
- Dispersive 2nd-Order Nonlinear Material
- Dispersive 3rd-Order Nonlinear Material
- Dispersive Kerr Effect
- Dispersive Raman Effect
- Nonlinearity Simulation
- Lorentz-Drude Model in Frequency Domain
- Lorentz-Drude Model in Time Domain
- References
- Boundary Conditions
- Input Wave
- 2D FDTD Band Solver
- Post-Simulation Data Analysis
- Plane Wave Expansion (PWE) Method
- Power Transmittance Calculation with VB Scripting
- Layout Designer
- 32-bit vs 64-bit
- Lesson 1 - Getting Started
- Lesson 2 - Input Wave Setup
- Lesson 3 - Photonic Crystal and Photonic Band Gap
- Lesson 4 - Multiple Resonant Lorentz Dispersive Material
- Lesson 5 - Drude Model for Noble Metal and Surface Plasma
- Lesson 6 - Second Order Nonlinearity
- Lesson 7 - Four Wave Mixing
- Lesson 8 - Plane Wave Simulation
- Lesson 9 - FDTD Band Solver
- Lesson 10 - Lorentz-Drude Model for Metal and Surface Plasma
- Lesson 11 - Analyzing 1D Photonic Crystals (Bragg Gratings)
- Lesson 12 - Analyzing 2D Photonic Crystals
- Lesson 13 - Analyzing 3D Photonic Crystals
- Lesson 14 - Analyzing 2D Defects in Photonic Crystals
- Lesson 15 - Grating Simulation
- Lesson 16 - Calculating Power Transmittance and Reflection using VB Script
- Lesson 17 - Parameter Sweep Simulation
- Lesson 18 - 64-bit 3D Simulator
- Lesson 19 - Heating Absorption
- Lesson 20 - 2D TF/SF Simulation and RCS Detection
- Lesson 21 - 3D Surface Plasmon
- Lesson 22 - 3D Layout using Non-Uniform Mesh
- Applications
MWP 2019: Booth #6
September 26, 2019
MWP attracts the biggest names in the field, offers key networking and partnering opportunities and provides insights and inspiration on the major trends and technology advances affecting the industry. Find us at MWP 2019 at the Shaw center on October 8th and 9th.
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