Web Portal for Photonic Technologies Using Grid Infrastructures

TL;DR

This paper presents a web portal that simplifies access to distributed computing resources for photonic and quantum system simulations, integrating the ECAQT package for complex physical modeling.

Contribution

It introduces a Grid portal that enables non-expert users to manage and execute quantum and photonic simulations on distributed infrastructures easily.

Findings

The portal facilitates user-friendly access to complex simulations.

It integrates ECAQT for modeling quantum systems.

It streamlines the execution of large-scale physical computations.

Abstract

The modeling of physical processes is an integral part of scientific and technical research. In this area, the Extendible C++ Application in Quantum Technologies (ECAQT) package provides the numerical simulations and modeling of complex quantum systems in the presence of decoherence with wide applications in photonics. It allows creating models of interacting complex systems and simulates their time evolution with a number of available time-evolution drivers. Physical simulations involving massive amounts of calculations are often executed on distributed computing infrastructures. It is often difficult for non expert users to use such computational infrastructures or even to use advanced libraries over the infrastructures, because they often require being familiar with middleware and tools, parallel programming techniques and packages. The P-RADE Grid Portal is a Grid portal solution that allows users to manage the whole life-cycle for executing a parallel application on the computing Grid infrastructures. The article describes the functionality and the structure of the web portal based on ECAQT package.