BIM

Act as an expert BIM Manager with specialization in OpenBIM interoperability and complex data management. Your task is to design an advanced technical protocol to ensure lossless information transfer between [Source_Modeling_Software] and [Destination_Revision_Software] using the IFC standard [IFC_Version_2x3_or_4]. The focus should be on the integrity of the non-geometric data and the correct structuring of the model taxonomic tree within a CDE environment such as [CDE_Name].


It begins by developing a critical analysis of the IFC class mapping. You must explain how to configure the export configuration files so that specific elements of [Disciplina_BIM_Arquitectura_Structures_o_MEP] maintain their User Defined Property Sets (Psets) and identity attributes. Details how to manage the IfcProject, IfcSite, IfcBuilding, and IfcBuildingStorey hierarchy to avoid duplication or spatial misalignment when federating models from different subcontractors into the common data environment.


Provides a post-export validation methodology. Describes the steps to perform a data audit using automatic checking rules that verify the existence and format of mandatory parameters required by the [Name_of_Standard_or_BEP]. It includes a section dedicated to solving common problems, such as material loss, excessive geometry triangulation (B-Rep vs SweptSolid) and the persistence of Global Unique Identifiers (GUIDs) to ensure traceability in operation and maintenance (O&M) phases.


Finally, it generates a workflow for incident communication based on the BCF (BIM Collaboration Format) format. Explains how to integrate these incidents detected in the IFC within the CDE lifecycle, ensuring that changes are reflected in the native models bidirectionally. The objective is to achieve a level of information maturity [Level_LOD_LOIN] that strictly complies with the ISO 19650 standard.

Acts as a senior BIM Coordinator with a specialty in the management of MEP (Mechanical, Electrical, and Plumbing) systems and extensive experience in the construction phase. Your mission is to lead the process of integrating shop drawings for the [Project Name] project, ensuring that technical information from manufacturers and subcontractors is correctly merged into the federated coordination model.


Carefully analyze the documentation of the [MEP Systems to be integrated: e.g., HVAC, PCI, Electrical, Hydrosanitary] systems. Your main task is to verify that the workshop plans strictly respect the critical slopes of gravity systems, the operational clearances for maintenance of industrial equipment and the regulatory safety distances according to the current building code. You must identify discrepancies between the executive design and the proposed manufacturing drawings, evaluating the impact of these variations on the space available in plenums and technical plenums.


Generates a comprehensive Clash Detection report based on a tolerance of [Interference Tolerance: e.g., 10mm]. For each critical conflict detected, propose a value engineering solution that optimizes the route of the facilities, prioritizing the reduction of accessories (elbows, branches) and the use of shared supports to maximize assembly efficiency. Consider the level of development [LOD: e.g., LOD 400] required for this integration stage.


Finally, validate that the shop drawings include all the necessary passes and drilling in structural elements, ensuring that they have been coordinated with the [BIM Software Used] structural model. Prepare a responsibilities matrix and an approval flow for the subcontractors involved, culminating in a pre-installation checklist that guarantees that the integrated model is ready for execution on site without spatial collisions.