4 | -- | 5 | Isabel Beichl. Is My Car Smarter than My Cat? |
6 | -- | 7 | Javier E. Hasbun. Unifying Two Popular-but-Seemingly-Dissimilar Platforms: Matlab and Java |
8 | -- | 9 | Volodymyr V. Kindratenko. Scientific Computing with GPUs |
10 | -- | 19 | Ali Khajeh-Saeed, J. Blair Perot. Computational Fluid Dynamics Simulations Using Many Graphics Processors |
20 | -- | 29 | Jiadong Wu, Chunlei Chen, Bo Hong. A GPU-Based Approach to Accelerate Computational Protein-DNA Docking |
30 | -- | 39 | Rio Yokota, Lorena A. Barba. Hierarchical N-body Simulations with Autotuning for Heterogeneous Systems |
40 | -- | 47 | Javier Baladron Pezoa, Diego Fasoli, Olivier D. Faugeras. Three Applications of GPU Computing in Neuroscience |
48 | -- | 59 | Didem Unat, Jun Zhou, Yifeng Cui, Scott B. Baden, Xing Cai. Accelerating a 3D Finite-Difference Earthquake Simulation with a C-to-CUDA Translator |
60 | -- | 67 | Marc Joliveau, Michel Gendreau. Using Bilevel Feature Extractors to Reduce Dimensionality in Images |
68 | -- | 77 | Francisco Casas, Juan Pablo Pascual, Maria Luisa de la Fuente, Eduardo Artal, Joaquin Portilla. Frequency-Domain Identification and Model-Order Selection for Efficiently Simulating Microwave Radiometers |
78 | -- | 87 | Stephan Wenger, Marco Ament, Wolfgang Steffen, Nico Koning, Daniel Weiskopf, Marcus A. Magnor. Interactive Visualization and Simulation of Astronomical Nebulae |
88 | -- | 93 | Matthew Rocklin, Andy R. Terrel. Symbolic Statistics with SymPy |
94 | -- | 97 | Christian G. Parigger. Computational Physics Activities at the University of Tennessee Space Institute |
104 | -- | 0 | Charles Day. The Future of Computational Science - in 1977 |