Results 101 to 110 of about 20,976 (198)

SINGULARITIES OF HYPERBOLIC PDEs IN TWO COMPLEX VARIABLES

Computers & Mathematics with Applications, 1986
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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A New Efficient Explicit Deferred Correction Framework: Analysis and Applications to Hyperbolic PDEs and Adaptivity. [PDF]

Commun Appl Math Comput
Micalizzi L, Torlo D.
europepmc   +1 more source

Stochastic and Statistical Analysis of Cnoidal, Snoidal, Dnoidal, Hyperbolic, Trigonometric and Exponential Wave Solutions of a Coupled Volatility Option-Pricing System. [PDF]

Entropy (Basel)
Abdalgadir LM, Ahmad S, Youniso B, Aldwoah K.   +3 more
europepmc   +1 more source

Solving Hyperbolic PDE Systems with ExaHyPE [PDF]

, 2019
We present latest features and results for ExaHyPE, an engine to solve hyperbolic PDE systems. ExaHyPE employs high-order discontinuous Galerkin with ADER time stepping and a-posteriori Finite-Volume limiting. It builds on the Peano framework, which features tree-structured Cartesian meshes and shared- and distributed-memory parallelism using MPI and ...
openaire  

Exact soliton, lump, and breather solutions of the (3 + 1)-dimensional Jimbo-Miwa equation via the bilinear neural network method. [PDF]

Sci Rep
Hussein HH, Mekawey H, Elsheikh A.
europepmc   +1 more source

Physics-informed neural network with weighted loss and hard constraints for hyperbolic conservation laws. [PDF]

Sci Rep
Ghoreishi MS, Naderan H.
europepmc   +1 more source

Complex soliton wave patterns of Gross-Pitaevskii systems: application in quantum and optical engineering. [PDF]

Sci Rep
Bilal M, Alawaideh YM, Rehman SU, Popa IL, Al-Khamiseh BM, Ghannam H.   +5 more
europepmc   +1 more source

Hamiltonian simulation for nonlinear partial differential equation by Schrödingerization. [PDF]

Sci Rep
Sasaki S, Endo K, Muramatsu M.
europepmc   +1 more source

ExaHyPE, an Exascale Hyperbolic PDE Engine [PDF]

, 2016
In this talk the use of code generation to improve the performance and the energy efficiency of the solver engine ExaHyPE is discussed. ExaHyPE is an Horizon 2020 EU project to develop a high-performance engine to solve hyperbolic systems of PDEs using the high-order discontinuous Galerkin finite element method.
openaire  

Artificial neural network paradigm of magneto-thermal behavior in tangent hyperbolic hybrid-nanofluid flow. [PDF]

Sci Rep
Athar T, Qureshi H, Muhammad T.
europepmc   +1 more source