High Performance Computing Laboratory

The mission of the HPC laboratory is to deliver reliable, sustainable computing resources and services to facilitate the use of high-performance computing and to meet the small scale and midrange computational demands of the scientific research community in the academic institutions and high-tech SMEs located all over the country and the region.

Bulgaria officially joined the EuroHPC on the 13th of October 2017. The High Performance Computing laboratory equipped with the second fastest supercomputer in the country, is a major pillar in developing the European Open Science policy agenda which aims to increase the quality and impact of science, building on the achievements of Open Access and Big Data analytics.

The HPC laboratory team offers the best support in both scientific research and industrial applications in the country.


Research Activities are carried out by the HPC team and project partners aiming at the  evaluation of application container technology, e.g. Docker, to provide a flexible and performance optimised environment on which to execute portable, user-customized applications.
Networking Activities
HPC laboratory at the Sofia Tech Park offers a well-established and successful mechanism for fostering collaborative research, building cross-national collaborations, and allowing computational scientists to contribute to the skills development of junior researchers and/or researchers from regions in Bulgaria with limited access to HPC facilities.
The goal of the Networking Activity is to work on enlargement of the user community not only by involving research teams from a larger number of institutions, but also by connecting with other research initiatives and groups.

Education and Training

Courses on High performance computing (within the Sofia University Curriculum) or by demand



The HPC laboratory at the Sofia Tech Park provides basic and supplemental services for university institutions and supports the Simulation Sciences, which are among the focuses of the Smart Specialization Strategy in Bulgaria.

The NESTUM cluster is used for meteorological services as well.

The HPC customers are also PhD students and staff of the Sofia University, Technical University, Medical University as well as other educational and research institutions and companies.


The following industrial companies with projects funded by the Operational programme “Innovations and Competitiveness” in Bulgaria are working with us:

Heat Design http://heatdesign.net/

Intelligent Systems https://www.isystems-group.com/


  1. Iliev, S. Pisov, A. Proykova, HIGH PERFORMANCE COMPUTING FOR NANOSCIENCE AND NANOTECHNOLOGY (technical report), Nanoscience & Nanotechnology (ISSN:1313-8995), 18, № 2, pp.39-41, eds. E. Balabanova, E. Mileva, Sofia, 2018
  2. Nikola Drenchev, Mali H. Rosnes, Pascal D. C. Dietzel, Alberto Albinati, Konstantin Hadjiivanov, and Peter A. Georgiev,
    Open Metal Sites in the Metal–Organic Framework CPO-27-Cu: Detection of Regular and Defect Copper Species by CO and NO Probe Molecules
    Phys. Chem. C, Article ASAP, DOI: 10.1021/acs.jpcc.8b04045, Publication Date (Web): July 2, 2018
  3. Olzat Toktarbaiuly, Victor Usov, Cormac Ó Coileáin, Katarzyna Siewierska, Sergey Krasnikov, Emma Norton, Sergey I. Bozhko, Valery N. Semenov, Alexander N. Chaika, Barry E. Murphy, Olaf Lübben, Filip Krzyzewski, Magdalena A. Załuska-Kotur, Anna Krasteva, Hristina Popova, Vesselin Tonchev, and Igor V. Shvets
    Step bunching with both directions of the current: Vicinal W(110) surfaces versus atomistic-scale model
    PHYSICAL REVIEW B 97, 035436 (2018), DOI:10.1103/PhysRevB.97.035436
  4. Filip Krzyżewski, Magdalena Załuska-Kotur, Anna Krasteva, Hristina Popova, and Vesselin Tonchev,
    Scaling and Dynamic Stability of Model Vicinal Surfaces,
    Growth Des., DOI: 10.1021/acs.cgd.8b01379
  5. Krzyżewski, M. Załuska-Kotur, A. Krasteva, H. Popova3 and V. Tonchev,
    Unstable dynamics of model vicinal surfaces: Initial and intermediate stages,
  6. Desislava Dimova, Stoyan Pisov, Ana Proykova,
    Magnetism Of Bilayer Graphene With Vacancies
    Volume 2, Issue 12, Page 779-782, Year 2017 | DOI: 10.5185/amp.2017/914
  7. Dimova, S. Pisov, N. Panchev, A. Proykova
    The role of canonical ensemble in predicting the toluene film structure under external electric field
    Nanoscience & Nanotechnology: Nanostructured material, application and innovation transfer, v17. No.1, pp.14-18 (2017) ISSN:1313-8995
  8. Desislava Dimova, Stoyan Pisov, Nikolay Panchev, Miroslava Nedyalkova, Sergio Madurga, and Ana Proykova,
    Insight into electric field-induced rupture mechanism of water-in-toluene emulsion films from a model system 
    The Journal of Chemical Physics 146, 194703 (2017); doi: 1063/1.4983163
  9. High-Performance Scientific Computing: First JARA-HPC Symposium , JHPCS 2016, Aachen, Germany, October 4–5, 2016, Revised Selected Papers, Volume 10164 of Lecture Notes in Computer Science, Theoretical Computer Science and General Issues, eds. Edoardo Di Napoli, Marc-André Hermanns, Hristo Iliev, Andreas Lintermann, Alexander Peyser, Springer International Publishing, 2017, ISBN 3319538616


The Nestum Cluster, which the laboratory has at its disposal, is the second most efficient supercomputer in Bulgaria.

More information about the machine hardware: http://nestum.phys.uni-sofia.bg/infrastructure/


Prof. Dr. Ana Proykova

Scientific fields: Theoretical and computational physics; Optimization algorithms; High Performance Computing; Nuclear physics; Big Data Analytics


Prof. Dr. Ana I. Proykova, Doctor Habil, is a Full Professor at the University of Sofia, the Head of the High Performance Computing Laboratory at the Sofia Tech Park and the Chair of the European Strategy Working Group on Data, Computing and Digital Infrastructures. In her professional career she has worked at universities around the world, including Belgium, Germany, Israel, Italy, the USA, Japan, Singapore, Taiwan and in the 1980s – the USSR.  A member of four European advisory groups (AG) for Horizon2020 Work programme, namely on the Future and Emerging Technologies, on Science With and For Society, on Gender, on International Cooperation.
She is a member of the Horizon2020 Program Committee on the Nanotechnologies, Advanced Materials, Advanced Manufacturing and Processing, and Biotechnology  and a member of the Scientific Committee on Health, Environmental and Emerging Risks (SCHEER).





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