E x H Computational Electromagnetics | exhswE x H electromagnetic design software enables smaller, faster, and lighter optical and RF systems design with its advanced features and optimizations. E x H provides its Customers with Software Tools that enable the design of Optical and RF Systems that are dramatically smaller, lighter, with higher clarity, and allow faster speeds and greater mobility. reTORT Ray Tracing Software - Billed MonthlyreTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporating the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. reTORT is a state-of-the-art geometric-optics ray tracer, built from scratch for modeling and optimizing complex optical systems with the latest software technologies. reTORT enables the design of Optical and RF systems that are small, lighter, and have improved performance. reTORT runs within E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. reTORT allows designs with arbitrary 3D geometry and has an arbitrary material simulation engine that includes binary mixing of standard materials included or new materials you upload into the engine. reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. License reTORT now and start designing even the most complex systems with the latest electromagnetic design technology right out of the box. reTORT Ray Tracing Software - Billed MonthlyreTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporating the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. reTORT is a state-of-the-art geometric-optics ray tracer, built from scratch for modeling and optimizing complex optical systems with the latest software technologies. reTORT enables the design of Optical and RF systems that are small, lighter, and have improved performance. reTORT runs within E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. reTORT allows designs with arbitrary 3D geometry and has an arbitrary material simulation engine that includes binary mixing of standard materials included or new materials you upload into the engine. reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. License reTORT now and start designing even the most complex systems with the latest electromagnetic design technology right out of the box. reTORT Ray Tracing Software - Billed Annually | E x H, Inc.reTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporating the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. reTORT is a state-of-the-art geometric-optics ray tracer, built from scratch for modeling and optimizing complex optical systems with the latest software technologies. reTORT enables the design of Optical and RF systems that are small, lighter, and have improved performance. reTORT runs within E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. reTORT allows designs with arbitrary 3D geometry and has an arbitrary material simulation engine that includes binary mixing of standard materials included or new materials you upload into the engine. reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. License reTORT now and start designing even the most complex systems with the latest electromagnetic design technology right out of the box. reTORT Ray Tracing Software - Billed AnnuallyreTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporating the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. reTORT is a state-of-the-art geometric-optics ray tracer, built from scratch for modeling and optimizing complex optical systems with the latest software technologies. reTORT enables the design of Optical and RF systems that are small, lighter, and have improved performance. reTORT runs within E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. reTORT allows designs with arbitrary 3D geometry and has an arbitrary material simulation engine that includes binary mixing of standard materials included or new materials you upload into the engine. reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. License reTORT now and start designing even the most complex systems with the latest electromagnetic design technology right out of the box. E x H Electromagnetics Education Package - Billed Monthly | E x H, Inc.E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. E x H tools include both a ray tracer and full wave solvers that enable the student to design optical and RF systems that are small, lighter, and have improved performance. E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. the reTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporates the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. the reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. PFSS (Periodic Frequency-Selective Surfaces) is a simulation tool used to rapidly and efficiently solve the problem of electromagnetic scattering from periodic, 2.5D structures for any incidence angle or polarization. The software is suitable for designing devices for RF, terahertz, infrared, and optical applications. As a specialized simulation tool, the solvers within PFSS can rapidly compute the scattering properties from periodic metallodielectric frequency selective surfaces, metamaterials, and antennas. The efficient nature of the solvers allows the use of GEMSIF's advanced stochastic optimizers to select the design properties. PFSS is not publicly released but is offered in its Beta form although it is fully functional and is regularly used internally on design projects. E x H Electromagnetics Education Package - Billed MonthlyE x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. E x H tools include both a ray tracer and full wave solvers that enable the student to design optical and RF systems that are small, lighter, and have improved performance. E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. the reTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporates the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. the reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. PFSS (Periodic Frequency-Selective Surfaces) is a simulation tool used to rapidly and efficiently solve the problem of electromagnetic scattering from periodic, 2.5D structures for any incidence angle or polarization. The software is suitable for designing devices for RF, terahertz, infrared, and optical applications. As a specialized simulation tool, the solvers within PFSS can rapidly compute the scattering properties from periodic metallodielectric frequency selective surfaces, metamaterials, and antennas. The efficient nature of the solvers allows the use of GEMSIF's advanced stochastic optimizers to select the design properties. PFSS is not publicly released but is offered in its Beta form although it is fully functional and is regularly used internally on design projects. E x H Electromagnetics Education Package - Billed Annually | E x H, Inc.E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. E x H tools include both a ray tracer and full wave solvers that enable the student to design optical and RF systems that are small, lighter, and have improved performance. E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. the reTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporates the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. the reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. PFSS (Periodic Frequency-Selective Surfaces) is a simulation tool used to rapidly and efficiently solve the problem of electromagnetic scattering from periodic, 2.5D structures for any incidence angle or polarization. The software is suitable for designing devices for RF, terahertz, infrared, and optical applications. As a specialized simulation tool, the solvers within PFSS can rapidly compute the scattering properties from periodic metallodielectric frequency selective surfaces, metamaterials, and antennas. The efficient nature of the solvers allows the use of GEMSIF's advanced stochastic optimizers to select the design properties. PFSS is not publicly released but is offered in its Beta form although it is fully functional and is regularly used internally on design projects. E x H Electromagnetics Education Package - Billed AnnuallyE x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. E x H tools include both a ray tracer and full wave solvers that enable the student to design optical and RF systems that are small, lighter, and have improved performance. E x H Tools reTORT and PFSS (Beta) are only for non-commercial and not-for-profit use within a university educational environment, purely to educate students in electromagnetics. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. Both tools run with E x H's proprietary GEMSIF (GEometry, Modeling, and Simulation InterFace) computational framework, which is also included in the package. the reTORT is a geometric-optics ray tracer for arbitrary 3D geometries, with a built-in arbitrary material simulation engine, and incorporates the latest technologies including GRINs and metasurfaces. reTORT shares the same GUI and optimization engine with all of our solvers for interoperability. the reTORT can perform multi-objective local and global optimizations and includes wizards for quick and easy setup of your design and simulation. It excels, and has internal capabilities, for the design of phase gradient metasurfaces and gradient index lenses. PFSS (Periodic Frequency-Selective Surfaces) is a simulation tool used to rapidly and efficiently solve the problem of electromagnetic scattering from periodic, 2.5D structures for any incidence angle or polarization. The software is suitable for designing devices for RF, terahertz, infrared, and optical applications. As a specialized simulation tool, the solvers within PFSS can rapidly compute the scattering properties from periodic metallodielectric frequency selective surfaces, metamaterials, and antennas. The efficient nature of the solvers allows the use of GEMSIF's advanced stochastic optimizers to select the design properties. PFSS is not publicly released but is offered in its Beta form although it is fully functional and is regularly used internally on design projects. |
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