PPT-Computing with Accelerators: Overview

ITS Research Computing Mark Reed Objectives Learn why computing with accelerators is important Understand accelerator hardware Learn what types of problems are suitable for accelerators Survey the programming models available. The accelerators offload the core processor and have the potential to more than double the computational throughput of the processor This paper introduces the accelerators using their application in nextgeneration audio systems as an example Why Har Ran Ginosar. Avinoam Kolodny. Yuval . Cassuto. Koby Crammer. Shmuel Wimer. Dani . Lichinski. (research)(motivation) questions. We love accelerators, but…. What accelerators ?. What workload? What “killer applications” ?. Computing. FPL 2016 . 1 September 2016. Dr. Christoforos Kachris. , . Prof. Dimitrios Soudris. ICCS/NTUA, Greece. Accelerators in data centers. FPL 2016, Christoforos Kachris, ICCS/NTUA, September 2016. a . Dedicated Distributed Infrastructure . for Computer Science . Research. Henri Bal. Vrije. . Universiteit. Amsterdam. Agenda. Overview of DAS (1997-2014). U. nique aspects, . t. he . 5 . DAS generations, organization. ITS Research Computing. Mark Reed. Overview – Research Computing. Resources. Services. Projects. ReCo Resources. Computational Resources. compute clusters: Longleaf, Killdevil, . Dogwood. Special purpose servers: . ITS Research Computing. Mark Reed . Objectives. Learn why computing with accelerators is important. Understand accelerator hardware. Learn what types of problems are suitable for accelerators. Survey the programming models available. Twiss. Parameterization (left out yesterday). The transfer matrix over any period (. s. . s+C. ). must be stable over infinite passes. Must have purely imaginary eigenvalues. Any such matrix can be represented as. William Bertozzi. Wilbur Franklin, Alexei Klimenko, Steve Korbly. Robert Ledoux, Rustam Niyazov, Dave Swenson. Consultants: Fred Mills, Martin Berz, Kyoko Makino. Introduction - Outline. What are the events that Homeland Security is trying to prevent?. IFIC, Valencia Oct. 2010. . I. Vila IFCA (CSIC-UC) . Advanced European Infrastructures for Detectors at Accelerators. _Outline. News and current status. AIDA basics. Work Packages. Organization. (G. . Devanz. , R. . Laxdal. , P. . Michelato. ). Mandate. Major initiatives are well underway for ion accelerators for nuclear astrophysics, such as FRIB, RAON and others.  With the success of SNS, high intensity proton accelerator projects are progressing, such as ESS, PIP-II, Indian SNS, along with ADS ambitions, such as CADS and IADS.  The aim of WG2 is to address the major on-going issues for each type of accelerator, how these issues are being addressed, as well as the needed developments. Demonstrated and needed advances in couplers and tuners for both accelerator classes should be included.  Please avoid presentations that give project status summaries - more suited to other conferences. . 2. Accelerators. for . Medicine. Maurizio Vretenar, CERN. Academic. Training, 12 . June. 2018. Accelerator and Society. 12/6/2018. M. Vretenar, Accelerators for Medicine. 3. Research. 6%. Particle. Aleksandr. . Bryazgin. Budker. Institute . of Nuclear Physics. Novosibirsk, Russia. Content. Ordinary ILU accelerators.. ILU-8 (1 MeV, 20 kW). Design and . Main features.. Examples in real industry. Database Futures Workshop, CERN. 06-07 June 2011. Zory Zaharieva, Chris Roderick. Beams Department . Controls Group. Data Management Section. Outline. Overview of the main data domains for the . Accelerators. Report from Discussion Session. Jose Alonso. 1. Charge (Per Janet). Credible case needs to be made to DUSEL in very near future. Address relevant technical (not cost, now) issues. What questions need to be answered related to feasibility of accelerator concept?.