GRAITEC announces the compliancy of Advance Steel with AVEVA PDMS. This technology partnership will allow interoperability between the two software products and will increase productivity of engineers by offering an integrated solution from design to fabrication.
Advance Steel 2011 successfully completed the validation and testing with AVEVA PDMS through AVEVA’s OpenSteel interface. OpenSteel supports tightly integrated 2-way exchange of intelligent data with Advance Steel that includes modification and updating of the PDMS model. The combined solution reduces design time, rework and project cost by streamlining collaboration between 3D plant layout and steelwork detailing.
Part of the GRAITEC Advance BIM solution, Advance Steel is specifically designed for structural engineers and steel detailers who require professional and easy-to-use BIM software dedicated to structural detailing , miscellaneous steel modeling and automatic creation of drawings, BOMs and NC files. Advance Steel drastically increases productivity and drawing quality, while reducing the risk of errors.
AVEVA PDMS is the most powerful and productive 3D plant design software available, PDMS is the solution of choice in most of the world’s power and plant industries. It supports projects of all sizes, from the smallest upgrade to new-build installations of unlimited complexity, and offers valuable collaboration opportunities and an extensive pool of skilled users.
AVEVA PDMS Advance Steel 2011
Example of a pylon model shared between AVEVA PDMS and Advance Steel 2011.
For Paul Cooper, VP Partnerships and Strategic Alliances at AVEVA: “This agreement demonstrates AVEVA’s continued commitment to interoperability. The AVEVA OpenSteel interface has been developed to enable effective integration between PDMS and 3rd party steel detailing applications and we are delighted to welcome GRAITEC into our global partner network.“
For Manuel Liedot, Chief Technical Officer at GRAITEC SA: “The main benefits of this AVEVA PDMS / Advance Steel compliancy is the ability to identify and avoid collisions (e.g., identifying ductwork running into structural members or railings), and the creation of an interactive and complete 3D model which can produce detailed drawings for accurate fabrication and construction of the project.“