Exhibit “M”

Midwestern State University Health Science & Human Services Center

BIM (Building Information Modeling)3D Design & Modeling Program Requirements

1.1 BIM REQUIREMENTS

a. Building Information Modeling (BIM) Deliverables: BIM Deliverables are in addition and in conjunction to all other contracted deliverables.

b. This project will be utilizing Building Information Modeling (BIM). As part of this process the following trades shall utilize a Three Dimensional CAD format capable of creating intelligent objects as the design tool to create their shop drawings:

c. HVAC (Sheet Metal), MECHANICAL PIPING & EQUIPMENTd. PLUMBINGe. ELECTRICALf. FIRE PROTECTIONg. STRUCTURAL STEELh. METAL STUD FRAMINGi. STRUCTURAL CONCRETEj. METAL AND TERRA COTTA PANELSk. CEILINGSl. LOW VOLTAGE SYSTEMS & PHOTOMETRIC SYSTEMSm. GLASS & GLAZING CURTAINWALLSn. All select subcontractors are required to have and use Navisworks (Version 2015) as the collaborative

software to combine each disciplines model and use clash detection as a coordination tool. Select subcontractors must demonstrate the ability and willingness to use these tools and the tools interoperability with the Navisworks software. In addition to general contract requirements, the select subcontractors are also required to provide 2D shop drawings using A/E/C CAD Standard Release 6.0, along with their 3D model(s) of their scope of work as outlined below in both native (DWG, RVT.) and Navisworks (.NWD or .NWC) format.

o. A preliminary BIM Project Execution Plan (PxP) is attached, the final PxP will be completed after subcontractor selection. Trinity Hughes Sundt will hold a BIM Kickoff Meeting after subcontractor selection with all subcontractors participating in the BIM process to review the PxP at the location specified by the Project BIM manager. Subcontractor’s lead Drafter/Modeler, Project Manager and Field Foreman/Superintendent will be required to attend this meeting in person. The lead drafter and Foreman/Superintendent from each subcontractor will be required to attend all subsequent collaboration meetings as outlined in the PxP at the location and frequency as determined by Trinity Hughes Sundt. The foreman/superintendent managing the work in the field is required to participate in the BIM coordination/clash detection meetings held three times week until design and coordination is complete. At the BIM meetings, each subcontractor’s foreman/superintendent will be required to assist in discussions with subcontractor’s lead drafter/modeler, project manager and other subcontractors in the coordination and sequence of work.

p. Should unavoidable conflicts be encountered during the preparation or review of the coordination models and supplemental drawings or Shop Drawings, or during construction, they shall be promptly brought to Trinity Hughes Sundt Construction, in writing for resolution.

q. Coordinated Shop drawings must be signed off by each coordinating trade and Trinity Hughes Sundt Construction prior to submitting to the Contracting Officer (Owner). Prepare detailed Shop Drawings in plan view, with cross-sections as necessary, indicating the proposed installation plan for all wood or metal stud framing, HVAC, mechanical, fire alarm, plumbing, and electrical installations within the ceiling. These drawings should depict actual elevations, linear dimensions, all routing changes, transitions, and major offsets deemed necessary to accomplish the installation. Individual Shop Drawings will be prepared for each trade working within the designated space or area. These Shop Drawings shall be submitted to the Contracting Officer (Owner) for review prior to commencement of installation.

r. Shop drawings should accurately reflect the coordinated BIM model. Subcontractor shall remove and replace all work that does not comply with the signed off and approved coordinated shop drawings at his own expense. Repair or replace any other Work or property damaged by these operations at no additional cost to Trinity Hughes Sundt Construction or the Contracting Officer (Owner).

s. Where the Drawings are diagrammatic, showing only the general arrangement of the systems, subcontractor shall have responsibility for the fitting of materials and equipment to other parts of the equipment and structure, and to make adjustments as necessary or required to resolve space problems, preserve service room, and avoid architectural and structural elements and the Work of other trades. Contractor may be required to identify certain areas to relocate installations within the spaces depicted on

the Drawings, e.g., ductwork may be shifted within the space shown to accommodate other systems. Such functional relocations shall not be deemed a change to the requirements of the Contract. In the event a rerouting of a system appears necessary, Contractor shall clearly highlight the proposed rearrangement on the submitted Shop Drawings.

t. Do not obstruct spaces and installations required to be clear for operation, maintenance, part replacement or Applicable Code Requirements. Do not cover any piping, wiring, ducts, or other installations until they have been inspected and approved and required inspection certificates issued. Ensure that anchorage, blocking, joining, and other detailing are provided as required.

1.2 GENERALa. All models to be provided to Trinity Hughes Sundt in native file format as well as Navisworks Document

Format (.NWD) or Navisworks Cache Format (.NWC)b. All elements of the project to be created in 3 Dimensions with real world sizes and coordinates c. All elements to have identifiable material designationsd. All elements to have identity codes or CSI codes attachede. Equipment, doors, and windows to have manufacture and model attached if knownf. The collaboration meetings will be held at a location to be determined by Trinity Hughes Sundt that best

suits the project’s needs. A minimum of one contact from each firm shall be required to attend and participate in this weekly meeting; this contact must have a working knowledge of the model as well as the authority to authorize changes.

g. Trinity Hughes Sundt will set up a project collaboration website (SharePoint) for the sole purpose of exchanging modeling data. Each firm will be responsible to update their portion of the collaborated model to this website biweekly for the use in the weekly clash detection meeting. In some occasions firms will be asked to post more frequently for coordination purposes.

h. All firms shall be responsible for providing their models in a Navisworks format. Please refer to http://www.autodesk.com/products/navisworks/autodesk-navisworks-nwc-export-utility for information on files that can be converted to Navisworks format by using exporter utilities.

1.3 HVAC (Sheet Metal), MECHANICAL PIPING & EQUIPMENTa. Prepare model and all working and contract documents using one of the following 3D design tools:

i. Autodesk Revit MEPii. AutoCAD MEP

iii. CADDUCTiv. AutoCAD Fabrication CADmepv. All other formats must be preapproved in writing

b. Model all HVAC systemsc. Model all ductwork including flanges, connections and flex ductd. Model all diffusers and return air ductse. Model all hard piping including, but not limited to underground piping within 5’-0” from the edge of

buildingf. Model all gravity fed piping regardless of sizeg. Model all curbs and equipment padsh. For all equipment requiring installation or maintenance clearances, model the clearance as a separate

semi-transparent element in the assemblyi. Model all access panelsj. Model all seismic bracing, hangers and supports for piping and ductworkk. Model and specify all penetrations and openings needed for routing with all contractors l. Model all other areas deemed necessary by Trinity Hughes Sundt for HVAC, Mechanical Piping & Equipmentm. Model insulation on all systems which are neededn. Model all temporary systemso. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.4 PLUMBINGa. Prepare model and all working and contract documents using one of the following 3D design tools:

http://www.autodesk.com/products/navisworks/autodesk-navisworks-nwc-export-utility

i. Autodesk Revit MEPii. AutoCAD MEP

iii. CADDUCTiv. AutoCAD Fabrication CADmepv. All other formats must be preapproved in writing

b. Model all plumbing systemsc. Model all hard piping including underground piping within 5’-0” from the edge of buildingd. Model all gravity fed piping regardless of sizee. Model all curbs and equipment padsf. For all equipment and piping requiring installation or maintenance clearances, model the clearance as

a separate semi-transparent element in the assemblyg. Model all access panelsh. Model all seismic bracing, hangers and supports for pipingi. Model and specify all penetrations and openings needed for routing with all contractorsj. Model all other areas deemed necessary by Trinity Hughes Sundt for Plumbingk. Model all insulation on all systems which are neededl. Model all temporary systemsm. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.5 ELECTRICALa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revit MEPii. AutoCAD MEP

iii. AutoCAD Fabrication CADmepiv. All other formats must be preapproved in writing

b. Model all electrical systemsc. Model all distribution boxesd. Model all non-flexible conduit runs of 1” diameter or largere. Model all bundled and ganged conduitf. Model all underground conduit runs within 5’-0” from the edge of buildingg. Model all curbs and equipment padsh. Model all fixturesi. Model specialty systems (Fire Alarm, A/V, Security, Access Control and Telecom, etc.)j. For all fixtures requiring installation or maintenance clearances, model the clearance as a semi-transparent

item in the assemblyk. Model all access panelsl. Model all seismic bracing, hangers, cable trays and supportsm. Model and specify all penetrations and openings needed for routing with all contractorsn. Model all other areas deemed necessary by Trinity Hughes Sundt for Electricalo. Model all temporary systemsp. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.6 FIRE PROTECTIONa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revit MEPii. AutoCAD MEP

iii. CAD MEPiv. SprinkCADv. HydraCAD

vi. AutoCAD Fabrication CADmepvii. All other formats must be preapproved in writing

b. Model all fire sprinkler systems, sprinkler drops and risersc. Model all piping runs

d. Model all access panelse. Model all seismic bracing, hangers and pipe supportsf. Model all other areas deemed necessary by Trinity Hughes Sundt for Fire Protectiong. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.7 STRUCTURAL STEELa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revit Structureii. Tekla (A Trimble Company)

iii. Autodesk Advanced Steeliv. All other formats must be preapproved in writing

b. Model all full height walls and all framing systemsc. Model all columns, beams, joists, purlins and trussesd. Model all ledgers and anglese. Model all framing pertaining to soffits, ceilings, skylights and shaftsf. Model all penetrations and openingsg. Model all seismic bracing, connection plates, kickers, hangers and supportsh. Model all other areas deemed necessary by Trinity Hughes Sundt for Structural

1.8 METAL STUD FRAMINGa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revitii. StrucSoft Solutions MWF (Metal Wood Framer)

iii. All other formats must be preapproved in writingb. Model all framing systems (Balloon & Platform)c. Model all full height walls, sills and headersd. Model all posts and beamse. Model all furring strips and channelsf. Model all framing pertaining to soffits, ceilings, skylights and shaftsg. Model all penetrations and openingsh. Model all seismic bracing, kickers, hangers and supportsi. Model all other areas deemed necessary by Trinity Hughes Sundt for Metal Stud Framing

1.9 STRUCTURAL CONCRETEa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revit Structureii. Tekla (A Trimble Company)

iii. All other formats must be preapproved in writingb. Model all concrete wallsc. Model all concrete systemsd. Model all grade beams and footings including steps in proper locatione. Model all zone of influencef. Model all penetrations and openingsg. Model all reinforcing steel and post tension strands where needed for coordination with other tradesh. Model all RFI changes related to Concretei. Model all other areas deemed necessary by Trinity Hughes Sundt for Structural Concretej. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.10 METAL AND TERRA COTTA PANELSa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revitii. Tekla (A Trimble Company)

iii. All other formats must be preapproved in writingb. Model all Metal Panel and Terra Cotta Wallsc. Model all Metal Panel and Terra Cotta Wall systemsd. Model all penetrations and openingse. Model all RFI changes related to these systemsf. Model all other areas deemed necessary by Trinity Hughes Sundt for these systemsg. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.11 CEILINGSa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revitii. All other formats must be preapproved in writing

b. Model all ceilingsc. Model all framing systemsd. Model all seismic bracing, kickers, hangers and supportse. Model all other areas deemed necessary by Trinity Hughes Sundt for Ceiling Grid

1.12 LOW VOLTAGE SYSTEMS AND PHOTOMETRIC SYSTEMSa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revit MEPii. AutoCAD MEP

iii. Trimble (QuickPen)iv. CAD MEPv. All other formats must be preapproved in writing

b. Model all electrical systems.c. Model all distribution boxesd. Model all conduit runs of 1.5” diameter or largere. Model all bundled conduitf. Model all underground conduit runs within 5’-0” from the edge of buildingg. Model all fixturesh. Specialty systems (Fire Alarm, A/V, Security, Access Control and Telecom, etc.)i. For all fixtures requiring installation or maintenance clearances, model the clearance as a semi-transparent

item in the assembly.j. Model all access panelsk. Model all seismic bracing, hangers, cable trays and supportsl. Model and specify all penetrations and openings needed for routing with all contractorsm. Model all other areas deemed necessary by Trinity Hughes Sundt for Low Voltage Systems and

Photometric Systems.n. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.

1.16 GLASS AND GLAZING CURTAINWALLSa. Prepare model and all working and contract documents using one of the following 3D design tools

i. Autodesk Revitii. All other formats must be preapproved in writing

a. Model all exterior glass curtainwallsb. Model all curtainwall systemsc. Model all RFI changes related to these systemsd. Model all other areas deemed necessary by Trinity Hughes Sundt for these systemse. Model all areas and systems that will require coordination with other building components or systems that

will be the financial responsibility of the subcontractor.