• No se han encontrado resultados

Efficiency analysis of a physical problem: different parallel computational approaches for a dynamical integrator evolution

N/A
N/A
Protected

Academic year: 2017

Share "Efficiency analysis of a physical problem: different parallel computational approaches for a dynamical integrator evolution"

Copied!
11
0
0

Texto completo

Loading

Figure

Fig. 1. The major steps from problem to a parallel computational solution.
Figure 2Fig. 2. Schematic diagram of the physical model
Fig. 3. OpenMP pseudocode program
Fig. 4. High Level Structure of CUDA program.
+3

Referencias

Documento similar

BASE SHADOW DETECTION ALGORITHM The shadow detection algorithm described in [4] (from now on base algorithm) is based on the application of two independent shadow detectors

In Section 3, for any 2 × 2 dilation

The paper is organized as follows: section 2 presents an overview of our system; section 3 describes the extensions added to show different detail levels (an example of an

The aim of this study is to evaluate the effectiveness and efficiency of acenocoumarol dosing algorithm developed by our group, and that include demographic, clinical and

These values show the computational effort needed in the calculation of the Green’s functions of the second problem, due to the electrically large separation of the parallel

For this work we have implemented three algorithms: algorithm A, for the estimation of the global alignment with k differences, based on dynamic programming; algorithm B, for

No obstante, como esta enfermedad afecta a cada persona de manera diferente, no todas las opciones de cuidado y tratamiento pueden ser apropiadas para cada individuo.. La forma

For a given problem size, as we increase the number of processing elements, the overall efficiency of the parallel system goes down for all systems. For some systems, the