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- 20:02, 26 September 2020 Performances (hist) [7,892 bytes] Abdelsamie (Talk | contribs) (Created page with "The results presented above were obtained on different architectures, preventing the direct comparison of the performance of the codes. However, the TauBench pseudo-benchmark~...")
- 22:59, 21 September 2020 FileT 253:.txt (hist) [18 bytes] Abdelsamie (Talk | contribs) (Created page with "Media:T.253.txt")
- 21:01, 23 August 2020 Analysis of Step 4 (hist) [13,344 bytes] Xonnainty (Talk | contribs) (Created page with "= Step 4 = '''Step 4''' is definitely the most complex but also the most interesting case to compare '''high-fidelity codes''' for '''turbulent reacting flows''', since it co...")
- 21:00, 23 August 2020 Analysis of Step 3 (hist) [2,905 bytes] Xonnainty (Talk | contribs) (Created page with "The main difference between this step and the previous one, is that now '''species and heat diffusion are additionally taken into account in an inhomogeneous environment'''. N...")
- 21:00, 23 August 2020 Analysis of Step 2 (hist) [4,005 bytes] Xonnainty (Talk | contribs) (Created page with "The second step concerns the '''3-D''', '''non-reacting cold flow''', used as validation by comparison with the published results of a pseudo-spectral solver [65]. The main qu...")
- 20:57, 23 August 2020 Analysis of Step 1 (hist) [2,813 bytes] Xonnainty (Talk | contribs) (Created page with "The verification involves a direct comparison with the analytical solution. For this purpose, analytic fields for '''velocity''' (x- and y-components) and '''vorticity''' <mat...")
- 17:15, 23 August 2020 Analysis (hist) [610 bytes] Xonnainty (Talk | contribs) (Created page with "= Analysis = In this section, the results obtained for each configuration will be discussed by comparing the fields obtained with the three codes involved in the benchmark. I...")
- 21:36, 29 July 2020 Results (hist) [8,028 bytes] Lartigue (Talk | contribs) (Created page with " The results of the Benchmark are organized as follows: This is a link to get the file File:Step2 YALES2 512 CFL0.10.txt")
- 16:16, 27 July 2020 Step 4 (hist) [6,488 bytes] Lartigue (Talk | contribs) (Created page with "= Description of Step 4 = In this last benchmark, Step 3 is repeated while now activating chemical reactions from the start. To this aim, the kinetic scheme of Boivin et al.~...")
- 16:05, 27 July 2020 Step 3 (hist) [9,763 bytes] Lartigue (Talk | contribs) (Created page with "= Step 3 descritpion = The purpose of this configuration is to perform a simulation similar to Step 2 but involving now a mixture of different gaseous species at different te...")
- 16:00, 27 July 2020 Step 2 (hist) [3,593 bytes] Lartigue (Talk | contribs) (Created page with "= Step 2 Description = The next step in the benchmark is to simulate the Taylor-Green Vortex configuration in 3-D, still for a single-component incompressible flow. For this...")
- 15:51, 27 July 2020 Codes (hist) [25,408 bytes] Lartigue (Talk | contribs) (Created page with "= Code Description = This page is dedicated to a short presentation of the three low-Mach number codes used for the rest of this benchmarl: [https://www.coria-cfd.fr/index.ph...")
- 06:24, 27 July 2020 Step 1 (hist) [4,016 bytes] Lartigue (Talk | contribs) (Created page with "= Step 1 = This step is very easy to set-up: it is a simple 2D box with 4 Green-vortices inside it.")
- 06:23, 27 July 2020 Description (hist) [990 bytes] Lartigue (Talk | contribs) (Created page with "= Description of the Benchmark = This benchmark is composed of 4 major steps that should be performed carefully one after the other. * The Step 1 is a simple 2D configu...")
- 13:28, 10 August 2011 Main Page (hist) [2,088 bytes] MediaWiki default (Talk)