David R.C. Hill
Centre national de la recherche scientifique
11 Papers
83 Citations
David R.C. Hill is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Software & Grid computing. The author has an hindex of 5, co-authored 11 publications. Previous affiliations of David R.C. Hill include Blaise Pascal University & Technische Universität München.
Chat about Author
Papers
The Human Gut Chip "HuGChip", an Explorative Phylogenetic Microarray for Determining Gut Microbiome Diversity at Family Level
William Tottey,Jérémie Denonfoux,Faouzi Jaziri,Faouzi Jaziri,Nicolas Parisot,Mohiedine Missaoui,Mohiedine Missaoui,David R.C. Hill,Guillaume Borrel,Eric Peyretaillade,Monique Alric,Hugh M. B. Harris,Ian B. Jeffery,Marcus J. Claesson,Paul W. O'Toole,Pierre Peyret,Jean-François Brugère +16 more
TL;DR: The HuGChip development and validation showed that it is not only able to assess the known human gut microbiota but could also detect unknown species with the explorative probes to reveal the large number of bacterial sequences not yet described in the human Gut microbiota, overcoming the main inconvenience encountered when developing microarrays.
Detecting unknown sequences with DNA microarrays: explorative probe design strategies
Eric Dugat-Bony,Eric Peyretaillade,Nicolas Parisot,Corinne Biderre-Petit,Faouzi Jaziri,Faouzi Jaziri,David R.C. Hill,David R.C. Hill,Sébastien Rimour,Pierre Peyret +9 more
TL;DR: This review provides a detailed overview of the probe design strategies currently available to construct both phylogenetic and functional DNA microarrays, with emphasis on those permitting the selection of such explorative probes.
52
Declarative task delegation in OpenMOLE
Romain Reuillon,Florent Chuffart,Mathieu Leclaire,Thierry Faure,Nicolas Dumoulin,David R.C. Hill +5 more
- 12 Aug 2010
TL;DR: The OpenMOLE framework has been tested with the exploration of a bacterial biofilm simulation with an individual-based model and abstraction layers to delegate computing tasks with the same high level interface for the major underlying architectures.
47
Rigorous Distribution of Stochastic Simulations Using the DistMe Toolkit
TL;DR: The architecture of DistMe and simulation distribution examples for Geant4 and GATE simulations are presented and the impact of correlations is shown on the GATE application.
22
High performance computing and simulation: architectures, systems, algorithms, technologies, services, and applications
TL;DR: HPC has so far been a laboratory for the development of techniques, technologies, services, and applications that sooner or later will end up in future consumer desktop computers, and for next year, supercomputers are expected to be more energy efficient while surpassing the 20 petaflops milestone, and the authors anticipate even higher peak performances and efficiencies in the subsequent years.
4