• SuitSparseQR

  • Referenced in 26 articles [sw07592]
  • difference package for solving 2D visco-acoustic wave equation. Frequency-domain finite-difference (FDFD) modelling ... presented which solves 2D visco-acoustic wave equation. The mixed-grid stencil is used...
  • WavES

  • Referenced in 2 articles [sw12488]
  • different types of time-dependent Wave Equations (acoustic, elastic and electromagnetic). Theoretical tool consists ... solution of time-dependent wave equations. Practical tool is represented by the C++ program library ... computational solution of time-dependent wave equations (acoustic, elastic and electromagnetic) using three different methods...
  • ExWave

  • Referenced in 1 article [sw27544]
  • performance discontinuous Galerkin solver for the acoustic wave equation. A high performance implementation ... schemes is presented to solve the acoustic wave equation. For ADER, both a global ... well as real world problems like urban acoustics. We present the physical and numerical problem...
  • MAESTRO

  • Referenced in 9 articles [sw11176]
  • number asymptotics; this equation set does not explicitly track acoustic waves and thus allows...
  • pySDC

  • Referenced in 19 articles [sw16754]
  • also for large wave number modes. Performance is studied for an acoustic-advection problem ... linearised Boussinesq equations, describing compressible, stratified flow. fwsw-SDC is compared to diagonally implicit Runge...
  • OpenFrame

  • Referenced in 2 articles [sw01570]
  • finite difference algorithm to solve acoustic and elastic wave equations. The parallel implementation is done...
  • ExnerFOAM

  • Referenced in 4 articles [sw19940]
  • fully compressibe Euler equations with implicit treatment of acoustic and gravity waves. Hilary Weller...
  • EFREE

  • Referenced in 3 articles [sw11919]
  • Equation free projective integration: a multiscale method applied to a plasma ion acoustic wave. Multiscale ... steepening of a 1D ion acoustic wave. In EFPI, the simulations act on two scales ... explicit closed-form equations governing the coarse scales, hence the name “Equation Free.” In this ... scales. More specifically, as the ion acoustic wave becomes a shock with Debye length scales...
  • k-Wave

  • Referenced in 20 articles [sw07387]
  • fields is described. The toolbox, named k-Wave, is designed to make realistic photoacoustic modeling ... domain solution to coupled first-order acoustic equations for homogeneous or heterogeneous media...
  • WaveCloud

  • Referenced in 1 article [sw23714]
  • FDTD) method to solve the linear acoustic wave-equation numerically. It originates from a simulation...
  • SAFARI

  • Referenced in 3 articles [sw30083]
  • SAFARI: Seismo-acoustic fast field algorithm for range-independent environments user’s guide. An efficient ... developed for solving the depth- separated wave equation in general fluid/solid horizontally stratified media ... three modules providing plane wave reflection coefficients, continuous wave transmission losses, and broadband pulse response ... document describes the mathematical model for seismo- acoustic propagation in stratified media. Then the numerical...
  • RANA

  • Referenced in 1 article [sw17829]
  • coupled differential equations used to describe the diffraction of light from acoustic waves (or thick...
  • DeltaEC

  • Referenced in 1 article [sw07738]
  • physical acoustics and especially thermoacoustics. The code numerically integrates a one-dimensional wave equation appropriate ... handling complex geometric configurations and specialized acoustic elements including resonators, duct networks, and complete thermoacoustic...
  • WENOCLAW

  • Referenced in 8 articles [sw07611]
  • understood. Examples of (1–2) include acoustics and elasticity in heterogeneous media. The method described ... this work combines the notions of wave propagation and the method of lines ... high order accurate ordinary differential equation solver. In this work, we use Runge-Kutta methods...
  • Montjoie

  • Referenced in 1 article [sw18725]
  • equations solved by this code, come from the ”wave propagation” problems, particularly acoustic, electromagnetic, aeroacoustic...
  • mu-diff

  • Referenced in 4 articles [sw19503]
  • wave problem that finds great applications in many areas of physics and engineering (acoustics, electromagnetism ... mathematical formulation is based on the integral equations formulations. The finite-dimensional approximation technique ... diff. Since integral equations are used, many direct and inverse wave scattering problems...
  • 3DNSCBC

  • Referenced in 2 articles [sw09020]
  • characteristic formulation for the numerical treatment of acoustically reflecting no-slip wall boundary condition ... strategy for a slipping wall – the Euler equations natural wall boundary condition – when the viscosity ... pressure wave train in a 2D periodic channel, leading to standing acoustic waves. Long time...
  • NSCBC

  • Referenced in 2 articles [sw09021]
  • characteristic formulation for the numerical treatment of acoustically reflecting no-slip wall boundary condition ... strategy for a slipping wall – the Euler equations natural wall boundary condition – when the viscosity ... pressure wave train in a 2D periodic channel, leading to standing acoustic waves. Long time...
  • NSWIL

  • Referenced in 2 articles [sw09022]
  • characteristic formulation for the numerical treatment of acoustically reflecting no-slip wall boundary condition ... strategy for a slipping wall – the Euler equations natural wall boundary condition – when the viscosity ... pressure wave train in a 2D periodic channel, leading to standing acoustic waves. Long time...
  • ADOL-C

  • Referenced in 213 articles [sw00019]
  • ADOL-C: Automatic Differentiation of C/C++. We present...