=Paper=
{{Paper
|id=Vol-3041/338-341-paper-62
|storemode=property
|title=National Research and Education Network of Russia: Directions of Development in the Context of Expanding of International Cooperation
|pdfUrl=https://ceur-ws.org/Vol-3041/338-341-paper-62.pdf
|volume=Vol-3041
|authors=Alexey Abramov,Anton Evseev,Andrey Gonchar
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==National Research and Education Network of Russia: Directions of Development in the Context of Expanding of International Cooperation==
https://ceur-ws.org/Vol-3041/338-341-paper-62.pdf
Proceedings of the 9th International Conference "Distributed Computing and Grid Technologies in Science and
Education" (GRID'2021), Dubna, Russia, July 5-9, 2021
NATIONAL RESEARCH AND EDUCATION NETWORK
OF RUSSIA: DIRECTIONS OF DEVELOPMENT
IN THE CONTEXT OF EXPANDING OF INTERNATIONAL
COOPERATION
A.G. Abramov1,a, A.V. Evseev1, A.A. Gonchar2
1
St. Petersburg branch of Joint Supercomputer Center of the Russian Academy of Sciences, nab. 14a
Smolenka river, Saint Petersburg, 199034, Russia
2
Joint Supercomputer Center of the Russian Academy of Sciences, 32a Leninsky pr., Moscow,
119334, Russia
E-mail: a abramov@niks.su
The paper is devoted to certain aspects of the current functioning and development of National
Research Computer Network (NIKS) in the status of National Research and Education Network
(NREN) of Russia. The main emphasis is made on the discussion of foreign network connectivity of
NIKS, the planned technological modernization and expansion of international cooperation with
NRENs of the EAEU countries, the intensification of network and service interaction with leading
European research and education consortia GÉANT and NORDUnet.
Keywords: national research computer network, NIKS, national research and education
network, NREN, foreign network connectivity, international cooperation
Alexey Abramov, Anton Evseev, Andrey Gonchar
Copyright © 2021 for this paper by its authors.
Use permitted under Creative Commons License Attribution 4.0 International (CC BY 4.0).
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Education" (GRID'2021), Dubna, Russia, July 5-9, 2021
1. NIKS: current state and plans for development
National Research Computer Network (NIKS, https://niks.su) [1, 2] was created in 2019 on
the assignment of the Ministry of Science and Higher Education of the Russian Federation according
to the results of integration of federal-level telecommunications networks in the fields of higher
education (RUNNet) [3, 4] and science (RASNet).
In 2021, the Ministry approved a set of regulatory documents for NIKS – the management
procedure and the concept and the roadmap for the functioning and development for 2021-2024.
Works on the development of NIKS have been included in the National Project “Science and
Universities” with the consolidation of activities, characteristics of the result and target indicators.
NIKS has received the formal status of National Research and Education Network (NREN) of Russia;
the functions of the administrator and the operator of the project are assigned to JSCC RAS.
Within the framework of the National Project it is planned the development of NIKS in the
interests of research and education (R&E) organizations of Russia, including with the aim of offering
access to advanced scientific infrastructure of collective use (supercomputer centers, centers for
collective use, unique scientific facilities, digital collections, data banks) by increasing the capacity of
the network backbone, territorial accessibility and a set of services [1, 2].
The indicators of the National Project determined that by the end of 2024 90% of the leading
research organizations and higher education institutions (more than 300 organizations) from more than
50 regions and 100% of large supercomputer centers in the sphere of R&E of the country will be
connected to NIKS (in according to the selection criteria approved by the Ministry).
2. Foreign connectivity and main directions of international cooperation
Leading R&E organizations of the country are systematically involved in the implementation
of international research projects in priority scientific areas (including in the fields of high energy
physics, astronomy, Earth observation, geophysics, climatology, etc.), that intensively use modern
means of telecommunications, principles and technologies of distributed computing.
Some of the largest projects currently being implemented with the participation of Russian
organizations include LHC, ITER, XFEL, FAIR, LIGO, Belle II, ESA, Copernicus, etc. Projects in
their activities are guided by the principles of exchange and distribution of huge amounts of data in a
trusted high-performance environment of the world NRENs. Operators of Russian Mega-Science сlass
facilities (such as NRC “Kurchatov Institute” and JINR) use similar approaches in the implementation
of telecommunications infrastructures.
Operators of global research projects, as a rule, impose restrictions on access to project
resources and services through the networks of commercial service providers, grant access exclusively
on the basis of high-performance NRENs infrastructures and maintaining uniform principles and
standards of modern technological solutions [3, 5]. In accordance with the rules and mechanisms
approved at the level of world NRENs operators, the organization of global interconnection is
implemented according to the “NREN to NREN” principle and excludes the possibility of passing
traffic of any commercial telecommunications operators through their networks.
Support for international network interaction of target users is currently being implemented at
NIKS on the basis of own high-speed telecommunications infrastructure in the direction of St.
Petersburg – Helsinki – Stockholm – Amsterdam with a throughput of 10...100 Gbps and own
backbone telecommunications nodes located in research centers abroad: CSC, IT Center for Science in
Helsinki, NORDUnet in Stockholm, and NIKHEF in Amsterdam [fig. 1].
NIKS has a peering connection with the pan-European R&E network consortium GÉANT [6]
and direct interconnection with the R&E network consortium of Nordic countries NORDUnet [7]
(both 10 Gbps).
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�Proceedings of the 9th International Conference "Distributed Computing and Grid Technologies in Science and
Education" (GRID'2021), Dubna, Russia, July 5-9, 2021
Figure 1. International network connectivity map of NIKS
The plans for the development of NIKS as a national infrastructure and service platform imply
expanding cooperation with leading foreign NRENs and network consortia (including GÉANT,
NORDUnet, TEIN3, RedCLARA, CERNET, etc.), increasing the level of involvement in promising
international projects in the field of R&E and advanced digital technologies [fig. 2]. As examples, one
can point to highly demanded service projects based on the principles of federated authentication –
eduGAIN (https://runnetaai.ru) and eduroam (https://eduroam.ru), in which NIKS participates as a
national operator.
Specific activities for the development of NIKS in international directions involve extension
of existing 100 Gbps channel from Stockholm to Amsterdam, the creation of fault-tolerant ring
network segments in Europe, the realization of direct interconnection with GÉANT with the expansion
of capacity, including to provide users with access to the resources and services of NRENs outside
Europe, full participation in global research projects, implemented using a network infrastructure with
increased requirements for the quality of service.
Figure 2. Scheme of key areas of international cooperation of NIKS
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Education" (GRID'2021), Dubna, Russia, July 5-9, 2021
In relation to other perspective areas, expansion of cooperation with research projects and
R&E networks of the Eurasian Economic Union (EAEU) countries and the study of opportunities to
establish direct interconnections with NRENs of BRICS countries are being considered.
As part of the implementation of certain Strategic Directions for the Development of Eurasian
Economic Integration until 2025, the creation of an association of NRENs of the EAEU member-states
is under consideration and in progress. The goals of the association are the creation of a unified
network infrastructure and service solutions for conducting scientific research, joint and coordinated
interaction with world and regional sectoral networks, the introduction and expansion of the use of the
system of federated authentication for effective interaction between scientists and researchers of the
EAEU countries and for barrier-free access to R&E services, as well as the development of
recommendations and methodological documents on informatization of scientific activities and
educational process.
To date, the drafts of the concept for the creation, maintenance and enhancement of the
association of NRENs of the EAEU countries and the association agreement have developed and
agreed upon, technological solutions for infrastructure are being worked out, taking into account the
regulatory requirements of the countries, as well as the specifics of their licensing activities as
telecommunications operators.
3. Acknowledgement
The publication was carried out within the framework of the state assignment of the SRISA
RAS "Conducting fundamental scientific research (47 GP)" on topic no. FNEF-2021-0014 (0580-
2021-0014, reg. no. 121031300097-1).
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