Quantum Monte Carlo on graphical processing units
10.1016/j.cpc.2007.03.004
Crossref journal-article
Elsevier BV
Computer Physics Communications (78)
Bibliography

Anderson, A. G., Goddard, W. A., & Schröder, P. (2007). Quantum Monte Carlo on graphical processing units. Computer Physics Communications, 177(3), 298–306.

Authors 3
  1. Amos G. Anderson (first)
  2. William A. Goddard (additional)
  3. Peter Schröder (additional)
References 44 Referenced 91
  1. {'volume': 'vol. 2', 'year': '2005', 'key': '10.1016/j.cpc.2007.03.004_bib001'} (2005)
  2. Z. Fan, F. Qiu, A. Kaufman, S. Yoakum-Stover, GPU cluster for high performance computing, in: Proc. of ACM/IEEE Superc. Conf., 2004, p. 47 (10.1109/SC.2004.26)
  3. 10.1016/j.cag.2006.02.016 / Comput. Graphics / A multigrid framework for real-time simulation of deformable bodies by Georgii (2006)
  4. D. Göddeke, R. Strzodka, S. Turek, Accelerating double precision fem simulations with GPUs, in: Proc. of ASIM 2005, 2005, pp. 139–144
  5. {'key': '10.1016/j.cpc.2007.03.004_bib005', 'series-title': 'Proc. of ACM/IEEE Superc. Conf., Washington, DC, USA', 'first-page': '3', 'article-title': 'Lu-GPU: Efficient algorithms for solving dense linear systems on graphics hardware', 'author': 'Galoppo', 'year': '2005'} / Proc. of ACM/IEEE Superc. Conf., Washington, DC, USA / Lu-GPU: Efficient algorithms for solving dense linear systems on graphics hardware by Galoppo (2005)
  6. nVidia, Compute unified device architecture, http://developer.nvidia.com/cuda
  7. {'key': '10.1016/j.cpc.2007.03.004_bib007', 'series-title': 'Proc. of ACM/IEEE Superc. Conf., Washington, DC, USA', 'article-title': 'A memory model for scientific algorithms on graphics processors', 'author': 'Govindaraju', 'year': '2006'} / Proc. of ACM/IEEE Superc. Conf., Washington, DC, USA / A memory model for scientific algorithms on graphics processors by Govindaraju (2006)
  8. C. Jiang, M. Snir, Automatic tuning matrix multiplication performance on graphics hardware, in: PACT'05, 2005, pp. 185–196 (10.1109/PACT.2005.10)
  9. K. Fatahalian, J. Sugerman, P. Hanrahan, Understanding the efficiency of GPU algorithms for matrix–matrix multiplication, in: Proc. of ACM/EG Conf. on Graph. HW, 2004, pp. 133–137 (10.1145/1058129.1058148)
  10. 10.1145/882262.882364 / ACM Trans. Graph. / Sparse matrix solvers on the GPU: conjugate gradients and multigrid by Bolz (2003)
  11. J.D. Hall, N.A. Carr, J.C. Hart, Cache and bandwidth aware matrix multiplication on the GPU, Technical Report UIUCDCS-R-2003-2328, University of Illinois, 2003
  12. 10.1145/882262.882363 / ACM Trans. Graph. / Linear algebra operators for GPU implementation of numerical algorithms by Krüger (2003)
  13. Á. Moravánszky, Dense matrix algebra on the GPU, NovodeX AG, 2003
  14. S. Larsen, D. McAllister, Fast matrix multiplies using graphics hardware, 2001 (10.1145/582034.582089)
  15. N. Goodnight, C. Woolley, G. Lewin, D. Luebke, G. Humphreys, A multigrid solver for boundary value problems using programmable graphics hardware, in: Proc. of ACM/EG Conf. on Graph. HW, 2003, pp. 102–111
  16. F. Xu, K. Mueller, Accelerating popular tomographic reconstruction algorithms on commodity PC graphics hardware, in: Proc. of ACM/IEEE Superc. Conf., vol. 52, 2005, pp. 654–663 (10.1109/TNS.2005.851398)
  17. P.A. Heng, J.Q. Wang, T.T. Wong, C.S. Leung, Discrete wavelet transform on GPU, in: ACM Workshop on GPGPU, 2004
  18. K. Moreland, E. Angel, The FFT on a GPU, in: Proc. of ACM/EG Conf. on Graph. HW, 2003, pp. 112–119
  19. {'issue': '4738', 'key': '10.1016/j.cpc.2007.03.004_bib019', 'first-page': '555', 'volume': '231', 'author': 'Ceperley', 'year': '1986', 'journal-title': 'Quantum Monte Carlo, Science'} / Quantum Monte Carlo, Science by Ceperley (1986)
  20. 10.1111/j.1467-8659.2007.01012.x / Computer Graphics Forum / A survey of general-purpose computation on graphics hardware by Owens (2007)
  21. D. Luebke, M. Harris, J. Krüger, T. Purcell, N. Govindaraju, I. Buck, C. Woolley, A. Lefohn, GPGPU: General purpose computation on graphics hardware, in: Course Notes, 2004 (10.1145/1103900.1103933)
  22. I. Buck, T. Foley, D. Horn, J. Sugerman, K. Fatahalian, M. Houston, P. Hanrahan, Brook for GPUs: Stream computing on graphics hardware, in: Proc. of ACM SIGGRAPH, 2004 (10.1145/1186562.1015800)
  23. {'year': '2004', 'series-title': 'Metaprogramming GPUs with Sh', 'author': 'McCool', 'key': '10.1016/j.cpc.2007.03.004_bib023'} / Metaprogramming GPUs with Sh by McCool (2004)
  24. 10.1063/1.443766 / J. Chem. Phys. / Fixed-node Quantum Monte Carlo for molecules by Reynolds (1982)
  25. 10.1063/1.1699114 / J. Chem. Phys. / Equation of state calculations by fast computing machines by Metropolis (1953)
  26. 10.1063/1.465195 / J. Chem. Phys. / A diffusion Monte Carlo algorithm with very small time-step errors by Umrigar (1993)
  27. D.R. Kent IV, M.T. Feldmann, D.R. Fisher, A.G. Anderson, QMcBeaver v20051021©, 2001–2007
  28. 10.1103/PhysRevLett.87.246406 / Phys. Rev. Lett. / Linear-scaling quantum Monte Carlo calculations by Williamson (2001)
  29. 10.1002/jcc.20205 / J. Comput. Chem. / A sparse algorithm for the evaluation of the local energy in quantum Monte Carlo by Aspuru-Guzik (2005)
  30. 10.1016/S0167-8191(00)00087-9 / Parallel Comput. / Automated empirical optimization of software and the ATLAS project by Whaley (2001)
  31. R.C. Whaley, J.J. Dongarra, Automatically tuned linear algebra software, in: Proc. of ACM/IEEE Superc. Conf., 1998 (10.1109/SC.1998.10004)
  32. 10.1063/1.466621 / J. Chem. Phys. / A method of generating an effective orbital set for configuration interaction calculations by Huzinaga (1994)
  33. 10.1002/jcc.540141112 / J. Comput. Chem. / General atomic and molecular electronic structure system by Schmidt (1993)
  34. 10.1142/S0218301306004648 / Int. J. Modern Phys. / Experiment and theory in computations of the He atom ground state by Schwartz (2006)
  35. 10.1063/1.470645 / J. Chem. Phys. / Gaussian basis sets for use in correlated molecular calculations. V. Core-valence basis sets for boron through neon by Woon (1995)
  36. 10.1063/1.476449 / J. Chem. Phys. / In pursuit of the ab initio limit for conformational energy prototypes by Csaszar (1998)
  37. K.E. Hillesland, A. Lastra, GPU floating-point paranoia, in: GP2, 2004, p. C-8
  38. 10.1145/363707.363723 / Comm. ACM / Pracniques: Further remarks on reducing truncation errors by Kahan (1965)
  39. 10.1145/103162.103163 / ACM Comput. Surv. / What every computer scientist should know about floating-point arithmetic by Goldberg (1991)
  40. {'key': '10.1016/j.cpc.2007.03.004_bib040', 'article-title': 'Seminumerical Algorithms', 'volume': 'vol. 2', 'author': 'Knuth', 'year': '1997'} / Seminumerical Algorithms by Knuth (1997)
  41. 10.1145/980175.980177 / SIGSAM Bull. / A comparison of methods for accurate summation by McNamee (2004)
  42. 10.1007/BF01397083 / Numer. Math. / A floating point technique for extending the available precision by Dekker (1971)
  43. 10.1063/1.1646356 / J. Chem. Phys. / Quantum Monte Carlo for electronic excitations of free-base porphyrin by Aspuru-Guzik (2004)
  44. 10.1145/42411.42415 / Comm. ACM / Reevaluating Amdahl's law by Gustafson (1988)
Dates
Type When
Created 18 years, 4 months ago (April 2, 2007, 7:12 a.m.)
Deposited 7 months, 2 weeks ago (Jan. 15, 2025, 6:18 a.m.)
Indexed 5 months, 1 week ago (March 19, 2025, 8:10 a.m.)
Issued 18 years, 1 month ago (Aug. 1, 2007)
Published 18 years, 1 month ago (Aug. 1, 2007)
Published Print 18 years, 1 month ago (Aug. 1, 2007)
Funders 0

None

@article{Anderson_2007, title={Quantum Monte Carlo on graphical processing units}, volume={177}, ISSN={0010-4655}, url={http://dx.doi.org/10.1016/j.cpc.2007.03.004}, DOI={10.1016/j.cpc.2007.03.004}, number={3}, journal={Computer Physics Communications}, publisher={Elsevier BV}, author={Anderson, Amos G. and Goddard, William A. and Schröder, Peter}, year={2007}, month=aug, pages={298–306} }