Biblio

Найдены 9 результаты
Автор [ Ключевое слово(Desc)] Заголовок Тип Год
Фильтры: Первая буква в названии is P  [Показать все]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
asynchronous mode
Markova V, А.Е. Шарифулина.  2010.  Parallel implementation of kinetic cellular automata for modeling CO oxidation over Pd(110) surface. Proceedings of the Second Russia-Taiwan conference on Methods and tools of parallel programming multicomputers.
block-synchronous mode
Markova V, А.Е. Шарифулина.  2010.  Parallel implementation of kinetic cellular automata for modeling CO oxidation over Pd(110) surface. Proceedings of the Second Russia-Taiwan conference on Methods and tools of parallel programming multicomputers.
catalytic oxidation reaction
Markova V, А.Е. Шарифулина.  2010.  Parallel implementation of kinetic cellular automata for modeling CO oxidation over Pd(110) surface. Proceedings of the Second Russia-Taiwan conference on Methods and tools of parallel programming multicomputers.
Dust cloud simulation
Malyshkin V.E., Perepelkin V.A..  2014.  The PIC implementation in LuNA system of fragmented programming. Journal of Supercomputing. 69(1):89-97.
Dynamic load balancing
Malyshkin V.E., Perepelkin V.A..  2014.  The PIC implementation in LuNA system of fragmented programming. Journal of Supercomputing. 69(1):89-97.
Fragmented programming technology
Malyshkin V.E., Perepelkin V.A..  2014.  The PIC implementation in LuNA system of fragmented programming. Journal of Supercomputing. 69(1):89-97.
kinetic cellular automata
Markova V, А.Е. Шарифулина.  2010.  Parallel implementation of kinetic cellular automata for modeling CO oxidation over Pd(110) surface. Proceedings of the Second Russia-Taiwan conference on Methods and tools of parallel programming multicomputers.
Particle-in-cell method parallel implementation
Malyshkin V.E., Perepelkin V.A..  2014.  The PIC implementation in LuNA system of fragmented programming. Journal of Supercomputing. 69(1):89-97.
synchronous mode
Markova V, А.Е. Шарифулина.  2010.  Parallel implementation of kinetic cellular automata for modeling CO oxidation over Pd(110) surface. Proceedings of the Second Russia-Taiwan conference on Methods and tools of parallel programming multicomputers.