- #ADVANTAGES OF OPTISYSTEM FULL#
- #ADVANTAGES OF OPTISYSTEM SOFTWARE#
- #ADVANTAGES OF OPTISYSTEM OFFLINE#
- #ADVANTAGES OF OPTISYSTEM SIMULATOR#
After, the optical signal will propagate over a long distance (thousands of miles) through an optical support which is "the optical fiber", this recent innovation which has quickly taken a major role in the world of telecommunications for its capacity to convey a large amount of information over a long distance.So with more advance system we can implement the submarine cable for different underwater system. Submarine cables also used for otherpurposes then underwater telecommunication such as reservoir monitoring. It is proposed that the performance of the submarine optical systems can be enhanced with longer distance and more number of channels by employing different transmission systems. Once the cable system was of fixed standard but now they are configurable, expandable, and repairable by demonstrating their feasibility.With better scientific approach the cables are helping us to better understand the oceans and seafloor environmental conditions.
Optical fibers have been found of much great importance and advancement in this field. With the experience from previous experiments and new scientific researches we can connect the world in customize manner with ease installation of better reliable and higher bandwidth cables. Fig.In context of the undersea telecommunications, it has been reported from the literature that optical fibers have been found of much great importance and advancement in this field. The solver’s graphical user interface has been re- designed to include enhanced visualization graphs along with tools for easier interaction. The accuracy of the mode solver solutions is important for leaky waveguides and structures with high-index contrast. OptiMode’s Transparent Boundary Conditions (TBC) can now be used in the Finite Difference (FD) mode solver. 8: Observation Area DFT analysis of a 2D TE coupler/splitter An improved detector analysis window also gives users a more detailed visualization of the simulation data.įig. The analyzer’s graphical user interface has been enhanced with the introduction of a Project Browser and 3D Editor to provide a better user experience. 7: Refractive index viewer showing a slice of an optimized plasmonic solar-cell Non-uniform FDTD meshes can also be visualized.įig. The new 3D refractive index and optical field viewers provide users with a more detailed and real-time view of the data. The mesh converter converts an OptiBPM output field to an OptiFDTD input field.
#ADVANTAGES OF OPTISYSTEM SOFTWARE#
The Matrix Converter converts field data to a format compatible with external software tools (such as Matlab and Origin). Two new tools were added to the OptiFDTD Toolbox: Matrix Converter and Mesh Converter. This menu also acts as a shortcut for information about common software functions.
#ADVANTAGES OF OPTISYSTEM OFFLINE#
Each step is explained in detail in the offline help, which is now accessible via the Help menu. Ideal for beginners, the Design Tutor presents a step-by-step workflow for preparing, designing and simulating photonic components. 5: Project Browser showing components of a ring resonator The new project browser enhances productivity by categorizing all components (geometry, input sources, and detectors) into a single window that can be quickly and easily accessed.įig. 4: 4-quadrants editor showing an optimized plasmonic solar-cell design The Wireframe Mode can be activated to visualize intersecting objects more precisely.įig. 3: The new 3D editor displaying a “T-branch” photonic crystal layoutįor more precise positioning and better visualization of hidden geometry, the 3D editor can be replaced by a 4-quadrant window showing three orthographic views (XY, XZ, YZ) and a 3D representation of the layout. Simple mouse operations enable zooming, panning and tumbling within the simulation domain.įig. The new editor improves the design experience by enabling users to visualize and directly edit design objects in three dimensions. 2: Differences in 32 & 64-bit versions of OptiFDTD 12 The differences between the new 32 & 64-bit versions are charted below: Fig. 1: 3D FDTD simulation of a ring resonator with approximately 1 million FDTD cells and 10,000 time steps (computer: i7 2700 3.4 GHz). 64-bit FDTD provides a more consistent user experience and increases productivity when designing, simulating and analyzing complex models.
#ADVANTAGES OF OPTISYSTEM SIMULATOR#
OptiFDTD 64-bit Linux simulator can be easily deployed on any Linux cluster to further reduce simulation time and extend usable memory. Every aspect utilizes 64-bit processing technology for optimal performance.
#ADVANTAGES OF OPTISYSTEM FULL#
OptiFDTD 64-bit has been thoroughly re-engineered to take full advantage of recent processor and memory evolution.