631 research outputs found
QCDSP: The first 64 nodes
We present a summary of the progress on QCDSP in the last year. QCDSP,
Quantum Chromodynamics on Digital Signal Processors, is an inexpensive computer
being built at Columbia that can achieve 0.8 teraflops for three million
dollars.Comment: 4 pages, 1 figur
The status of US Teraflops-scale projects
The current status of United States projects pursuing Teraflops-scale
computing resources for lattice field theory is discussed. Two projects are in
existence at this time: the Multidisciplinary Teraflops Project, incorporating
the physicists of the QCD Teraflops Collaboration, and a smaller project,
centered at Columbia, involving the design and construction of a 0.8 Teraflops
computer primarily for QCD.Comment: Contribution to Lattice 94. 7 pages. Latex source followed by
compressed, uuenocded postscript file of the complete paper. Individual
figures available from [email protected]
Evidence for pronounced quark loop effects in QCD
We have measured the hadron spectrum in lattice QCD, using staggered
fermions, for 0 (the quenched approximation), 2 and 4 light degenerate
dynamical quarks. In addition to earlier results involving extrapolations in
valence quark masses for fixed dynamical mass, we also report results where we
extrapolate in the dynamical mass for 4 flavors. We see a marked difference in
the hadron spectrum for 2 and 4 flavors; the hadron spectrum is nearly parity
doubled for 4 flavors, indicating smaller effects of chiral symmetry breaking.
This pronounced effect in the hadron spectrum cannot be removed by a simple
change in scale as the number of light quark flavors is changed. Further
simulations at larger volume are needed to rule out finite volume effects.Comment: 5 pages, 4 figures. Presented at Lattice QCD on Parallel Computers,
Tsukuba, Japan, march 199
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