Nist comsol 5.3 software#
The software is usually provided with your hardware.ĬOMSOL is a proud member of the Intel® Cluster Ready program and certifies COMSOL Multiphysics ® with every new version.
Nist comsol 5.3 driver#
If you are using RDMA-capable network fabrics, a DAPL 1.2 or later version-compliant driver or library is required. It is recommended that OpenFabrics Enterprise Distribution (OFED) 1.5.4.1 or higher is installed.
Nist comsol 5.3 windows#
The Application Builder is supported in the Windows ® operating system.Īll computers in the cluster must use the same Linux ® version and should have similar hardware. If the LSB™ core package is missing from the distribution repository, manually create a symbolic link as root: ln -s /lib64/ld-linux-x86-64.so.2 /lib64/ld-lsb-x86-64.so.3 Distribution
Nist comsol 5.3 license#
Linux Standard Base™ (LSB™) is required for Linux ® on the license server computer. The version of lmgrd must be the same or higher than the FlexNet ® version used by the COMSOL ® software. FlexNet ® version 11.13.1.4 is used on Windows ® and version 11.13.1.3 on Linux ® and macOS. The system requirements for the license manager are the same as for COMSOL Multiphysics ®. If these requirements are not met, the COMSOL Multiphysics ® software crashes when accessing the help system. OpenSuSE: libwebkitgtk-1.0-0 or libwebkit-1_0-2 depending on the version RHEL: webkitgtk (not included in RHEL7 but available through EPEL).Debian ® and Ubuntu ®: libwebkitgtk-1.0-0.In order for the help system to work on Linux ® operating system, the following packages need to be installed: FlexNet ® requires Linux Standard Base™ (LSB™) 2ġIf you have a version of libstdc++ that is older than version 6.0.9, you may need to start COMSOL Multiphysics ® with the option -forcecomsolgcc.Ģ See FlexNet ® License Manager on Linux ® below.Intel ® Pentium ® IV or AMD Athlon™ XP processor or later.Red Hat ® Enterprise Linux ® 6.9 and 7.3.Only in the event of failure at the final test stage is the sample judged noncompliant with the requirements of the test.In addition to the operating system requirements listed below, see the Interfacing Product Suite Requirements for specific requirements for the CAD Import Module, the Design Module, and the LiveLink™ product suite. Proceeding to the third stage of the test in these circumstances is unnecessary. If the test conditions and conductivity limits are met at either of these preliminary stages, the water meets the requirements of this test. Two preliminary stages are included in the test method. The combined conductivities of the intrinsic and extraneous ions vary as a function of pH and are the basis for the conductivity specifications described in the accompanying table and used when performing Stage 3 of the test method. Extraneous ions such as these may have significant impact on the water's chemical purity and suitability for use in pharmaceutical applications. A balancing quantity of cations, such as sodium ion, is included in this allowed impurity level to maintain electroneutrality.
The conductivity of the ubiquitous chloride ion (at the theoretical endpoint concentration of 0.47 ppm when it was a required attribute test in USP XXII and earlier revisions) and the ammonium ion at the limit of 0.3 ppm represents a major portion of the allowed water impurity level. The extraneous ions used in modeling the conductivity specifications described below are the chloride and sodium ions. Water conductivity is also affected by the presence of extraneous ions.
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