• L2Roe

  • Referenced in 8 articles [sw18355]
  • Mach Roe is presented. It reduces the dissipation of kinetic energy at the highest resolved ... discrete velocity components within the numerical flux function. An asymptotic analysis is used to show ... numbers and to identify the reduced numerical dissipation in that regime. Furthermore, the analysis allows ... conflict is observed between the reduced numerical dissipation and the accuracy or stability...
  • ZEUS

  • Referenced in 48 articles [sw03107]
  • astrophysical magnetohydrodynamics (MHD). Extensions of the numerical methods to treat problems in nonideal ... particular, we consider methods for treating Ohmic dissipation, and methods for studying partially ionized plasmas...
  • NDSPMHD

  • Referenced in 45 articles [sw10435]
  • convergence. We also discuss the origin of numerical instabilities such as the pairing and tensile ... with SPMHD: removing the tensile instability, formulating dissipative terms for MHD shocks and enforcing ... used to run all of the numerical examples contained in the paper...
  • DG_DATH_ELASTIC_V1.0

  • Referenced in 5 articles [sw35139]
  • depending on the choice of numerical flux, conserve or dissipate the elastic energy. The performance...
  • 3DFLUX

  • Referenced in 1 article [sw09564]
  • solutions that are nearly unaffected by numerical dissipation, at a realistic computational cost. The performance...
  • chsystem

  • Referenced in 1 article [sw23182]
  • chsystem: Numerical scheme for dissipative solutions...
  • alphaBetaLab

  • Referenced in 1 article [sw27533]
  • general methodology to parameterize the dissipative effects of subscale islands, cliffs and unresolved coastal features ... applied to any numerical scheme and modulates the dissipation with spectral direction. Its applicability...
  • REDBACK

  • Referenced in 3 articles [sw21421]
  • Scalable Simulation Tool for Rock Mechanics with Dissipative Feedbacks. Multiphysics modeling of geomechnical and geophysical ... provides a powerful tool to collaborate on numerical modelling activities and we are contributing ... /pou036/redback), a module for Rock mEchanics with Dissipative feedBACKs. REDBACK builds on MOOSE to provide...
  • MFCAV

  • Referenced in 3 articles [sw18348]
  • combines the MFCAV solver with other more dissipative Riemann solvers to the Maire’s scheme ... solvers satisfies the Maire’s requirement. Numerical experiments are presented to demonstrate that the application...
  • HIDM2D

  • Referenced in 2 articles [sw02150]
  • code HIDM2D is constructed based on the numerical scheme for variety of the time evolution ... code is demonstrated by solving nonlinear dissipative equations, nonlinear dispersive equations, and nonlinear dynamics...
  • LDEC

  • Referenced in 1 article [sw03262]
  • from the main crack. These processes increase dissipation near the crack tip over a range ... these phenomena are described and used in numerical simulations. The first approach is based ... models are capable of increasing the energy dissipated during fracture when the mesh size ... speed over a range of applied loads. Numerical simulations of straight-running cracks demonstrate good...
  • GePUP

  • Referenced in 7 articles [sw15834]
  • pressure Poisson equation so that the dissipation of velocity divergence is governed by a heat ... projection for no-penetration domains. Results of numerical tests in two and three dimensions demonstrate...
  • Y-Geo

  • Referenced in 6 articles [sw30877]
  • element method (FDEM). FDEM is an innovative numerical technique that combines the advantages of continuum ... rock joint shear strength criterion, (4) a dissipative impact model, (5) an in situ stress...
  • DTA

  • Referenced in 3 articles [sw35454]
  • holistic computational theory of DUE, which is numerically implemented in a MATLAB package. In particular ... model, which captures the formation, propagation and dissipation of physical queues as well as vehicle...
  • VEROAD

  • Referenced in 1 article [sw08936]
  • viscoelastic. Consequences of this extension are numerous: calculation from physical material properties of quantities such ... displacements, stresses and strains, permanent deformations, and dissipated energies is made possible. All these quantities...
  • Ibisco

  • Referenced in 2 articles [sw14733]
  • developed specially for coarse-grained simulations with numerical potentials derived by the iterative Boltzmann inversion ... molecular dynamics programs, the techniques of dissipative particle dynamics (Groot and Warren, J Chem Phys...
  • VarInt

  • Referenced in 2 articles [sw11255]
  • numerical integration refers to a class of numerical integration algorithms that preserve the differential geometric ... geometric methods tend to generate or dissipate energy artificially due to the fact that they...
  • PyStokes

  • Referenced in 2 articles [sw33791]
  • Stokesian hydrodynamics in Python. PyStokes is a numerical library for phoresis and Stokesian hydrodynamics ... scale quantities, such as rheological response, energy dissipation and fluid flow. The computational cost...
  • Floquet

  • Referenced in 3 articles [sw36064]
  • dynamics of a periodically driven system with dissipation. In the simpler approach, the driving enters ... conservative and the high-temperature limits. Numerical results obtained within the different Markov approximations...
  • Magpy

  • Referenced in 1 article [sw22904]
  • Landau-Lifshitz-Gilbert equation), which are solved numerically using explicit or implicit methods. The results ... response to external magnetic fields, and heat dissipation. Magpy is built on a C++ library...