1,321 research outputs found
QCD on the connection machine: beyond *LISP
We report on the status of code development for a simulation of quantum chromodynamics (QCD) with dynamical Wilson fermions on the Connection Machine model CM-2. Our original code, written in Lisp, gave performance in the near-GFLOPS range. We have rewritten the most time-consuming parts of the code in the low-level programming systems CMIS, including the matrix multiply and the communication. Current versions of the code run at approximately 3.6 GFLOPS for the fermion matrix inversion, and we expect the next version to reach or exceed 5 GFLOPS
On the Dynamics of Light Quarks in QCD
We describe recent results concerning the behavior of lattice QCD with light
dynamical Wilson and Staggered quarks. We show that it is possible to reach
regions of parameter space with light pions using Wilson
fermions. If the Hybrid Molecular Dynamics (HMD) algorithm is used with the
same parameters it gives incorrect results. We also present preliminary results
using a higher-order integration scheme.Comment: 4 pages (all in postscript), proceedings of LAT'9
Recent development and perspectives of machines for lattice QCD
I highlight recent progress in cluster computer technology and assess status
and prospects of cluster computers for lattice QCD with respect to the
development of QCDOC and apeNEXT. Taking the LatFor test case, I specify a
512-processor QCD-cluster better than 1$/Mflops.Comment: 14 pages, 17 figures, Lattice2003(plenary
Exact Chiral Symmetry on the Lattice
Developments during the last eight years have refuted the folklore that
chiral symmetries cannot be preserved on the lattice. The mechanism that
permits chiral symmetry to coexist with the lattice is quite general and may
work in Nature as well. The reconciliation between chiral symmetry and the
lattice is likely to revolutionize the field of numerical QCD.Comment: 30 pages, LaTeX, reference adde
The bermions: an approach to lattice QCD dynamical fermions from negative flavour numbers
We estimate the effects of dynamical fermions by extrapolating to positive
flavour numbers the results from negative values obtained by adding to the pure
gauge sector a fermion action where the fields obey a Bose statistics: the
bermions.Comment: 21 pages, uuencoded PS file, 11 figures include
Accelerating Wilson Fermion Matrix Inversions by Means of the Stabilized Biconjugate Gradient Algorithm
The stabilized biconjugate gradient algorithm BiCGStab recently presented by
van der Vorst is applied to the inversion of the lattice fermion operator in
the Wilson formulation of lattice Quantum Chromodynamics. Its computational
efficiency is tested in a comparative study against the conjugate gradient and
minimal residual methods. Both for quenched gauge configurations at beta= 6.0
and gauge configurations with dynamical fermions at beta=5.4, we find BiCGStab
to be superior to the other methods. BiCGStab turns out to be particularly
useful in the chiral regime of small quark masses.Comment: 25 pages, WUB 94-1
Strategy towards Mirror-fermion Signatures
The existence of mirror fermions interacting strongly under a new gauge group
and having masses near the electroweak scale has been recently proposed as a
viable alternative to the standard-model Higgs mechanism. The main purpose of
this work is to investigate which specific experimental signals are needed to
clearly differentiate the mirror-fermion model from other new-physics models.
In particular, the case is made for a future large lepton collider with c.o.m.
energies of roughly 4 TeV or higher.Comment: 30 Latex pages, 2 postscript figure
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