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Input Form:Deal with this potential dealer,buyer,seller,supplier,manufacturer,exporter,importer
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FDS-SMV - NIST FDS and Smokeview are free and open-source software tools provided by the National Institute of Standards and Technology (NIST) of the United States Department of Commerce
FDS-SMV Downloads - NIST For older versions, view a list of FDS-SMV downloads on GitHub Nightly test bundles can be found here Note that FDS and Smokeview are compiled for processors that use the x86-64 instruction set Instructions for compiling the codes yourself can be found here
Smokeview Release Notes - NIST The r, g, b values range from 0 to 255 rather than 0 0 to 1 0 to be consistent with FDS input usability: adapted a FDS routine for use in Smokeview to return the r,g,b colors (ranging from 0 to 255)
NIST Pages This is the root of NIST's GitHub Pages-equivalent site Visit the wiki for more information about using NIST Pages (mostly only relevant to NIST staff) The projects published from this server should be linked from the project's official landing page, usually in Drupal on www nist gov, but the following is a complete list of sites hosted on this server Newly-created sites may not appear on
Firebot Build Status Build failure and warnings FDS Revision: FDS-6 10 1-1285-ge1bfeb2 FDS Revision date: Mon Oct 20 10:50:41 2025 SMV Revision: SMV-6 10 5-218-ga9e9fc7 Total time: 146184 296 s
Firebot Build Status - NIST Build failure and warnings FDS Revision: FDS-6 10 1-1285-ge1bfeb2 FDS Revision date: Mon Oct 20 10:50:41 2025 SMV Revision: SMV-6 10 5-218-ga9e9fc7 Total time: 146184 296 s
Christmas Tree Heat Release Rate (HRR) On this page, you can ‘build’ (and submit) your own Christmas tree fire HRR prediction for this year’s competition by adjusting three parameters that define: Peak heat release rate (Peak HRR, kW), time to Peak HRR, and total heat released (MJ) If you are having trouble automatically generating an email using the ‘Submit by Email’ button, please: (1) Click the ‘Copy Entry’ button
Numerical Implementation — Phase Field Method Recommended Practices Numerical Implementation # When writing your own phase-field simulation code or when choosing among existing codes, the numerical implementation of the model is an important consideration This section of Phase-Field Recommended Practices Guide is split into two subsections – one focused on choosing appropriate numerical methods and one focused on choosing whether to code your own solvers or
System Security Plan Model (SSP) Purpose The OSCAL system security plan (SSP) model represents a description of the control implementation of an information system The SSP model is part of the OSCAL implementation layer The OSCAL SSP model enables full modeling of highly granular SSP content, including points of contact, system characteristics, and control satisfaction descriptions At a more detailed level, this includes