Julio César Momente scite author profile

Julio César Momente

5Publications

7Citation Statements Received

64Citation Statements Given

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Affiliations

Universidade Estadual Paulista (Unesp), Faculdade de Medicina de São José do Rio Preto

Publications

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An Efficient Parallel Algorithm for Multiple Sequence Similarities Calculation Using a Low Complexity Method

Marucci

Zafalon

Momente

et al. 2014

BioMed Research International

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With the advance of genomic researches, the number of sequences involved in comparative methods has grown immensely. Among them, there are methods for similarities calculation, which are used by many bioinformatics applications. Due the huge amount of data, the union of low complexity methods with the use of parallel computing is becoming desirable. The k-mers counting is a very efficient method with good biological results. In this work, the development of a parallel algorithm for multiple sequence similarities calculation using the k-mers counting method is proposed. Tests show that the algorithm presents a very good scalability and a nearly linear speedup. For 14 nodes was obtained 12x speedup. This algorithm can be used in the parallelization of some multiple sequence alignment tools, such as MAFFT and MUSCLE.

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Free Tools and Strategies for the Generation of 3D Finite Element Meshes: Modeling of the Cardiac Structures

Pavarino

Neves

Machado

et al. 2013

International Journal of Biomedical Imaging

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The Finite Element Method is a well-known technique, being extensively applied in different areas. Studies using the Finite Element Method (FEM) are targeted to improve cardiac ablation procedures. For such simulations, the finite element meshes should consider the size and histological features of the target structures. However, it is possible to verify that some methods or tools used to generate meshes of human body structures are still limited, due to nondetailed models, nontrivial preprocessing, or mainly limitation in the use condition. In this paper, alternatives are demonstrated to solid modeling and automatic generation of highly refined tetrahedral meshes, with quality compatible with other studies focused on mesh generation. The innovations presented here are strategies to integrate Open Source Software (OSS). The chosen techniques and strategies are presented and discussed, considering cardiac structures as a first application context.

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Three-dimensional modeling and highly refined mesh generation of the aorta artery and its tunics

Cazotto

Neves

Machado

et al. 2013

J. Phys.: Conf. Ser.

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Delaunay Tetrahedralization of the Heart Based on Integration of Open Source Codes

Pavarino

Neves

Machado

et al. 2014

J. Phys.: Conf. Ser.

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Improvements in the score matrix calculation method using parallel score estimating algorithm

Zafalon¹,

Marucci²,

Momente³

et al. 2013

JBPC

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The increasing amount of sequences stored in genomic databases has become unfeasible to the sequential analysis. Then, the parallel computing brought its power to the Bioinformatics through parallel algorithms to align and analyze the sequences, providing improvements mainly in the running time of these algorithms. In many situations, the parallel strategy contributes to reducing the computational complexity of the big problems. This work shows some results obtained by an implementation of a parallel score estimating technique for the score matrix calculation stage, which is the first stage of a progressive multiple sequence alignment. The performance and quality of the parallel score estimating are compared with the results of a dynamic programming approach also implemented in parallel. This comparison shows a significant reduction of running time. Moreover, the quality of the final alignment, using the new strategy, is analyzed and compared with the quality of the approach with dynamic programming.

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