Публикации по технологии активных знаний и системе LuNA

Ключевые публикации:

  1. Вальковский В.А., Малышкин В.Э. Синтез параллельных программ и систем на  вычислительных моделях. - Издательство "Наука", Сибирское отд-е, Новосибирск, 1988г., 129 стр. (скачать, djvu 5.2 MB)
  2. Victor E. Malyshkin, Vladislav A. Perepelkin. LuNA Fragmented Programming System, Main Functions and Peculiarities of Run-Time Subsystem // Parallel Computing Technologies. 11th International Conference, PaCT 2011, Proceedings. LNCS 6873. Springer, 2011. pp. 53-61 (скачать )
  3. Malyshkin V. (2015) Active Knowledge, LuNA and Literacy for Oncoming Centuries. In: Bodei C., Ferrari G., Priami C. (eds) Programming Languages with Applications to Biology and Security. Lecture Notes in Computer Science, vol 9465. Springer, Cham. https://doi.org/10.1007/978-3-319-25527-9_19 (скачать )

Другие публикации:

  1. Belyaev N., Perepelkin V. (2021) High-Efficiency Specialized Support for Dense Linear Algebra Arithmetic in LuNA System. In: Malyshkin V. (eds) Parallel Computing Technologies. PaCT 2021. Lecture Notes in Computer Science, vol 12942. Springer, Cham. https://doi.org/10.1007/978-3-030-86359-3_11 (скачать )
  2. Malyshkin V., Perepelkin V. Trace-Based Optimization of Fragmented Programs Execution in LuNA System // Parallel Computing Technologies. PaCT 2021. Lecture Notes in Computer Science, vol 12942. Springer, Cham, 2021. pp. 3-10. DOI: 10.1007/978-3-030-86359-3_1 (скачать )
  3. Malyshkin, V., Akhmed-Zaki, D., Perepelkin, V. Parallel programs execution optimization using behavior control in LuNA system // J Supercomput. 2021. pp. 9771-9779. DOI: 10.1007/s11227-021-03654-2 (скачать )
  4. Перепелкин В.А. Система LuNA автоматического конструирования параллельных программ численного моделирования на мультикомпьютерах // Проблемы информатики. No 1(46). ИВМиМГ СО РАН (Новосибирск), 2020. с. 66-74. DOI: 10.24411/2073-0667-2020-10004 (скачать )
  5. Akhmed-Zaki, D., Lebedev, D., Malyshkin, V., Perepelkin, V. Automated construction of high performance distributed programs in LuNA system // 15th International Conference on Parallel Computing Technologies, PaCT 2019; Almaty; Kazakhstan. LNCS 11657. Springer, 2019. pp. 3-9. DOI: 10.1007/978-3-030-25636-4_1 (скачать )
  6. Akhmed-Zaki, D., Lebedev, D., Perepelkin, V. Implementation of a 3D model heat equation using fragmented programming technology // J Supercomput. 2019. pp. 7827-7832. DOI: 10.1007/s11227-018-2710-1 (скачать )
  7. Малышкин В.Э., Перепёлкин В.А., Щукин Г.А. Распределённый алгоритм управления данными в системе фрагментированного программирования LuNA // Проблемы информатики. No 1(34). 2017. с. 78-88 (скачать )
  8. Akhmed-Zaki, D., Lebedev, D., Perepelkin, V. Implementation of a three dimensional three-phase fluid flow (“oil–water–gas”) numerical model in LuNA fragmented programming system // Journal of Supercomputing (2017). - 73(2). Springer, 2017. pp. 624-630. DOI: 10.1007/s11227-016-1780-1 (скачать )
  9. Nikolay B., Perepelkin. V. Automated GPU Support in LuNA Fragmented Programming System // Parallel Computing Technologies. PaCT 2017. Lecture Notes in Computer Science, vol 10421.. Springer, Cham, 2017. pp. 272-277. DOI: 10.1007/978-3-319-62932-2_26 (скачать )
  10. Malyshkin. V., Perepelkin. V., Schukin G. Scalable Distributed Data Allocation in LuNA Fragmented Programming System // Journal of Supercomputing, S.I.: Parallel Computing Technologies - 2017. Springer, 2017. pp. 1-7. DOI: 10.1007/s11227-016-1781-0 (скачать )
  11. V.E. Malyshkin, V.A. Perepelkin, A.A. Tkacheva. Control Flow Usage to Improve Performance of Fragmented Programs Execution // In Proc 13th International Conference on Parallel Computing Technologies. LNCS 9251. Springer, 2015. pp. 86-90. DOI: 10.1007/978-3-319-21909-7_9 (скачать )
  12. Victor E. Malyshkin, Vladislav A. Perepelkin, Georgy A. Schukin. Distributed Algorithm of Data Allocation in the Fragmented Programming System LuNA // In Proc 13th International Conference on Parallel Computing Technologies. LNCS 9251. Springer, 2015. pp. 80-85. DOI: 10.1007/978-3-319-21909-7_8 (скачать )
  13. Akhmed-Zaki D.Zh., Lebedev D.V., Perepelkin V.A. Implementation of a Three-Phase Fluid Flow (“Oil-Water-Gas”) Numerical Model in the LuNA Fragmented Programming System // In Proc 13th International Conference on Parallel Computing Technologies. LNCS 9251. Springer, 2015. pp. 489-497. DOI: 10.1007/978-3-319-21909-7_47 (скачать )
  14. Victor E. Malyshkin, Vladislav A. Perepelkin. The PIC Implementation in LuNA System of Fragmented Programming // The Journal of Supercomputing, Special Issue on Parallel Computing Technologies. Springer, 2014. pp. 89-97. DOI: 10.1007/s11227-014-1216-8 (скачать )
  15. Victor Malyshkin, Vladislav Perepelkin. Optimization methods of parallel execution of numerical programs in the Luna fragmented programming system // The Journal of Supercomputing, Special issue on Enabling Technologies for Programming Extreme Scale Systems, Volume 61, Number 1 (2012). Springer, 2012. pp. 235-248. DOI: 10.1007/s11227-011-0649-6 (скачать )
  16. Victor E. Malyshkin, Vladislav A. Perepelkin. LuNA Fragmented Programming System, Main Functions and Peculiarities of Run-Time Subsystem // Parallel Computing Technologies. 11th International Conference, PaCT 2011, Proceedings. LNCS 6873. Springer, 2011. pp. 53-61 (скачать )
  17. Victor Malyshkin, Vladislav Perepelkin. Optimization of Parallel Execution of Numerical Programs in Luna Fragmented Programming System // Methods and Tools of Parallel Programming Multicomputers, Second Russia-Taiwan Symposium, MTPP 2010. LNCS 6083. Springer, 2010. pp. 1-10 (скачать )
  18. V.E. Malyshkin, V.A. Perepelkin, V.K. Grankin, A.V. Talnikov. Automatic Provision of Dynamic Load Balancing in Fragmented Programs // Proceedings of the 12th International Conference on Humans and Computers. Aizu, Japan, 2009. pp. 230-234