Quarks are the fundamental particles that make up 99.9% of ordinary matter; yet it is impossible to examine a single quark in the laboratory. Consequently, some of the basic properties of quarks are not known, such as their precise masses or why they exist in six different types.

Quarks are bound together by the Strong Force, which is weak when the quarks are close, but increases steadily as you try to separate them, making it impossible to isolate a single quark. Instead, the theory describing the Strong Force, called Quantum Chromodynamics (QCD), has to be simulated on huge computers.

The Edinburgh computer is the first of three similar machines and has been operating since January 2005. Liverpool hosts a 10 Terabyte data grid node as part of the project and was responsible for coordination of the UKQCD physics software effort by means of a PPARC funded Software Manager and a physicist programmer.

Professor Alan Irving, Head of Mathematical Sciences at the University of Liverpool, and a member of the UK's Programme Management Committee for the project, said: "The successful inauguration of this computer shows what can be achieved when the imagination and commitment of pure scientists is combined with industrial capability and backed by a risk-taking Research Council. The next part of the project, the physics exploitation, promises to be even more exciting than the first."

The second computer is being inaugurated at the RIKEN Brookhaven Research Center in Brookhaven National Laboratory in the USA. The third is part of the U.S. Department of Energy Program in High Energy and Nuclear Physics, and is also installed at Brookhaven where it is currently undergoing testing.

The computers are built with processing chips specifically designed for the purpose, known as QCD-on-a-chip, or QCDOC for short. A little slower than the microprocessor in a laptop, the QCDOC chip was designed to consume a tenth of the electrical power, so that tens of thousands of them could be put into a single machine.

Each QCDOC machine operates at a speed of 10 Teraflops, or 10 trillion (i.e. million million) floating point operations per second.

By comparison, a regular desktop computer operates at a few Gigaflops (a thousand million floating point operations per second), whilst IBM's BlueGene, a close relative of QCDOC and the fastest computer in the world, operates at over 100 Teraflops.

Edinburgh's machine and part of the QCDOC development costs were funded through a Joint Infrastructure Fund Award of �6.6million administered by the Particle Physics and Astronomy Research Council, who also fund the UK scientists in this field.

Community
Email This Article
Comment On This Article

Related Links
University of Liverpool
SpaceDaily
Search SpaceDaily
Subscribe To SpaceDaily Express
Understanding Time and Space

Memory Foam Mattress Review

SPACE MEDIA NETWORK PROMOTIONS Solar Energy Solutions Tempur-Pedic Mattress Comparison ... Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News