• GYSELA

  • Referenced in 40 articles [sw17825]
  • LAgragian (GYSELA) code, which solves 4D drift-kinetic equations for ion temperature gradient driven turbulence...
  • TOKAM-3D

  • Referenced in 9 articles [sw02765]
  • TOKAM-3D code solves 3D fluid drift equations in full-torus geometry including both closed...
  • MsdeParEst

  • Referenced in 15 articles [sw25419]
  • estimation in stochastic differential equations with random effects in the drift, or in the diffusion...
  • YUIMA

  • Referenced in 41 articles [sw11399]
  • Uhlenbeck process solution of the stochastic differential equation dY t =-λY t dt+σdW ... Brownian motion. For the estimation of the drift λ, the results are obtained only...
  • FORTEC-3D

  • Referenced in 3 articles [sw16820]
  • FORTEC-3D code, which solves the drift-kinetic equation for torus plasmas and radial electric...
  • HECTOR

  • Referenced in 1 article [sw01330]
  • orbit-following scheme, based upon the drift equations in the guiding centre approximation...
  • ddfermi

  • Referenced in 10 articles [sw21481]
  • open-source software prototype which simulates drift diffusion processes in classical and organic semiconductors ... features: finite volume discretization of the semiconductor equations (van Roosbroeck system); thermodynamically consistent Scharfetter-Gummel...
  • TOKAM3X

  • Referenced in 2 articles [sw18047]
  • separatrix. Based on drift-reduced Braginskii equations, TOKAM3X is able to simulate both limited...
  • ManifoldCode

  • Referenced in 1 article [sw06974]
  • equation arising in biophysics, the drift-diffusion semiconductor equations, and the Hamiltonian and momentum constraints...
  • ToSCA

  • Referenced in 6 articles [sw04242]
  • drift-diffusion model which consists in the van Roosbroeck system of partial differential equations ... operating scheme of this element. In the drift-diffusion model the temperature is a constant...
  • GFET

  • Referenced in 1 article [sw35926]
  • full coupled drift-diffusion-Poisson simulation of a GFET. A graphene field effect transistor (GFET ... including a full 2D Poisson equation and a drift-diffusion model with mobilities deduced ... direct numerical solution of the semiclassical Boltzmann equations for charge transport by a suitable discontinuous...
  • plink

  • Referenced in 7 articles [sw23674]
  • conducting IRT true score and observed score equating, and plotting item response curves/surfaces, vector plots ... plots, and comparison plots for examining parameter drift...
  • ECHO

  • Referenced in 21 articles [sw22269]
  • approximate Riemann solver is used. The induction equation is treated by adopting the Upwind Constrained ... replacing the fluid velocity with the electromagnetic drift velocity and by neglecting the matter contribution...
  • VENUS-LEVIS

  • Referenced in 1 article [sw19957]
  • energetic particles. Curvilinear guiding-centre drift and full-orbit equations of motion are presented...
  • WIAS-TeSCA

  • Referenced in 9 articles [sw04045]
  • semiconductor lasers. It is based on the drift-diffusion model and considers a multitude ... strongly nonlinear system of partial differential equations (van Roosbroeck), which describes the electron and hole...
  • veDYNA

  • Referenced in 10 articles [sw04237]
  • closed loops are given by differential-algebraic equations (DAE). Real-time applications like hardware ... onto the constraint manifold can prevent the drift-off for arbitrary time intervals...
  • FLICA-OVAP

  • Referenced in 13 articles [sw18356]
  • OVAP platform: the homogeneous equilibrium model, the drift-flux model which is directly derived from ... wall forces, and turbulence. The solving of equations is based on finite volume methods...
  • UVKRIG

  • Referenced in 1 article [sw22236]
  • drift for weakly stationary random function must be modeled; and (3) equation solution differs...
  • UPIC-EMMA

  • Referenced in 4 articles [sw09699]
  • these simulations the relativistic drifting plasma inevitably induces a high frequency numerical instability that contaminates ... instability. One approach is to solve Maxwell equations in Fourier space (a spectral solver...
  • KEPLER

  • Referenced in 2 articles [sw08618]
  • other methods, to the integration of variational equations. For the Kepler problem, the space ... layer, and moreover a very slow drift in the frequency values, clearly due to Arnold...