"Maxeler Technologies - Quantum Chromodynamics (QCD)"
By: Maxeler Technologies Limited
HAMMERSMITH, U.K. - April 9, 2018 - PRLog -- QCD, or Quantum Chromodynamics, is the theory for the Strong force that binds together the fundamental particles, called quarks, to form protons and neutrons, as well as other hadrons. The actual size of quarks is not known, but measurements indicate that they are more than 1,000 times smaller than the proton. "One of the Grand Challenges in Computational Physics, is calculating the binding of quarks by applying Monte Carlo methods to QCD. It is very pleasing to see that Maxeler is pushing the limits of what can be computed and bringing in a new era in large data computation,"
Funded by the EU PRACE initiative, "Maxeler Technologies based in London, recently delivered a pilot system to the Jülich Supercomputing Centre in Germany that has the potential of facilitating a breakthrough in energy efficiency of large-scale QCD computations,"
"Maxeler's impressive QCD implementation is just one in the series of high impact applications across the physical sciences from experimental high energy physics to theory of materials, which have recently been migrated to Maxeler's Multiscale Dataflow technology,"
Maxeler Technologies provides Maximum Performance Density for mission critical data processing applications and datasets beyond the currently manageable limits. Maxeler Dataflow Engines (DFEs) have been demonstrated to achieve faster, smaller, and smarter data processing in the datacenter as well as at the Edge of IoT. Ultimately, Maxeler Technologies provides a convenient way to extract value from ultra large datasets and complex data processing challenges.