Tuesday, April 24, 2018

Free MCERF Complexity Measurement Tool – Analyzes Congestion and Complexity of MEP Spaces

From the Building System Planning website:

MCERF Complexity Measurement Tool

The Mechanical Contracting Education & Research Foundation (MCERF), the non-profit foundation of the Mechanical Contractors Association of America (MCAA), collaborated with BuildingSP, a California-based software developer, on a building analysis add-in for the Autodesk Revit building information modeling (BIM) platform. The Revit add-in is called the MCERF Complexity Measurement Tool (CMT) and analyzes a building’s mechanical, electrical, and plumbing (MEP) spaces for congestion and complexity.

The Goals of Creating the MCERF CMT

The MCERF CMT has been created because complexity and congestion of spaces with MEP can be major obstacles, cost drivers, and schedule shifters for all construction projects. While the shift to BIM has transformed the industry, MEP subcontractors have a significant challenge to coordinate projects that are becoming more and more complex. MCERF and MCAA, like our member companies, believe that digital tools are an important and valuable part of construction. The MCERF CMT is being created to raise awareness of MEP congestion and complexity through measurable, reportable, and standardized values.

Download the MCERF CMT for FREE

The MCERF CMT is distributed free of charge for use by the architecture, engineering, and construction (AEC) industry. By clicking the links below and entering your email, you'll receive a download link. Please be sure to include a valid email address.

This distribution is aligned with MCERF’s goals of outreach and industry support.

How the MCERF CMT Works

The MCERF CMT is a computational BIM tool that uses the Revit API to analyze, measure, report, and store information about complexity. The general theory of the MCERF CMT is to break up the building’s interstitial spaces into discrete columnar elements and measure how “filled” they are with MEP systems, structures, and other Revit families. Measured volumes that are highly filled are obviously congested.

The add-in first identifies all the interstitial spaces used for routing MEP systems in a combined Revit model. It does this through a combination of dialog boxes to determine the level being analyzed, the programmatic identification of ceilings, and querying the structural decks above these ceilings. The MCERF CMT then measures the volume of space that is filled with MEP systems and other Revit elements, including Industry Foundation Class (IFC) file elements. The add-in includes the space that is within a system (such as the interior of a duct) as being part of the filled volume. The CMT complexity metric is then the ratio of filled space to total volume. Finally, the add-in uses Revit’s analytics graphics to overlay a “heat map” on the plan view. This heat map has gradients of colors that correlate to low and high levels of congestion. Blue is the most congested (from 90% to 100% filled) and green is the least congested.

Technical Specifications of the MCERF CMT
  • The MCERF CMT works with Revit 2016, 2017, and 2018.
  • Computers meeting the minimum requirements for Revit can run the MCERF CMT. 
  • The tool can be run on a single Revit space or on a given Revit Level. 
  • It can work on projects with unusual shapes and on floors with different ceiling heights.

Figure 2: This side-by-side comparison of a standard Revit model with the output from CMT demonstrates
how the added insight from the CMT is important to understand potential coordination problems. It can be
particularly useful for scheduling of construction trades because it shows a more thorough image of what's
occuring in the ceiling while still being viewed as a plan.

The MCERF CMT Is Enabling Opportunity

After extensive beta testing, it is clear that the MCERF CMT is an enabling tool that creates opportunities for the industry to engage in new and exciting forms of analysis. Prior to this tool, the industry never had a unified method of characterizing MEP spaces and generating metrics that could be used by teams, projects, and enterprises. The MCERF CMT has been used to data mine, investigate, and benchmark 3D models on projects. For example, the MCERF CMT is able to provide metrics to answer the following questions:
  • How does congestion vary by project type?
  • How does congestion grow from design into coordination and then into construction?
  • By what percentage do design models differ in routing from design through construction?
  • How do project scope changes alter congestion and affect coordination?
  • How does congestion vary down a corridor and what strategies are successful for managing the most challenging congestion?
  • What MEP congestion levels and characteristics lend themselves to maintainability? Constructability?

Slack Team for MCERF CMT Users

In order to promote sharing and support of the MCERF CMT, BuildingSP is maintaining a Slack Team for collaboration. Users who download the MCERF CMT can contact us and get added to the MCERF CMT Slack. Slack is a collaboration platform used by teams to communicate, share, and store. BuildingSP uses it every day for our internal communications and we believe that a Slack Team of CMT users could create an exciting community of users. You can get more information about Slack at

If you want to join the MCERF CMT Slack Team, send an email to and we'll add you.

About MCAA and MCERF

The Mechanical Contractors Association of America, Inc. (MCAA) serves the unique needs of approximately 2,600 firms involved in heating, air conditioning, refrigeration, plumbing, piping, and mechanical service. MCAA does this by providing its members with high-quality educational materials and programs to help them attain the highest level of managerial and technical expertise. Mechanical Contracting Education and Research Foundation (MCERF), the non-profit foundation of the MCAA, furthers this mission through outreach to the AEC community, as well as the public at large.

About BuildingSP, Inc.

BuildingSP, Inc. is a California-based software development firm focused on improving BIM workflows through design automation and advanced computation. Its work in clash-free autorouting of building systems and real-time clash detection has been recognized globally as the path forward for BIM and virtual design and construction. For more information, visit

There's more information available on the Building System Planning website.

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