


default search action
Computer Physics Communications, Volume 233
Volume 233, December 2018
- Mai O. Sallam
, Guy A. E. Vandenbosch, Georges G. E. Gielen, Ezzeldin A. Soliman
:
Generalized mode solver for plasmonic transmission lines embedded in layered media based on the Method of Moments. 1-15 - Xiaohu Guo
, Benedict D. Rogers
, Steven J. Lind
, Peter Stansby:
New massively parallel scheme for Incompressible Smoothed Particle Hydrodynamics (ISPH) for highly nonlinear and distorted flow. 16-28 - Michael A. Clark
, Alexei Strelchenko, Alejandro Vaquero Avilés Casco
, Mathias Wagner, Evan Weinberg:
Pushing memory bandwidth limitations through efficient implementations of Block-Krylov space solvers on GPUs. 29-40 - T. M. Solovjeva, A. G. Soloviev:
Comparative study of the effectiveness of PROOF with other parallelization methods implemented in the ROOT software package. 41-43 - Zongrui Pei
:
DIST: A dislocation-simulation toolkit. 44-50 - Junpu Li
, Wen Chen, Qing-Hua Qin
, Zhuojia Fu:
A modified dual-level fast multipole boundary element method for large-scale three-dimensional potential problems. 51-61 - Attila Laszlo Boer:
Implementation of the replica-exchange Wang-Landau sampling on Graphics Processing Units (GPUs). 62-66 - Guangpu Zhu
, Jisheng Kou, Shuyu Sun
, Jun Yao
, Aifen Li:
Decoupled, energy stable schemes for a phase-field surfactant model. 67-77 - Xuecheng Shao
, Qiang Xu
, Sheng Wang, Jian Lv, Yanchao Wang
, Yanming Ma:
Large-scale ab initio simulations for periodic system. 78-83
- Wesley J. M. Ridgway, Alexei F. Cheviakov:
An iterative procedure for finding locally and globally optimal arrangements of particles on the unit sphere. 84-109 - Kanchan Sarkar
, N. A. W. Holzwarth, Renata M. Wentzcovitch:
EPAW-1.0 code for evolutionary optimization of PAW datasets especially for high-pressure applications. 110-122 - William Cunningham
, Dmitri V. Krioukov:
Causal set generator and action computer. 123-133 - Shinya Kanemura, Mariko Kikuchi, Kodai Sakurai
, Kei Yagyu:
H-COUP: A program for one-loop corrected Higgs boson couplings in non-minimal Higgs sectors. 134-144 - V. V. Sargsyan, S. Yu. Grigoryev, Gurgen G. Adamian, Nikolay V. Antonenko
:
Capture cross section with quantum diffusion approach. 145-155 - Jannis Teunissen
, Ute Ebert
:
Afivo: A framework for quadtree/octree AMR with shared-memory parallelization and geometric multigrid methods. 156-166 - Peter R. Wiecha
:
pyGDM - A python toolkit for full-field electro-dynamical simulations and evolutionary optimization of nanostructures. 167-192 - Niki Andreas Lopi, Freddie D. Witherden, Antony Jameson, Peter E. Vincent:
A high-order cross-platform incompressible Navier-Stokes solver via artificial compressibility with application to a turbulent jet. 193-205 - Zdenek Martinec, David Einspigel
:
SHAVEL: A program for the spherical harmonic analysis of a horizontal vector field sampled in an equiangular grid on a sphere. 206-214 - Gökhan Ünel, Sezen Sekmen
:
CutLang: A Particle Physics Analysis Description Language and Runtime Interpreter. 215-236 - Rosa Consiglio, P. F. de Salas
, Giuseppe Mangano, Gennaro Miele, Sergio Pastorello
, Ofelia Pisanti
:
PArthENoPE reloaded. 237-242 - Falko Dulat, Achilleas Lazopoulos, Bernhard Mistlberger
:
iHixs 2 - Inclusive Higgs cross sections. 243-260 - Sudipta Kundu, Satadeep Bhattacharjee
, Seung-Cheol Lee, Manish Jain
:
PASTA: Python Algorithms for Searching Transition stAtes. 261-268
- Kasper J. Larsen, Robbert Rietkerk:
MultivariateResidues: A Mathematica package for computing multivariate residues. 269-270

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.