SFHG
From HP-SEE Wiki
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== General Information == | == General Information == | ||
| - | * Application's name: | + | * Application's name: Self Avoiding Hamiltonian Walk on Gaskets |
| - | * Virtual Research Community: '' | + | * Virtual Research Community: ''Computational Physics Applications'' |
| - | * Scientific contact: '' | + | * Scientific contact: ''Sreten Lekic, slekic@blic.net'' |
| - | * Technical contact: '' | + | * Technical contact: ''Sreten Lekic, slekic@blic.net'' |
| - | * Developers: '' | + | * Developers: ''Sreten Lekic, Faculty of Mech. Engineering, University of Banja Luka (UoBL), Bosnia - Herzegovina'' |
| - | * Web site: | + | * Web site: |
== Short Description == | == Short Description == | ||
| - | + | Hamiltonian self avoiding walks on fractals (Sierpinsky gaskets) are one of perspective models for long polymers (DNA, RNA and other bio polymers) behavior description. | |
| + | |||
| + | FORTRAN algorithms for 2D and 3D were tested on multiprocessors core. | ||
== Problems Solved == | == Problems Solved == | ||
| - | + | Initial parallelization of process, partitioning. | |
== Scientific and Social Impact == | == Scientific and Social Impact == | ||
| - | '' | + | ''Not applicable yet as the application is mostly pushed to Y2 of the project'' |
== Collaborations and Beneficiaries == | == Collaborations and Beneficiaries == | ||
| - | '' | + | ''Not applicable yet as the application is mostly pushed to Y2 of the project'' |
== Technical Features and HP-SEE Implementation == | == Technical Features and HP-SEE Implementation == | ||
| - | * Primary programming language: | + | * Primary programming language: FORTRAN |
| - | * Parallel programming paradigm: | + | * Parallel programming paradigm: MPI |
* Main parallel code: ''Tobefilledin'' | * Main parallel code: ''Tobefilledin'' | ||
| - | * Pre/post processing code: '' | + | * Pre/post processing code: ''Not applicable yet as the application is mostly pushed to Y2 of the project'' |
| - | * Application tools and libraries: '' | + | * Application tools and libraries: ''Not applicable yet as the application is mostly pushed to Y2 of the project'' |
| - | * Number of cores required: | + | * Number of cores required: 512 |
| - | * Minimum RAM/core required: | + | * Minimum RAM/core required: 1GB |
| - | * Storage space during a single run: | + | * Storage space during a single run: 10GB |
| - | * Long-term data storage: | + | * Long-term data storage: 40GB |
== Usage Example == | == Usage Example == | ||
| - | '' | + | ''Not applicable yet as the application is mostly pushed to Y2 of the project'' |
== Publications == | == Publications == | ||
| - | + | ||
| - | + | ''Not applicable yet as the application is mostly pushed to Y2 of the project'' | |
Revision as of 15:35, 6 July 2011
Contents |
General Information
- Application's name: Self Avoiding Hamiltonian Walk on Gaskets
- Virtual Research Community: Computational Physics Applications
- Scientific contact: Sreten Lekic, slekic@blic.net
- Technical contact: Sreten Lekic, slekic@blic.net
- Developers: Sreten Lekic, Faculty of Mech. Engineering, University of Banja Luka (UoBL), Bosnia - Herzegovina
- Web site:
Short Description
Hamiltonian self avoiding walks on fractals (Sierpinsky gaskets) are one of perspective models for long polymers (DNA, RNA and other bio polymers) behavior description.
FORTRAN algorithms for 2D and 3D were tested on multiprocessors core.
Problems Solved
Initial parallelization of process, partitioning.
Scientific and Social Impact
Not applicable yet as the application is mostly pushed to Y2 of the project
Collaborations and Beneficiaries
Not applicable yet as the application is mostly pushed to Y2 of the project
Technical Features and HP-SEE Implementation
- Primary programming language: FORTRAN
- Parallel programming paradigm: MPI
- Main parallel code: Tobefilledin
- Pre/post processing code: Not applicable yet as the application is mostly pushed to Y2 of the project
- Application tools and libraries: Not applicable yet as the application is mostly pushed to Y2 of the project
- Number of cores required: 512
- Minimum RAM/core required: 1GB
- Storage space during a single run: 10GB
- Long-term data storage: 40GB
Usage Example
Not applicable yet as the application is mostly pushed to Y2 of the project
Publications
Not applicable yet as the application is mostly pushed to Y2 of the project
