Status of and performance estimates for QCDOC

P. Boyle; D. Chen; N.H. Christ; C. Cristian; Z. Dong; A. Gara; B. Joo,; C. Jung; C. Kim; L. Levkova; X. Liao; G. Liu; R. D. Mawhinney; S. Ohta; K.; Petrov; T. Wettig; A. Yamaguchi

arXiv:hep-lat/0210034·hep-lat·November 15, 2010

Status of and performance estimates for QCDOC

P. Boyle, D. Chen, N.H. Christ, C. Cristian, Z. Dong, A. Gara, B. Joo,, C. Jung, C. Kim, L. Levkova, X. Liao, G. Liu, R. D. Mawhinney, S. Ohta, K., Petrov, T. Wettig, A. Yamaguchi

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TL;DR

This paper discusses the development status and performance estimates of QCDOC, a scalable supercomputer optimized for quantum chromodynamics simulations, based on cycle-accurate ASIC simulations.

Contribution

It provides the current status and detailed performance estimates for QCDOC, highlighting its scalability and cost-effectiveness for large-scale scientific computing.

Findings

01

QCDOC is designed for high scalability and low cost per node.

02

Performance estimates are based on cycle-accurate ASIC simulations.

03

The project shows promising potential for large-scale QCD computations.

Abstract

QCDOC is a supercomputer designed for high scalability at a low cost per node. We discuss the status of the project and provide performance estimates for large machines obtained from cycle accurate simulation of the QCDOC ASIC.

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