Summary Report of Working Group 2: Computation

The working group on computation addressed three physics areas: (i) plasma-based accelerators (laser-driven and beam-driven), (ii) high gradient structure-based accelerators, and (iii) electron beam sources and transport [1]. Highlights of the talks in these areas included new models of breakdown on...

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Hauptverfasser:	Stoltz, P H, Tsung, R S
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	ACCELERATORS ALGORITHMS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COMPARATIVE EVALUATIONS ELECTRON BEAMS ELECTRON GUNS FINITE ELEMENT METHOD GEV RANGE 01-10 MATHEMATICAL MODELS PARTICLE ACCELERATORS PLASMA PLASMA PRODUCTION SIMULATION THREE-DIMENSIONAL CALCULATIONS
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description	The working group on computation addressed three physics areas: (i) plasma-based accelerators (laser-driven and beam-driven), (ii) high gradient structure-based accelerators, and (iii) electron beam sources and transport [1]. Highlights of the talks in these areas included new models of breakdown on the microscopic scale, new three-dimensional multipacting calculations with both finite difference and finite element codes, and detailed comparisons of new electron gun models with standard models such as PARMELA. The group also addressed two areas of advances in computation: (i) new algorithms, including simulation in a Lorentz-boosted frame that can reduce computation time orders of magnitude, and (ii) new hardware architectures, like graphics processing units and Cell processors that promise dramatic increases in computing power. Highlights of the talks in these areas included results from the first large-scale parallel finite element particle-in-cell code (PIC), many order-of-magnitude speedup of, and details of porting the VPIC code to the Roadrunner supercomputer. The working group featured two plenary talks, one by Brian Albright of Los Alamos National Laboratory on the performance of the VPIC code on the Roadrunner supercomputer, and one by David Bruhwiler of Tech-X Corporation on recent advances in computation for advanced accelerators. Highlights of the talk by Albright included the first one trillion particle simulations, a sustained performance of 0.3 petaflops, and an eight times speedup of science calculations, including back-scatter in laser-plasma interaction. Highlights of the talk by Bruhwiler included simulations of 10 GeV accelerator laser wakefield stages including external injection, new developments in electromagnetic simulations of electron guns using finite difference and finite element approaches.
doi_str_mv	10.1063/1.3081001
format	Conference Proceeding
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subjects	ACCELERATORS ALGORITHMS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COMPARATIVE EVALUATIONS ELECTRON BEAMS ELECTRON GUNS FINITE ELEMENT METHOD GEV RANGE 01-10 MATHEMATICAL MODELS PARTICLE ACCELERATORS PLASMA PLASMA PRODUCTION SIMULATION THREE-DIMENSIONAL CALCULATIONS
title	Summary Report of Working Group 2: Computation
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