Publications
P-glycoprotein activity in human Caucasian male lymphocytes does not follow its increased expression during aging. Cytometry Part A. 2011;79 A:912-919.Edit
Time-dependent problems for a wedge via Kontorovich-Lebedev's transform. Bull. Malays. Math. Sci. Soc. (2). 2014;37:671-680.Edit
Stochastic Runge–Kutta Schemes for Discretization of Hysteretic Models. Vol Recent Developments in Modeling and Applications in Statistics, Studies in Theoretical and Applied Statistics Springer 2013.Edit
Estimation of the maximum displacement response in engineering structures with linear behaviour. In: LinStat 2010. Portugal, Tomar; 2010. Edit
Generalized Krein parameters of strongly regular graphs. Applied Mathematics. 2015;6:37-45.Edit
A Jacobi-Davidson type method with a correction equation tailored for integral operators. Numerical Algorithms. 2013;64:85-103.Edit
Data-sparse approximation on the computation of a weakly singular Fredholm equation: A stellar radiative transfer application. Applied Numerical Mathematics. 2017;114:55-62.
Performance Evaluation of a Parallel Algorithm for a Radiative Transfer Problem. In: Dongarra J, Madsen K, Waśniewski J, editors. Applied Parallel Computing. State of the Art in Scientific Computing: 7th International Workshop, PARA 2004, Lyngby, Denmark, June 20-23, 2004. Revised Selected Papers. Vol 3732. Springer Berlin Heidelberg; 2006. 8. p. 864-871p. (Lecture Notes in Computer Science; vol 3732).Edit
Integral Operator Spectral Computations using PETSc/SLEPc libraries. In: Proenca A, Pina A, Tobio J.G, Ribeiro L, editors. IBERGRID: 4th Iberian Grid Infrastructure Conference Proceedings.; 2010. 3. p. 395-403p. Edit
A Parallel Code for Integral Equations on a Cluster of Computers. In: Constanda C, Largillier A., Ahues M, editors. Integral Methods in Science and Engineering: Analytic and Numerical Techniques. Birkhäuser Boston; 2004. 2. p. 261-266p. Edit
[2010-32] Comparison of two Di fferent Discretizations for Spectral Computations for Integral Operators .Edit
Preconditioned iterative methods for coupled discretizations of fluid flow problems. IMA Journal of Numerical Analysis. 1998;18:385-397.
Spectral Lanczos’ tau method for systems of nonlinear integro-differential equations. Vol Integral Methods in Science and Engineering Springer 2017.Edit
High-Performance Computing for Spectral Approximations. In: Constanda C, Pérez M.E., editors. Integral Methods in Science and Engineering, Volume 2: Computational Aspects. Birkhäuser Boston; 2010. 3. p. 351-360p. Edit
Experiments with GPU-Acceleration for Solving a Radiative Transfer Problem. In: LNCS.; 2014. 5. p. 550-559p. Edit
Nonoverlapping Domain Decomposition Applied to a Computational Fluid Mechanics Code. In: Amestoy PR, Berger P, Daydé M, Ruiz D, Duff I, Frayssé V et al., editors. Euro-Par'99 Parallel Processing: 5th International Euro-Par Conference Toulouse, France, August 31 – September 3, 1999 Proceedings. Vol 1685. Springer Berlin Heidelberg; 1999. 6. p. 608-612p. (Lecture Notes in Computer Science; vol 1685).Edit
Experiments with GPU-Acceleration for Solving a Radiative Transfer Problem. In: Murgante B, Misra S, Rocha AMaria AC, Torre C, Rocha JG, Falcão MIrene et al., editors. Computational Science and Its Applications ICCSA 2014. Vol 8582. Springer International Publishing; 2014. 5. p. 550-559p. (Lecture Notes in Computer Science; vol 8582).Edit
Comparison of two discretizations for spectral computations for integral operators. Int. J. Pure Appl. Math.. 2011;71:261-270.Edit
Columnwise block LU factorization using BLAS kernels on VAX 6520/2VP. Computing Systems in Engineering. 1995;6:423-429.
Parallel Eigensolvers for a Discretized Radiative Transfer Problem. In: Palma JMLaginha, Amestoy PR, Daydé M, Mattoso M, Lopes JCorreia, editors. High Performance Computing for Computational Science - VECPAR 2008: 8th International Conference, Toulouse, France, June 24-27, 2008. Revised Selected Papers. Vol 5336. Springer Berlin Heidelberg; 2008. 3. p. 336-348p. (Lecture Notes in Computer Science; vol 5336).Edit