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ORCIDSanderson L. Gonzaga de Oliveira
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2020 – today
- 2024
[j8]Sanderson L. Gonzaga de Oliveira
, M. I. Santana, Diego N. Brandão, C. Osthoff:
An OpenMP-based breadth-first search implementation using the bag data structure. Concurr. Comput. Pract. Exp. 36(16) (2024)- [c37]João Maues, Israel Mendonça, Glauco Amorim, Sanderson L. Gonzaga de Oliveira, Ana Isabel Pereira, Diego Brandão, Pedro Henrique González:
A Multi-centrality Heuristic for the Bandwidth Reduction Problem. ICCSA (1) 2024: 3-15 - [c36]Alexandre Augusto Alberto Moreira de Abreu, Sanderson L. Gonzaga de Oliveira:
Iterated Local Search with Tabu Search for the Bandwidth Reduction Problem in Graphs. ICCSA (1) 2024: 125-136 - 2023
- [c35]Manuel Freire, Raúl Marichal, Sanderson L. Gonzaga de Oliveira, Ernesto Dufrechou, Pablo Ezzatti:
Enhancing the Sparse Matrix Storage Using Reordering Techniques. CARLA 2023: 66-76 - [c34]Stiw Harrison Herrera Taipe, Thiago Teixeira, Weber Ribeiro, André Ramos Carneiro, Marcio Rentes Borges, Carla Osthoff, Frederico Luís Cabral, Sanderson L. Gonzaga de Oliveira:
An Evaluation of Direct and Indirect Memory Accesses in Fluid Flow Simulator. ICCSA (1) 2023: 38-54 - 2022
- [j7]Sanderson L. Gonzaga de Oliveira, Cláudio Carvalho:
Metaheuristic algorithms for the bandwidth reduction of large-scale matrices. J. Comb. Optim. 43(4): 727-784 (2022) - [c33]Frederico Luís Cabral, Carla Osthoff, Sanderson L. Gonzaga de Oliveira:
Reducing Cache Miss Rate Using Thread Oversubscription to Accelerate an MPI-OpenMP-Based 2-D Hopmoc Method. ICCSA (1) 2022: 337-353 - 2021
- [j6]Sanderson L. Gonzaga de Oliveira, Libério Martins Silva:
Low-cost heuristics for matrix bandwidth reduction combined with a Hill-Climbing strategy. RAIRO Oper. Res. 55(4): 2247-2264 (2021) - [c32]Diogo T. Robaina, Mauricio Kischinhevsky, Sanderson L. Gonzaga de Oliveira, Alexandre da Costa Sena, Mario João Junior:
A Computational Analysis of the Hopmoc Method Applied to the 2-D Advection-Diffusion and Burgers Equations. ICCSA (1) 2021: 111-120 - 2020
- [j5]Sanderson L. Gonzaga de Oliveira, Libério Martins Silva:
An ant colony hyperheuristic approach for matrix bandwidth reduction. Appl. Soft Comput. 94: 106434 (2020) - [j4]Frederico Luís Cabral, Sanderson L. Gonzaga de Oliveira, Carla Osthoff, Gabriel P. Costa, Diego N. Brandão, Mauricio Kischinhevsky:
An evaluation of MPI and OpenMP paradigms in finite-difference explicit methods for PDEs on shared-memory multi- and manycore systems. Concurr. Comput. Pract. Exp. 32(20) (2020) - [j3]Sanderson L. Gonzaga de Oliveira, Libério Martins Silva:
Evolving reordering algorithms using an ant colony hyperheuristic approach for accelerating the convergence of the ICCG method. Eng. Comput. 36(4): 1857-1873 (2020) - [c31]Diogo T. Robaina, Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky, Carla Osthoff, Alexandre da Costa Sena:
A Convergence Analysis of a Multistep Method Applied to an Advection-Diffusion Equation in 1-D. ICCSA (1) 2020: 3-18 - [c30]Sanderson L. Gonzaga de Oliveira, C. Carvalho, Carla Osthoff:
The Influence of Reordering Algorithms on the Convergence of a Preconditioned Restarted GMRES Method. ICCSA (1) 2020: 19-32 - [c29]Pedro Henrique González Silva, Diego N. Brandão, I. S. Morais, Sanderson L. Gonzaga de Oliveira:
A Biased Random-Key Genetic Algorithm for Bandwidth Reduction. ICCSA (1) 2020: 312-321 - [c28]Sanderson L. Gonzaga de Oliveira, Libério Martins Silva:
Experiments with pseudoperipheral vertex finders for heuristics for bandwidth reduction evolved by an ant colony hyperheuristic approach. SCCC 2020: 1-5
2010 – 2019
- 2019
- [c27]Sanderson L. Gonzaga de Oliveira, Alexandre Augusto Alberto Moreira de Abreu, Carla Osthoff, L. N. Henderson Guedes de Oliveira:
A Variant of the George-Liu Algorithm. ICCSA (1) 2019: 3-12 - [c26]Sanderson L. Gonzaga de Oliveira, Carla Osthoff, L. N. Henderson Guedes de Oliveira:
An Experimental Analysis of Heuristics for Profile Reduction. ICCSA (1) 2019: 25-36 - [c25]Sanderson L. Gonzaga de Oliveira, Cláudio Carvalho, Carla Osthoff:
The Effect of Symmetric Permutations on the Convergence of a Restarted GMRES Solver with ILU-Type Preconditioners. WSC 2019: 3219-3230 - [c24]Diogo T. Robaina, Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky, Carla Osthoff, Alexandre da Costa Sena:
Numerical Simulations of the 1-D Modified Burgers Equation. WSC 2019: 3231-3242 - 2018
- [c23]Frederico Luís Cabral, Carla Osthoff, Roberto Pinto Souto, Gabriel P. Costa, Sanderson L. Gonzaga de Oliveira, Diego N. Brandão, Mauricio Kischinhevsky:
Fine-Tuning an OpenMP-Based TVD-Hopmoc Method Using Intel® Parallel Studio XE Tools on Intel® Xeon® Architectures. CARLA 2018: 194-209 - [c22]Sanderson L. Gonzaga de Oliveira, Guilherme Oliveira Chagas, Diogo T. Robaina, Diego N. Brandão, Mauricio Kischinhevsky:
A Modified Bandwidth Reduction Heuristic Based on the WBRA and George-Liu Algorithm. ICCS (3) 2018: 416-424 - [c21]Sanderson L. Gonzaga de Oliveira, Diogo T. Robaina, Diego N. Brandão, Mauricio Kischinhevsky, Gabriel Oliveira:
An Experimental Assessment of Three Point-Insertion Sequences for 3-D Incremental Delaunay Tessellations. ICCS (1) 2018: 614-623 - [c20]Frederico Luís Cabral, Carla Osthoff, Gabriel P. Costa, Sanderson L. Gonzaga de Oliveira, Diego N. Brandão, Mauricio Kischinhevsky:
An OpenMP Implementation of the TVD-Hopmoc Method Based on a Synchronization Mechanism Using Locks Between Adjacent Threads on Xeon Phi (TM) Accelerators. ICCS (3) 2018: 701-707 - [c19]Sanderson L. Gonzaga de Oliveira, Guilherme Oliveira Chagas, Júnior Assis Barreto Bernardes, Diogo T. Robaina, Mauricio Kischinhevsky:
An Assessment of Reordering Algorithms to Speed Up the ICCG Method Applied to CFD Problems. ICCSA (1) 2018: 35-52 - [c18]Diego N. Brandão, Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky, Carla Osthoff, Frederico Luís Cabral:
A Total Variation Diminishing Hopmoc Scheme for Numerical Time Integration of Evolutionary Differential Equations. ICCSA (1) 2018: 53-66 - [c17]Sanderson L. Gonzaga de Oliveira, Alexandre Augusto Alberto Moreira de Abreu, Diogo T. Robaina, Mauricio Kischinhevsky:
Finding a Starting Vertex for the Reverse Cuthill-McKee Method for Bandwidth Reduction: A Comparative Analysis Using Asymmetric Matrices. ICCSA (1) 2018: 123-137 - [c16]Sanderson L. Gonzaga de Oliveira, Alexandre Augusto Alberto Moreira de Abreu:
An evaluation of pseudoperipheral vertex finders for the Reverse Cuthill-McKee method for bandwidth and profile reductions of symmetric matrices. SCCC 2018: 1-9 - [c15]Sanderson L. Gonzaga de Oliveira, Júnior Assis Barreto Bernardes, Alexandre Augusto Alberto Moreira de Abreu:
A variant of Snay's algorithm. SCCC 2018: 1-5 - [c14]Frederico Luís Cabral, Carla Osthoff, Roberto Pinto Souto, Gabriel P. Costa, Sanderson L. Gonzaga de Oliveira, Diego N. Brandão, Mauricio Kischinhevsky:
An Improved OpenMP Implementation of the TVD-Hopmoc Method Based on a Cluster of Points. VECPAR 2018: 132-145 - 2017
- [j2]Sanderson L. Gonzaga de Oliveira, Alexandre Augusto Alberto Moreira de Abreu, Diogo T. Robaina, Mauricio Kischinhevsky:
An evaluation of four reordering algorithms to reduce the computational cost of the Jacobi-preconditioned conjugate gradient method using high-precision arithmetic. Int. J. Bus. Intell. Data Min. 12(2): 190-209 (2017) - [c13]Sanderson L. Gonzaga de Oliveira, Guilherme Oliveira Chagas, Júnior Assis Barreto Bernardes:
An Analysis of Reordering Algorithms to Reduce the Computational Cost of the Jacobi-Preconditioned CG Solver Using High-Precision Arithmetic. ICCSA (1) 2017: 3-19 - [c12]Frederico Luís Cabral, Carla Osthoff, Gabriel P. Costa, Diego N. Brandão, Mauricio Kischinhevsky, Sanderson L. Gonzaga de Oliveira:
Tuning Up TVD HOPMOC Method on Intel MIC Xeon Phi Architectures with Intel Parallel Studio Tools. SBAC-PAD (Workshops) 2017: 19-24 - 2016
- [c11]Sanderson L. Gonzaga de Oliveira, Alexandre Augusto Alberto Moreira de Abreu, Diogo T. Robaina, Mauricio Kischinhevsky:
A New Heuristic for Bandwidth and Profile Reductions of Matrices Using a Self-organizing Map. ICCSA (1) 2016: 54-70 - 2015
- [c10]Guilherme Oliveira Chagas, Sanderson L. Gonzaga de Oliveira:
Metaheuristic-based Heuristics for Symmetric-matrix Bandwidth Reduction: A Systematic Review. ICCS 2015: 211-220 - [c9]Júnior Assis Barreto Bernardes, Sanderson L. Gonzaga de Oliveira:
A Systematic Review of Heuristics for Profile Reduction of Symmetric Matrices. ICCS 2015: 221-230 - [c8]Sanderson L. Gonzaga de Oliveira, Guilherme Oliveira Chagas:
Adaptive Mesh Refinement for Finite-volume Discretizations with Scalene Triangles. ICCS 2015: 239-245 - [c7]Sanderson L. Gonzaga de Oliveira, Frederico Santos de Oliveira, Guilherme Oliveira Chagas:
A Novel Approach to the Weighted Laplacian Formulation Applied to 2D Delaunay Triangulations. ICCSA (1) 2015: 502-515 - 2012
- [c6]Sanderson L. Gonzaga de Oliveira:
A Review on Delaunay Refinement Techniques. ICCSA (1) 2012: 172-187 - [c5]Sanderson L. Gonzaga de Oliveira:
An Overview of Procedures for Refining Triangulations. ICCSA (1) 2012: 198-213 - [c4]Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky:
Autonomous Leaves Graph Applied to the Simulation of the Boundary Layer around a Non-symmetric NACA Airfoil. ICCSA (1) 2012: 610-619 - 2010
- [c3]Diogo T. Robaina, Mauricio Kischinhevsky, Sanderson L. Gonzaga de Oliveira, Diego N. Brandão, Esteban Walter Gonzalez Clua, Anselmo Antunes Montenegro:
An adaptive graph for volumetric mesh visualization. ICCS 2010: 1747-1755
2000 – 2009
- 2009
- [j1]Simoni R. de Oliveira, Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky:
Convergence analysis of the Hopmoc method. Int. J. Comput. Math. 86(8): 1375-1393 (2009) - [c2]Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky:
Autonomous Leaves Graph Applied to the Boundary Layer Problem. ICCS (1) 2009: 560-569 - [c1]Diego N. Brandão, Sanderson L. Gonzaga de Oliveira, Mauricio Kischinhevsky:
Finite-Element Non-conforming h-Adaptive Strategy Based on Autonomous Leaves Graph. ICCS (1) 2009: 570-579
Coauthor Index
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last updated on 2024-08-23 19:24 CEST by the dblp team
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