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1. #Ashrae psychrometric chart app update
2. #Ashrae psychrometric chart app software
3. #Ashrae psychrometric chart app license

We verified that each of the validation test cases imported correctly into the OpenStudio SketchUp plug-in. We applied validation procedures to each of the OpenStudio models developed in task 1.

#Ashrae psychrometric chart app license

All scripts and model content developed for this purpose were developed under the Lesser General Public License (LGPL) open source license and are maintained in a public repository on ( ). The models were programmatically generated using the OpenStudio Ruby API. The test cases were derived from the ASHRAE RP-1468 documentation. We developed OpenStudio models for a number of the buildings in the validation procedure test suite. Developed OpenStudio Models for Validation Procedure.Here are the tasks that were performed to achieve the above objectives: Finally, the use case of upgrading user models to the current gbXML schema version was identified.

#Ashrae psychrometric chart app software

The second use case was for software to detect certain classes of problems with the user’s model and identify those visually in the 3D display. This would allow the user to identify any problems with their model visually. The most important user story developed was to allow a user to upload their gbXML file to the website and view a 3D representation in their web browser. User stories were developed and preliminary mockups were made. In support of the third objective, we developed requirements for a generic validator. In fact, Autodesk will soon be validated to Level 2 compliance (see below) and is working with on Level 3 compliance. In addition, we simplified and streamlined the validation process to allow the process to be both more responsive and clear to market demands, while also allowing room for future growth of test cases. We publicized the state of the OpenStudio validation efforts to encourage other software tools to apply the validation procedure to their own tools. This required contacting other gbXML software vendors directly as well as making public announcements, conducting live webinars, and promoting other ways to generate user interest in the validation efforts. We publicized the validation procedure and encouraged gbXML software vendors to apply it to their tools. In support of the second objective, we drastically improved the validation website, documentation, and tools required to apply the validation procedure. OpenStudio passed the validation procedures and is now the first software authoring tool to officially become “gbXML certified” ( ). These models were generated programmatically using the OpenStudio Ruby Application Programming Interface (API) to reduce maintenance costs and to allow them to be leveraged for other purposes. In support of the first objective, we developed OpenStudio models which represented the buildings in the validation procedure test case. Delivering a fully working validator was out of scope of this work, therefore requirements were developed to set the stage for future work. The third objective was to work towards a generic validator that could be used on general user models, as opposed to the strict test case models required by the gbXML validation procedure.The second objective was to encourage other software vendors to certify their software using the validation procedure as well.

#Ashrae psychrometric chart app update

Carmel Software was hired by the National Renewable Energy Lab (NREL) to update and improve the Green Building XML ( ) schema, all in the name of improving interoperability amongst disparate building design software tools.