@InProceedings{ScheideggerCombCunh:2004:NaPrGr,
author = "Scheidegger, Carlos Eduardo and Comba, Jo{\~a}o Luiz Dihl and
Cunha, Rudnei Dias da",
affiliation = "Instituto de Inform{\'a}tica, UFRGS (Universidade Federal do Rio
Grande do Sul)",
title = "Navier-Stokes on Programmable Graphics Hardware using SMAC",
booktitle = "Proceedings...",
year = "2004",
editor = "Ara{\'u}jo, Arnaldo de Albuquerque and Comba, Jo{\~a}o Luiz Dihl
and Navazo, Isabel and Sousa, Ant{\^o}nio Augusto de",
organization = "Brazilian Symposium on Computer Graphics and Image Processing, 17.
(SIBGRAPI) - Ibero-American Symposium on Computer Graphics, 2
(SIACG)",
publisher = "IEEE Computer Society",
address = "Los Alamitos",
keywords = "Graphics Hardware, Navier-Stokes, SMAC.",
abstract = "Modern programmable graphics hardware offers suffi- cient
computing power to suggest the implementation of traditional
algorithms on the graphics processor. This paper describes a
complete implementation of a standard technique to solve the
incompressible Navier-Stokes fluid equations running entirely on
the GPU: the SMAC (Simpli- fied Marker And Cell) method. This
method is widely used in engineering applications. The described
implementation works with general rectangular domains, with or
without obstacles, and with a variety of boundary conditions.
Furthermore, we show that our implementation is about sixteen
times faster than a reference CPU implementation running on
similar cost hardware. Finally, we discuss simple extensions to
the method to deal with more general situations, such as free
boundary-value problems and threedimensional domains.",
conference-location = "Curitiba, PR, Brazil",
conference-year = "17-20 Oct. 2004",
doi = "10.1109/SIBGRA.2004.1352974",
url = "http://dx.doi.org/10.1109/SIBGRA.2004.1352974",
language = "en",
ibi = "6qtX3pFwXQZeBBx/D8e6p",
url = "http://urlib.net/ibi/6qtX3pFwXQZeBBx/D8e6p",
targetfile = "smac.pdf",
urlaccessdate = "2024, Apr. 30"
}