GEMIO Technologies, Inc. |
Our
areas of expertise include:
· High performance scientific computing
· Numerical problems
· Conception, implementation & verification of algorithms
· Analytical verification of numerical solutions
· Code performance optimization
· Selection, evaluation & adoption of commercial codes
· Hardware selection & performance tuning
· FORTRAN
· Computational Electromagnetics
· Computational Fluid Dynamics
· Multi-stage Monte Carlo Methods
Super-Particle & Particle-In-Cell Methods, DSMC
· n-body problems
· Image and Video processing, real-time feature extraction
· Finite Difference Methods FDM, Finite Element Methods FEM
Finite Difference Time Domain FDTD
· Navier Stokes solver, Laplace & Poisson solver,
Maxwell solver, Newtonian motion solver
· Electron-optics and ion-optics simulations
· Full wave optics & geometric optics (raytracing)
· Large PDEs problems, large equation systems
· Sound field simulation
· Data filtering in time and frequency domain, noise suppression, FFT
· n-dimensional data interpolation and curve fitting, prediction
· X-ray diffraction simulation, indexing algorithms
· Large scale particle tracing
· Computation of population statistics
· High-dimensional optimization
Specific applications include:
· Scientific Instrumentation for Life Science and Nanotech
· Near-field optics, evanescent wave sensing
· Optical sensing of biological nano-scale layers or biochemical reactions
(wave guides, interferometry)
· Liquid Crystals
· Microfluidics
· Ultra sound imaging, object reconstruction
· Design and measurement of electric and magnetic fields
· Highly accurate computation of Parasitics in ULSI ICs and MEMs
(Capacitances and inductances between multiple 3D objects)
· X-ray diffraction (XRD) and X-ray scattering on nano-scale systems
· XRD indexing
· Electron beam and ion beam systems; magnetrons
· Electric and magnetic lenses,
· Electric and magnetic deflection systems
· Ion beam and electron beam generation
· X-ray tubes
· Magnetrons (PVD, sputtering), Plasma modeling
· Mass spectrometry on organic and inorganic matter
· Ion sources for biomolecules
· Laser Desorption and Ionization
· Rarified gas dynamics
· Simulation and Design of advanced vacuum systems
· Collisional ion cooling
· Ion traps and guides
· Advanced electronics; amplifiers (selective & lock-in)
· Transducers and sensors, CCDs, Laser
· Electromagnetic Scattering (X-ray, UV, optical, IR)
· Anti-reflective optical multi-layers (arbitrary distribution of k)
· Thermal problems, incl. highly accurate stabilization
· Interferometry, Ellisometry, EvaSens WIOS,
SEM, TEM, Lithography, AFM, XFS, DSC
· High performance scientific computing
· Numerical problems
· Conception, implementation & verification of algorithms
· Analytical verification of numerical solutions
· Code performance optimization
· Selection, evaluation & adoption of commercial codes
· Hardware selection & performance tuning
· FORTRAN
· Computational Electromagnetics
· Computational Fluid Dynamics
· Multi-stage Monte Carlo Methods
Super-Particle & Particle-In-Cell Methods, DSMC
· n-body problems
· Image and Video processing, real-time feature extraction
· Finite Difference Methods FDM, Finite Element Methods FEM
Finite Difference Time Domain FDTD
· Navier Stokes solver, Laplace & Poisson solver,
Maxwell solver, Newtonian motion solver
· Electron-optics and ion-optics simulations
· Full wave optics & geometric optics (raytracing)
· Large PDEs problems, large equation systems
· Sound field simulation
· Data filtering in time and frequency domain, noise suppression, FFT
· n-dimensional data interpolation and curve fitting, prediction
· X-ray diffraction simulation, indexing algorithms
· Large scale particle tracing
· Computation of population statistics
· High-dimensional optimization
Specific applications include:
· Scientific Instrumentation for Life Science and Nanotech
· Near-field optics, evanescent wave sensing
· Optical sensing of biological nano-scale layers or biochemical reactions
(wave guides, interferometry)
· Liquid Crystals
· Microfluidics
· Ultra sound imaging, object reconstruction
· Design and measurement of electric and magnetic fields
· Highly accurate computation of Parasitics in ULSI ICs and MEMs
(Capacitances and inductances between multiple 3D objects)
· X-ray diffraction (XRD) and X-ray scattering on nano-scale systems
· XRD indexing
· Electron beam and ion beam systems; magnetrons
· Electric and magnetic lenses,
· Electric and magnetic deflection systems
· Ion beam and electron beam generation
· X-ray tubes
· Magnetrons (PVD, sputtering), Plasma modeling
· Mass spectrometry on organic and inorganic matter
· Ion sources for biomolecules
· Laser Desorption and Ionization
· Rarified gas dynamics
· Simulation and Design of advanced vacuum systems
· Collisional ion cooling
· Ion traps and guides
· Advanced electronics; amplifiers (selective & lock-in)
· Transducers and sensors, CCDs, Laser
· Electromagnetic Scattering (X-ray, UV, optical, IR)
· Anti-reflective optical multi-layers (arbitrary distribution of k)
· Thermal problems, incl. highly accurate stabilization
· Interferometry, Ellisometry, EvaSens WIOS,
SEM, TEM, Lithography, AFM, XFS, DSC