Analytical and Technical Analysis of the Computing Concepts and Applications with Emphasis in Predictive Analytics, Lattice Quantum Chromo Dynamics, and Computational Cosmology

Abstract

The studies related to the Concepts of Advanced Computing have been reviewed and discussed. The applications of Advanced computing in Particle Physics, Networking and Data Handling have been discussed. The facilities required for advanced computing are briefly described. Special emphasis has been placed on the role of Advanced Computing on Science and Engineering. Simulation for Optimization in Predictive Analytics, and also for maximizing the output and profit of the commerce and industry have also been briefly discussed. Design Considerations for Lattice Quantum Chromo Dynamics (QCD) have been discussed, and presented in this paper. The treatment has been based on expressing the strong interaction between quarks mediated by gluons, and considering the space-time lattice to be distributed across all of the nodes. The Lattice QCD (- D meson semileptonic decay amplitudes), as reported in the literature, has been technically discussed. Comparison between Quantum Electrodynamics (QED) and QCD has been briefly brought out. A brief description of the Simulation of large scale structures, cosmic web of dark matter filaments and halos, has also been given. The paper is expected to be useful to the new entrants in the field and also the senior Technology in the scientific fields. In particle physics the semileptonic decay of a hadron is a decay caused by the weak force in which one lepton (and the corresponding neutrino) is produced in addition to one or more hadrons. An example for this can be: K 0 → e – .