CBS JAPAN Product Lineup

It is a powerful and flexible simulation package for the design and optimization of nanophotonic plasmonic devices. It features a flexible layout editor and various high-performance 3D/2D Maxwell solvers. OMNISIM comes standard with 2D/3D FDTD algorithms, FETD algorithms, and a state-of-the-art 2D/3D improved RCWA engine, allowing for highly efficient computations of diffraction gratings and metamaterials by leveraging various algorithms.

• simulator
• Magnetic field analysis/electromagnetic wave analysis
• Other analyses

It is an advanced heterostructure simulator for modeling Fabry-Pérot and VCSEL quantum well lasers. Calculations can be performed in both 1D and 2D, allowing for 2D transverse (XY) calculations of laser cross-sections and the effects of lateral structures in both ridge waveguide lasers and SOI hybrid lasers. - XY Module It can perform 2D transverse (XY) simulations. The cross-section can include stepped etching layers and insulating layers, making it ideal for studying the effects of lateral structures such as ridge waveguide lasers and SOI hybrid lasers. - EAM Module Calculations can include a quantum confined Stark effect (QCSE) model, allowing for the computation of electro-absorption modulators and electro-refractive modulators. - VCSEL Module It is capable of calculating multiple optical resonator modes, electric drift diffusion, thermal flow, and electron-photon interactions in a complete 3D model. It provides a comprehensive integrated design environment for various VCSEL variations, including QW materials and current blocking.

• simulator
• Other analyses
• Other analysis software

It has a vector mode solver for waveguide structures, employs numerous complementary algorithms, and can calculate a wide variety of waveguides using arbitrary materials and a highly flexible waveguide CAD tool. Since it can model propagation within optical fibers in 2D/3D structures, it allows for easy simulation of fiber couplers, tapered fibers, lens fibers, fiber Bragg gratings, and more. With user-friendly features backed by years of experience, it enables fast and accurate analysis of optical waveguides and optical fibers.

• simulator
• Other analyses
• Magnetic field analysis/electromagnetic wave analysis

FREDmpc was developed to provide developers with the most valuable resource, "time." Optical simulation tools play a crucial role in providing preliminary analysis results in the development of optical systems and products, as well as in forensic analysis used for evaluation in manufacturing and testing. Therefore, whether the software used can derive results more accurately in a shorter time is extremely important for developers. By being over 100 times faster and providing more accurate results than calculations using a CPU, FREDmpc allows developers to spend more time on design.

• Other analyses
• Analysis Services
• simulator