Improvement of processing speed in FDTD calculations using GPUs
The 3D lens structure and CIS 3D CMOS image sensor are picked up as benchmark examples. The GPU version of Crosslight's FDTD shows a 66-fold improvement in processing for 3D real device structures. The benchmark results achieved processing speeds equivalent to a Core i7 3930K PC with 10 clusters (equivalent to 60 cores) using an inexpensive GPU card.
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basic information
<Main Features> ■General-purpose 2D/3D finite element analysis and design software for semiconductor devices ■Applicable to almost all device design and analysis except for semiconductor lasers ■Can be used for the design of devices made from silicon and compounds <Diverse Physical Models and Functions> ■Current-voltage (I-V) characteristics ■Two-dimensional distribution of potential, electric field, and current ■Two-dimensional distribution of hot carrier temperature in fluid dynamics models ■Two-dimensional distribution of lattice temperature used in thermal transport models ■Band diagrams under various bias conditions ■Results of AC small-signal response analysis at arbitrary frequency ranges ■Subbands of quantum wells using a carrier mixing model ■Two-dimensional distribution of impurity occupancy and density trapped at deep levels in semiconductors ■Two-dimensional optical field distribution of optical devices such as photodetectors ■Current dependence of the self-emission spectrum of LEDs ■FDTD interface <Interface> ■Standard tools for structural input and result display ■Described in a proprietary scripting language, executable from GUI or command line ■Program control possible via batch files or scripting language
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Improvement of processing speed in FDTD calculations using GPU.
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Crosslight Software Inc. (formerly Beamtek Software Inc.) is an international company that became independent from the National Research Council of Canada in 1992 and established its headquarters in Canada. Currently, it is headquartered in Vancouver, with a branch established in Shanghai in 1997 and another in Chiba City, Japan, in September 2001. As a developer of TCAD software that analyzes the physical properties of semiconductor laser devices, light-emitting and light-receiving elements, MEMS, and MOCVD processes, we are a leading company that consistently provides cutting-edge physical models for semiconductor optoelectronics and electronic device and process technologies. Our flagship product, the three-dimensional semiconductor laser diode simulator PICS3D, received the Commercial Technology Achievement Award from the industry magazine Laser Focus World in 1998.