Enhanced computation method of topological smoothing on shared memory parallel machines
March 30, 2016 Β· Declared Dead Β· π Journal of Mathematical Imaging and Vision
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Authors
Ramzi Mahmoudi, Mohamed Akil
arXiv ID
1603.09176
Category
cs.DC: Distributed Computing
Citations
116
Venue
Journal of Mathematical Imaging and Vision
Last Checked
4 months ago
Abstract
To prepare images for better segmentation, we need preprocessing applications, such as smoothing, to reduce noise. In this paper, we present an enhanced computation method for smoothing 2D object in binary case. Unlike existing approaches, proposed method provides a parallel computation and better memory management, while preserving the topology (number of connected components) of the original image by using homotopic transformations defined in the framework of digital topology. We introduce an adapted parallelization strategy called split, distribute and merge (SDM) strategy which allows efficient parallelization of a large class of topological operators. To achieve a good speedup and better memory allocation, we cared about task scheduling and managing. Distributed work during smoothing process is done by a variable number of threads. Tests on 2D grayscale image (512*512), using shared memory parallel machine (SMPM) with 8 CPU cores (2 Xeon E5405 running at frequency of 2 GHz), showed an enhancement of 5.2 with cache success rate of 70%.
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