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Обычная версия сайта
2024/2025

Многомасштабное моделирование и суперкомпьютерные архитектуры

Статус: Маго-лего
Когда читается: 1, 2 модуль
Охват аудитории: для всех кампусов НИУ ВШЭ
Язык: русский
Кредиты: 6

Программа дисциплины

Аннотация

The course «Computer multiscale modelling and simulation» is aimed at the teaching students with a wide spectrum of methods, technologies and problems in the field of multiscale modelling and simulation and material properties. Different levels of theoretical description at various space and time scales are considered as well as the connections between them and computational technologies oriented on the hardware of the pre-exaflops era supercomputers
Цель освоения дисциплины

Цель освоения дисциплины

  • The objectives of this course are at the suding of a wide spectrum of methods, technologies and problems in the field of multiscale modelling and simulation and material properties
Планируемые результаты обучения

Планируемые результаты обучения

  • be capable of: Application in the given subject area statistical methods of processing experimental data, numerical methods, methods of mathematical and computational modeling of complex systems; Understanding meaning of the tasks appearing in the course of professional activity and employment the related physico-mathematical apparatus for description and solving the above tasks; Using the knowledge of physical and mathematical subjects for further learning according to the training profile;
  • get experience in: Formulation of computational tasks in studies of complex systems; Preparing and running computer simulations of various systems; Correct processing of modeling results and their comparison with available experimental and literature data; Theoretical analysis of real problems related to atomic-scale studies
  • know: the principles of the theoretical and computational description of matter at various scales. the basic algorithms for application of software for numerical solution of problems at each scale. the principles of bridging the gaps between the scale for solving particular problems and to have the corresponding experience
  • be capable of: Estimation the computational complexity of the multiscale problems and the amount of computational resources for their solution; Analyzing scient ific problems and physical processes, realizing in practice fundamental knowledge obtained in the course of training; Adaptation new problematics, knowledge, scientific terminology and methodology, to possess the skills of independent learning;
Содержание учебной дисциплины

Содержание учебной дисциплины

  • Computational aspects of multiscale modelling and simulation
  • Principles of bridging the gaps between the scales
  • Examples of the development and deployment of multiscale models in different fields
  • Multiscale levels of theoretical description of matter
Элементы контроля

Элементы контроля

  • неблокирующий Домашнее задание 1
  • неблокирующий Контрольная работа 1
  • неблокирующий Домашнее задание 2
  • неблокирующий Контрольная работа 2
  • неблокирующий Экзамен
Промежуточная аттестация

Промежуточная аттестация

  • 2024/2025 2nd module
    0.2 * Домашнее задание 1 + 0.2 * Домашнее задание 2 + 0.2 * Контрольная работа 1 + 0.2 * Контрольная работа 2 + 0.2 * Экзамен
Список литературы

Список литературы

Рекомендуемая основная литература

  • Frenkel D., Smit B. Understanding Molecular Simulation: From Algorithms to Applications. –Elsevier, 2002.
  • Rapaport, D. C. The art of molecular dynamics simulation. –Cambridge university press, 2004.

Рекомендуемая дополнительная литература

  • Precision Physics of Simple Atomic Systems, S.G. KarshenboimV.B. Smirnov (Eds.), Springer, 2003.
  • Schweitzer F., Browning Agents and Active Particles Collective Dynamics in the Natural and Social Sciences, Springer, 2003

Авторы

  • Тарарушкин Евгений Викторович
  • Кондратюк Николай Дмитриевич
  • Смирнов Григорий Сергеевич