1 / 7

Present and Future Computing Requirements for [your project]

Present and Future Computing Requirements for [your project]. Presenter. 1. Project-Name Overview List of Pi(s)/Institution(s). Summarize your projects and expected scientific objectives through 2014 Our goal is to … Present focus is … In the next 3 years we expect to ….

zahi
Download Presentation

Present and Future Computing Requirements for [your project]

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Present and Future Computing Requirementsfor [your project] Presenter

  2. 1. Project-Name Overview List of Pi(s)/Institution(s) Summarize your projects and expected scientific objectives through 2014 Our goal is to … Present focus is … In the next 3 years we expect to …

  3. 2. Current HPC Methods (see slide notes) Algorithms used Codes Quantities that affect the problem size or scale of the simulations (grid? particles? basis sets? Other? )

  4. 2. Current HPC Requirements (see slide notes) Architectures currently used Compute/memory load Data read/written Necessary software, services or infrastructure Known limitations/obstacles/bottlenecks Hours requested/allocated/used in 2010 Additional info from the templates

  5. 3. HPC Usage and Methods for the Next 3-5 Years (see slide notes) Upcoming changes to codes/methods/approaches to satisfy science goals Changes to Compute/memory load Changes to Data read/written Changes to necessary software, services or infrastructure Anticipated limitations/obstacles/bottlenecks on 10K-1000K PE system. Key point is to directly link upcoming NERSC requirements to science goals

  6. Strategy for New Architectures • How are you dealing with, or planning to deal with, many-core systems that have dozens or hundreds of computational cores per node? • How are you dealing with, or planning to deal with, systems that have a traditional processor augmented by some sort of accelerator such as a GPU or FPGA or similar?

  7. 4. Summary What new science results might be afforded by improvements in NERSC computing hardware, software and services? Recommendations on NERSC architecture, system configuration and the associated service requirements needed for your science NERSC generally acquires systems with roughly 10X performance every three years. What significant scientific progress could you achieve over the next 3 years with access to 50X NERSC resources? What "expanded HPC resources" are important for your project? General discussion

More Related