José María Cecilia Canales

icono profesor cursos

Formación

  •  Ingeniero Técnico en Ingeniero técnico en informática de gestión
  •  Ingeniero en MÁSTER UNIVERSITARIO EN TECNOLOGÍAS DE LA INFORMACIÓN Y TELEMÁTICA AVANZADAS
  •  Programa de Doctorado en DOCTORADO: TECNOLOGÍAS DE LA INFORMACIÓN Y TELEMÁTICA AVANZADAS
  •  Postgrado en MSc Computational Software Techniques in Engineering Option: Grid Computing

Grupos de investigación

  • Bioinformatics and High Performance Computing (BIO-HPC)

Publicaciones

  • Parallel Implementation of Fuzzy Minimals Clustering Algorithm
  • A Performance/Cost Evaluation for a GPU-Based Drug Discovery Application on Volunteer Computing
  • A performance/cost model for a CUDA drug discovery application on physical and public cloud infrastructures
  • Accelerated Conformational Entropy Calculations Using Graphic Processing Units
  • Accelerating collision detection for large-scale crowd simulation on multi-core and many-core architectures
  • Accelerating Fibre Orientation Estimation from Diffusion Weighted Magnetic Resonance Imaging Using GPUs
  • Advances in Intelligent and Soft Computing
  • Advances in Parallel Computing
  • An efficient approach for solving the HP protein folding problem based on UEGO
  • Comparative evaluation of platforms for parallel Ant Colony Optimization
  • Descubrimiento de fármacos basado en cribado virtual refinado con enfoques neuronales paralelos
  • Enhancing data parallelism for Ant Colony Optimization on GPUs
  • Enhancing GPU Parallelism in nature-Inspired Algorithms
  • Evaluating the SAT problem on P systems for different high-performance architectures.
  • Evaluation of the 3-D finite difference implementation of the acoustic diffusion equation model on massively parallel architectures
  • High-Throughput parallel blind Virtual Screening using BINDSURF
  • Membrane Computing
  • Simulating a P system based efficient solution to SAT by using GPUs
  • Simulation of P systems with active membranes on CUDA
  • Stencil computations on heterogeneous platforms for the Jacobi method: GPUs versus Cell BE
  • The GPU on the simulation of cellular computing models
  • Toward energy efficiency in heterogeneous processors: findings on virtual screening methods
  • Virtual Screening