Autor: Jeziorek, Łukasz - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Surface Imaging of Temperature – Research Method of Heat Transfer
Autorzy:: Szafran, Krzysztof
Łusiak, Tomasz
Jeziorek, Łukasz
Korzec, Izabela
Powiązania:: https://bibliotekanauki.pl/articles/2201889.pdf
Data publikacji:: 2023
Wydawca:: Stowarzyszenie Inżynierów i Techników Mechaników Polskich
Tematy:: heat transfer
temperature
surface imaging
Opis:: The method does not differ in difficulty from the standard surface temperature imaging method, which is its unquestionable advantage. The disadvantage is the need to use test models made of materials transmitting visible light in the full range (blue light for excitation and red as a recorded result), which, with more complex shapes, makes the model more expensive. Nevertheless, the presented method is a valuable supplement to the set of methods and techniques used so far for imaging temperature fields and estimating the heat flux in the steady state.
Źródło:: Advances in Science and Technology. Research Journal; 2023, 17, 1; 243--251
2299-8624
Pojawia się w:: Advances in Science and Technology. Research Journal
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Accelerating computation of a reduced order model of a structural system resulting from Craig–Bampton reduction using GPU programming
Autorzy:: Górecki, Piotr
Kalinowski, Miłosz
Jeziorek, Łukasz
Broniszewski, Jakub
Koziara, Tomasz
Powiązania:: https://bibliotekanauki.pl/articles/38706110.pdf
Data publikacji:: 2024
Wydawca:: Instytut Podstawowych Problemów Techniki PAN
Tematy:: GPU
CPU
reduced order model
structural model
CuPy array library
model zredukowanego zamówienia
model strukturalny
CuPy
Opis:: The Craig–Bampton (CB) method is a well-known substructuring technique that reduces the size of a finite element model (FEM) using a set of vibration modes. For large FEA models, the reduction process could be computationally expensive since it requires algebra operations on FEM mode shapes and FEM system sparse matrices. In this paper, we investigate the potential of usage of GPU parallel processing to speed up solving the system of linear equations that results from the CB reduction process made for a model of cyclic structures. A Python based high-level approach, employing the CuPy, GinkGo and STRUMPACK libraries on the GPU, is compared with an optimized Fortran code. In side-to-side comparisons, employing the same inputs, the Python-GPU code is run on a single GPU device and the Fortran code is run on a multi-core compute node. The CB reduction process was split into several parts, each dealing with different kind of algebraic formulation of the problem. Performance comparisons were focused on the sparse system linear solver, since it turned out to be the most time-consuming part. The results suggest that the current GPU-based linear sparse solvers do not surpass the state-of-the-art CPU-based MKL PARDISO solver (at least up to 1M DOFs).
Źródło:: Computer Assisted Methods in Engineering and Science; 2024, 31, 1; 51-66
2299-3649
Pojawia się w:: Computer Assisted Methods in Engineering and Science
Dostawca treści:: Biblioteka Nauki

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