The PyWENO project provides a set of open source tools for constructing high-order Weighted Essentially Non-oscillatory (WENO) methods and performing high-order WENO reconstructions.
Keywords for this software
References in zbMATH (referenced in 8 articles )
Showing results 1 to 8 of 8.
- Garcia, D.; Ghommem, M.; Collier, N.; Varga, B. O. N.; Calo, V. M.: PyFly: a fast, portable aerodynamics simulator (2018)
- Hadjimichael, Yiannis; Ketcheson, David I.; Lóczi, Lajos; Németh, Adrián: Strong stability preserving explicit linear multistep methods with variable step size (2016)
- Lemoine, Grady I.: Three-dimensional mapped-grid finite volume modeling of poroelastic-fluid wave propagation (2016)
- Mortensen, Mikael; Langtangen, Hans Petter: High performance python for direct numerical simulations of turbulent flows (2016)
- Otte, Philipp; Frank, Martin: Derivation and analysis of lattice Boltzmann schemes for the linearized Euler equations (2016)
- Quezada de Luna, Manuel; Ketcheson, David I.: Numerical simulation of cylindrical solitary waves in periodic media (2014)
- Shyue, Keh-Ming; Xiao, Feng: An Eulerian interface sharpening algorithm for compressible two-phase flow: the algebraic THINC approach (2014)
- Ketcheson, David I.; Mandli, Kyle; Ahmadia, Aron J.; Alghamdi, Amal; De Luna, Manuel Quezada; Parsani, Matteo; Knepley, Matthew G.; Emmett, Matthew: \textttPyclaw: accessible, extensible, scalable tools for wave propagation problems (2012)