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Computer physics communications

Showing results (21-30 of 50) with videos related to

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Computer Physics Communications|December 26, 2014
CrasyDSE: A framework for solving Dyson-Schwinger equationsMarkus Q Huber, Mario Mitter
Computer Physics Communications|November 12, 2019
Efficient sampling of spreading processes on complex networks using a composition and rejection algorithmGuillaume St-Onge, Jean-Gabriel Young, Laurent Hébert-Dufresne, et al.
Computer Physics Communications|December 4, 2018
A Framework for Comparing Vascular Hemodynamics at Different Points in TimeJ Gounley, M Vardhan, A Randles
Computer Physics Communications|March 15, 2021
Mi3-GPU: MCMC-based Inverse Ising Inference on GPUs for protein covariation analysisAllan Haldane, Ronald M Levy
Computer Physics Communications|June 25, 2021
MFC: An open-source high-order multi-component, multi-phase, and multi-scale compressible flow solverSpencer H Bryngelson, Kevin Schmidmayer, Vedran Coralic, et al.
Computer Physics Communications|January 1, 1987
An algorithm for a semiempirical nuclear fragmentation modelF F Badavi, L W Townsend, J W Wilson, et al.
Computer Physics Communications|May 17, 2011
Coarse-graining the electrostatic potential via distributed multipole expansionsApostol Gramada, Philip E Bourne
Computer Physics Communications|September 28, 2011
On the immersed interface method for solving time-domain Maxwell's equations in materials with curved dielectric interfacesShaozhong Deng
Computer Physics Communications|April 5, 2012
J Seebacher, A Kendl
Computer Physics Communications|December 6, 2011
HPAM: Hirshfeld Partitioned Atomic MultipolesDennis M Elking, Lalith Perera, Lee G Pedersen
Pageof 5

Showing results (21-30 of 50) with videos related to

Sort By:
Pageof 5
Computer Physics Communications|December 26, 2014
CrasyDSE: A framework for solving Dyson-Schwinger equationsMarkus Q Huber, Mario Mitter
Computer Physics Communications|November 12, 2019
Efficient sampling of spreading processes on complex networks using a composition and rejection algorithmGuillaume St-Onge, Jean-Gabriel Young, Laurent Hébert-Dufresne, et al.
Computer Physics Communications|December 4, 2018
A Framework for Comparing Vascular Hemodynamics at Different Points in TimeJ Gounley, M Vardhan, A Randles
Computer Physics Communications|March 15, 2021
Mi3-GPU: MCMC-based Inverse Ising Inference on GPUs for protein covariation analysisAllan Haldane, Ronald M Levy
Computer Physics Communications|June 25, 2021
MFC: An open-source high-order multi-component, multi-phase, and multi-scale compressible flow solverSpencer H Bryngelson, Kevin Schmidmayer, Vedran Coralic, et al.
Computer Physics Communications|January 1, 1987
An algorithm for a semiempirical nuclear fragmentation modelF F Badavi, L W Townsend, J W Wilson, et al.
Computer Physics Communications|May 17, 2011
Coarse-graining the electrostatic potential via distributed multipole expansionsApostol Gramada, Philip E Bourne
Computer Physics Communications|September 28, 2011
On the immersed interface method for solving time-domain Maxwell's equations in materials with curved dielectric interfacesShaozhong Deng
Computer Physics Communications|April 5, 2012
J Seebacher, A Kendl
Computer Physics Communications|December 6, 2011
HPAM: Hirshfeld Partitioned Atomic MultipolesDennis M Elking, Lalith Perera, Lee G Pedersen
Pageof 5