Abaqus 6.14 slow
![abaqus 6.14 slow abaqus 6.14 slow](http://wufengyun.com:888/books/exa/graphics/sxmcylbilletcoup-strain-p-s.png)
These settings are applied to all Abaqus jobs run on. The staircase pattern shows wider steps with increasing cores for both curves, highlighting the fact that it is cost-effective when more CPU cores are used. Abaqus environment settings are processed in the following order: The host-level environment settings. DYNAMIC APPLICATION PACKED SCHEME IS MODERATE DISSIPATION.
![abaqus 6.14 slow abaqus 6.14 slow](https://s3.manualzz.com/store/data/022870050_1-4df2f919f9983ca19a83d4ed73bd7083-360x466.png)
S T E P 1 D Y N A M I C A N A L Y S I S - I M P L I C I T I N T E G R A T I O N.
#ABAQUS 6.14 SLOW LICENSE#
Adding 1 or 2 GPUs to 16 CPU cores increases the CPU core count to 17 or 18 respectively, but the number of tokens would remain at 16, as shown by the pair of red dots. For use by Supplied By SSQ under license from Dassault Systemes or its subsidiary. The load applied at node A is increased slowly from 0 to 60. The results of the slow upsetting are illustrated in Figure 2 to Figure 4.
#ABAQUS 6.14 SLOW MANUAL#
The second dotted line shown at the 16-core mark on the primary X-axis indicates that for 16 CPU cores, 16 tokens are required. Please refer to Section 32.1 of Abaqus Users Manual version 6.14 to learn about spring elements. The results of the Abaqus/Standard simulations are discussed first, beginning with the results for the viscoplastic fully dense material.If a GPU is included in the simulation run, the CPU core count is 9 but the number of tokens remains at 12, as shown by the single red dot. The first dotted line shown at the 8-core mark on the primary X-axis indicates that for 8 CPU cores, 12 tokens are required.The cost benefit of using GPUs for simulations is illustrated by the two sets of computing configurations indicated by the dotted lines For comparison, the solution is also computed. This way of counting a GPU is represented by the green staircase-patterned curve with the corresponding CPU+GPU core count in the secondary X-axis on the top. Linear solid hybrid elements (C3D8H) are used to model the incompressible deformation of the arterial layers. When a GPU is included in the simulation, it is counted as a single CPU core for the purposes of calculating the number of required tokens.
![abaqus 6.14 slow abaqus 6.14 slow](http://wufengyun.com:888/v6.14/books/bmk/graphics/exxle10-model.png)
The staircase pattern in these curves shows how the increase in the required number of tokens decays as the number of CPU cores increases. The blue curve represents the CPU-only case, while the green curve represents the CPU and GPU case. The Python method is the same but at least in Abaqus 6.14 it is not documented in the Python-Scripting-Reference (it is available since 6.13).