Journal of UNG

Fresh issue

Monte-Carlo simulation of two-dimensional compounds with «Shastry-Sutherland Lattice» structure in the frameworks of classical Heisenberg model.

Performed by:

Slavin V.V. - doctor of Sciences, leading researcher of ILTPE

Belous L.F. - Ph.D., head of grid-technology departament of ILTPE

Krivchikov A.A. - graduate student of ILTPE

Virtual organization of the project: ung.seed

Duration of the project: 2012 — 2014

The aim of the project: studying the magnetic properties of two-dimensional compounds with «Shastry-Sutherland Lattice» structure in the frameworks of classical Heisenberg model, phase-diagram construction in the wide area of parameters.


Virtual organization of the projectCompuChemGridUA

Duration of the project: 2010 – 2012

The aim of the project
Elucidation of the features of the physical properties of metallized DNA by nickel ions in comparison with DNA containing zinc ions.


The aim of this project is to use the computational resources of national grid infrastructure in order to develop advanced algorithm of reverse engineering of gene regulatory networks, which will be applied to the study of rat hepatocytes response to different perturbations. The modern molecular biology has raised to the qualitatively new level. Simultaneous and independent development of high-throughput technologies, informatics and computer technologies led to the emergence of Systems Biology, aimed to represent biological processes in their maximal complexity by analyzing immense amount of data.


Presentations of projects, related to quantum chemistry, nanosystems, new materials, economy and industry


Presentation of projects, related to the emergency situations of natural and technogenic character, seismology and contamination of environment.


Presentations of projects, related to structural biology and medicine.


Presentation of projects, related to Large Hadron Collider, astrophysics and astronomy.


Presentations of projects, related with development of infrastructure of UNG, its architecture and technologies of creation of research environment (science - workflow).


The purpose of this document is to define a technical roadmap for the interoperable integration of virtualised resources from different resource providers to provide an integrated federated virtualised resources infrastructure for exploitation by EGI’s user community. To achieve interoperability between the individual deployments, while allowing individual sites the flexibility to deploy the software that they wish, some interfaces will need to be constrained to clearly defined specifications.

This document defines a minimal set of usage scenarios that when supported will provide key functionality for the end-users wishing to utilise ‘cloud’ interfaces provided as part of EGI. From these scenarios a number of functional areas are defined and from these functional areas a set of standards and specifications are identified that will define interaction across this functional areas.


This report, prepared for the European Commission’s Directorate-General for Information Society and Media, identifies the benefits and costs of accelerating the development of a fully functional einfrastructure for scientific data – a system already emerging piecemeal and spontaneously across the globe, but now in need of a far-seeing, global framework. 

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