default search action
Computer Physics Communications, Volume 234
Volume 234, January 2019
- Peter Donnel, Xavier Garbet, Yanick Sarazin, Virginie Grandgirard, Yuuichi Asahi, Nicolas Bouzat, E. Caschera, Guilhem Dif-Pradalier, Charles Ehrlacher, Philippe Ghendrih, C. Gillot, Guillaume Latu, Chantal Passeron:
A multi-species collisional operator for full-F global gyrokinetics codes: Numerical aspects and verification with the GYSELA code. 1-13 - Minh Tuan Ho, Lianhua Zhu, Lei Wu, Peng Wang, Zhaoli Guo, Zhi-Hui Li, Yonghao Zhang:
A multi-level parallel solver for rarefied gas flows in porous media. 14-25 - Ying Wei, Chao Yang, Jizu Huang:
Parallel energy-stable phase field crystal simulations based on domain decomposition methods. 26-39 - Alain Cartalade, Amina Younsi, Marie-Christine Néel:
Multiple-Relaxation-Time Lattice Boltzmann scheme for fractional advection-diffusion equation. 40-54 - Winfried Auzinger, Iva Brezinová, Harald Hofstätter, Othmar Koch, Michael Quell:
Practical splitting methods for the adaptive integration of nonlinear evolution equations. Part II: Comparisons of local error estimation and step-selection strategies for nonlinear Schrödinger and wave equations. 55-71 - Lin Fu, Zhe Ji:
An optimal particle setup method with Centroidal Voronoi Particle dynamics. 72-92 - Laurent Chiron, Matthieu De Leffe, Guillaume Oger, David Le Touzé:
Fast and accurate SPH modelling of 3D complex wall boundaries in viscous and non viscous flows. 93-111 - M. S. Egorova, S. A. Dyachkov, A. N. Parshikov, V. V. Zhakhovsky:
Parallel SPH modeling using dynamic domain decomposition and load balancing displacement of Voronoi subdomains. 112-125 - Cesar F. Clauser, R. Farengo, H. E. Ferrari:
FOCUS: A full-orbit CUDA solver for particle simulations in magnetized plasmas. 126-136 - Giovanni Di Ilio, D. Chiappini, Stefano Ubertini, Gino Bella, Sauro Succi:
A moving-grid approach for fluid-structure interaction problems with hybrid lattice Boltzmann method. 137-145 - Zhenping Chen, Jinsen Xie, Qian Guo, Qin Xie, Zijing Liu, Wenjie Zeng, Chao Xie, Pengcheng Zhao, Tao Yu:
Physics-oriented optimization strategy for the energy lookup algorithm in continuous energy Monte Carlo neutron transport simulation. 146-158 - Ting Lan, Jian Liu, Hong Qin, Lin Li Xu:
Time-domain global similarity method for automatic data cleaning for multi-channel measurement systems in magnetic confinement fusion devices. 159-166 - Zhengqi He, M. Davidsaver, K. Fukushima, G. Shen, M. Ikegami, J. Bengtsson:
The fast linear accelerator modeling engine for FRIB online model service. 167-178 - Andrea Bussone, Michele Della Morte, Vincent Drach, Claudio Pica:
Tuning the hybrid Monte Carlo algorithm using molecular dynamics forces' variances. 179-187 - Edmond Levy:
Decay chain differential equations: Solutions through matrix analysis. 188-194 - Arieh Iserles, Karolina Kropielnicka, Pranav Singh:
Compact schemes for laser-matter interaction in Schrödinger equation based on effective splittings of Magnus expansion. 195-201
- Vladimir P. Gerdt, Markus Lange-Hegermann, Daniel Robertz:
The MAPLE package TDDS for computing Thomas decompositions of systems of nonlinear PDEs. 202-215 - Simon Reinhardt, Christian Butschkow, Stefan Geißler, Alois Dirnaichner, Florian Olbrich, C. Lane, D. Schröer, Andreas K. Hüttel:
Lab: : Measurement - A portable and extensible framework for controlling lab equipment and conducting measurements. 216-222 - Roman Vetter, Jürgen O. Schumacher:
Free open reference implementation of a two-phase PEM fuel cell model. 223-234 - Felix Kallenborn, Christian Hundt, Sebastian Böser, Bertil Schmidt:
Massively parallel computation of atmospheric neutrino oscillations on CUDA-enabled accelerators. 235-244 - Henryk Czyz, Patrycja Kisza:
EKHARA 3.0: An update of the EKHARA Monte Carlo event generator. 245-255 - Isabell Engeln, Margarete Mühlleitner, Jonas Wittbrodt:
N2HDECAY: Higgs boson decays in the different phases of the N2HDM. 256-262 - Romain Garnier:
Dual vibration configuration interaction (DVCI). An efficient factorization of molecular Hamiltonian for high performance infrared spectrum computation. 263-277 - Phanish Suryanarayana, Phanisri P. Pratapa, John E. Pask:
Alternating Anderson-Richardson method: An efficient alternative to preconditioned Krylov methods for large, sparse linear systems. 278-285 - Evangelos Voyiatzis, Michael C. Böhm:
An open-source implementation of a quasi harmonic approach to compute the intramolecular entropy of particle systems. 286-293 - Barbara De Palma, Marco Erba, Luca Mantovani, Nicola Mosco:
A Python program for the implementation of the Γ-method for Monte Carlo simulations. 294-301 - J. Avellar, M. S. Cardoso, L. G. S. Duarte, L. A. C. P. da Mota:
Dealing with rational second order ordinary differential equations where both Darboux and Lie find it difficult: The S-function method. 302-314
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.