Add to ORKGEl alto paralelismo y el bajo costo de las unidades de procesamiento gráfico (GPU) han atraído el interés de científicos e ingenieros que requieren una alta potencia computacional con una modesta inversión. Este trabajo explora el uso de una GPU en la solución del problema de flujo de la cavidad 2D impulsada por la tapa utilizando la formulación de presión-velocidad para números de Reynolds hasta 10,000 y pasando a un esquema de diferencias finitas de cuarto orden para la discretización espacial. Los resultados mostraron una buena concordancia con los reportados en la literatura. El solucionador se implementó tanto en la CPU como en la GPU para comparar su rendimiento, con lo cual este último fue setenta veces más rápido.The high parallelis...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
A graphics processing unit (GPU) is utilized to apply the direct-forcing immersed boundary method. T...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
This paper presents a broad account of the lid-driven cavity flow problem which is an important benc...
AbstractThis paper presents a broad account of the lid-driven cavity flow problem which is an import...
Abstract. Lattice Boltzmann Method (LBM) is a computational technique used to solve transport proble...
In this work, numerical solutions of the two dimensional time dependent incompress-ible flow, in a d...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
<p>Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU versi...
Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU version ...
<p>Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU versi...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
A graphics processing unit (GPU) is utilized to apply the direct-forcing immersed boundary method. T...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...
This paper presents a broad account of the lid-driven cavity flow problem which is an important benc...
AbstractThis paper presents a broad account of the lid-driven cavity flow problem which is an import...
Abstract. Lattice Boltzmann Method (LBM) is a computational technique used to solve transport proble...
In this work, numerical solutions of the two dimensional time dependent incompress-ible flow, in a d...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
<p>Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU versi...
Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU version ...
<p>Solves lid-driven cavity problem using finite difference method on GPU, with equivalent CPU versi...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
A graphics processing unit (GPU) is utilized to apply the direct-forcing immersed boundary method. T...
In this work, computer simulation results of steady incompressible flow in a 2-D square lid-driven c...