Sampling of Jobs Running
MSC News
- Call for White Papers on Scientific Computing
- EMSL introduces a new video about Chinook on EMSL's YouTube channel (script, .pdf, 9kb)
- Chinook - Living Life in the Fastlane [.pdf, 107kb]
Additional Information
- Meet the MSC Staff
- Related EMSL User Projects
- Completed Projects: Final Reports
- Help
- User Policies
- User Tips
- Accounts
- Sampling of Jobs Running
- Emergencies
- Glossary
- Training and Events
- Next-Generation Supercomputing (Greenbook) [.pdf, 2.4mb]
- FAQ
- Partners and Related Links
- Spokane Cluster for Biogeochemistry Research
A sampling of jobs currently running on Chinook
| Project | Processors |
|---|---|
| Computational Rheology of Dense Suspensions | 256 |
| A Systematic Molecular Modeling Study of the Effect of Lipid Bilayer Composition on Resistance to Alcohol-Induced Changes | 640 |
| Correlation of Structure and Function of Zinc Metalloproteins Via a Combined NMR/Molecular Theory Approach | 1024 |
| Correlation of Structure and Function of Zinc Metalloproteins Via a Combined NMR/Molecular Theory Approach | 1024 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Correlation of Structure and Function of Zinc Metalloproteins Via a Combined NMR/Molecular Theory Approach | 1024 |
| QUANTUM CALCULATIONS AS A TOOL IN STRUCTURAL BIOLOGY | 2016 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 1024 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Large-scale computational modeling of the chemical behavior of actinide elements at interfaces | 256 |
| Computational Design of Catalysts\: The Control of Chemical Transformation to Minimize the Environmental Impact of Chemical Processes | 512 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 512 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 512 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 512 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 1024 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 512 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 1024 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 1024 |
| Development of accurate force fields for aqueous biological environments using a massively parallel multiscale approach | 1024 |
Last updated: 11/07/2009 19:35:01

