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Sultanate of Oman Ministry of Transport & communications DESIGN & BUILD IN-FLIGHT CATERING FACILITY AT MUSCAT INTERNATIONAL AIRPORT
Project BIM Implementation Manual August 2015
Consultant Project Management Consultant Al Hatmy Engineering Consultancy LLC
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Sultanate of Oman Ministry of Transport & communications DESIGN & BUILD IN-FLIGHT CATERING FACILITY AT MUSCAT INTERNATIONAL AIRPORT
Project BIM Implementation Manual August 2015
0 05.08.2015 M J ALAM S KUMAR S CHATTERJEE
REV. DATE DESCRIPTION PREPARED BY CHECKED BY APPROVED BY
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Table of Contents
1 Contents 2 INTRODUCTION ................................................................................................................................................ 4
2.1 Overview ........................................................................................................................................................ 4
2.2 Main Objectives of Project BIM Implementation Manual ............................................................................... 4
2.3 Reference to other Standard Documents ...................................................................................................... 4
3 BIM PROJECT REQUIREMENTS ..................................................................................................................... 5
3.1 Summary ....................................................................................................................................................... 5
3.2 Technology Platform and Software ............................................................................................................... 5
3.3 Applications of BIM ........................................................................................................................................ 6
3.4 Modeling Requirements ................................................................................................................................. 8
3.5 Drawing Requirements ................................................................................................................................ 10
3.6 Project Folder Structure ............................................................................................................................... 10
3.7 Information Delivery Manual (IDM) .............................................................................................................. 14
3.8 Data Security ............................................................................................................................................... 14
4 BIM PROCESS AND IMPLEMENTATION ....................................................................................................... 15
4.1 General ........................................................................................................................................................ 15
4.2 BIM WORKFLOW PROCESS ..................................................................................................................... 15
4.3 Project BIM Work Plan ................................................................................................................................. 19
4.4 BIM Roles and Responsibilities ................................................................................................................... 20
5 QUALITY ASSURANCE AND VALIDATION ................................................................................................... 22
5.1 Introduction .................................................................................................................................................. 22
5.2 Quality Assurance Checklists ...................................................................................................................... 22
5.3 Checklists for Level of Compliance to Daso CAD Standard ........................................................................ 23
5.4 BIM Project Audit Check List ....................................................................................................................... 24
5.5 BIM Checklist-Contractors ........................................................................................................................... 26
5.6 BIM Checklist-Designers ............................................................................................................................. 28
6 Glossary of Terms ............................................................................................................................................ 31
7 References ....................................................................................................................................................... 32
8 APPENDIX - Diagrams and Technical Footnotes ............................................................................................ 33
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2 INTRODUCTION
2.1 Overview
Ministry of Transport & communications is committed to utilize the tools of Building Information Modeling (BIM) to execute the design, construction and management of the sustainable Design & Build In-Flight Catering Facility Project at Muscat International Airport. The Project BIM Implementation Manual have been developed to define a process and establish requirements, procedures and protocol for the utilization of BIM in the various stages of the project. These Standards are based upon the U.S. national cad standard for architecture, engineering & construction (a/e/c), the US Army Corps of Engineers (USACE), Autodesk BIM Deployment Plan, ISO DIS 13567 and AEC (UK) BIM Standard for Autodesk Revit.
2.2 Main Objectives of Project BIM Implementation Manual It is the intent of Project BIM Implementation Manual to facilitate the use of BIM technologies and workflow to achieve the following goals:
1. To carry out the design development process (Stages 1 to 3) as per clause 3 of General Contract Requirement, for all disciplines and to ensure a fully integrated approach ensuring that all outputs such as drawings for the Interim design and detail design drawings, construction / shop drawings and as-built drawings must be compliant with the Daso-CAD Manual.
2. Develop high performance buildings using sustainable design concepts to achieve a net zero energy use for our buildings
3. Facilitate a collaborative project environment between all stakeholders from project inception to completion
4. Execute coordinated project documents using the 3D modeling and parametric features of BIM 5. Improve system coordination and the execution of design intent in the field to streamline construction
processes and minimize change orders 6. Utilize 4D Technology and Process to better manage transition from design to construction and virtually
simulate construction processes with various trades to avoid conflicts in the field 7. Utilize 5D technology and processes to develop building life cycle costs projections, and more accurate
project cost estimates 8. Incorporate as-built BIMs, including infrastructure and building systems, in to Geographical Information
System (GIS) 9. Incorporate submission of the BIM as a requirement for Client / Engineer’s electronic review and approval
2.3 Reference to other Standard Documents The Project BIM Implementation Manual reference requirements and guidelines outlined should be read in conjunction with these documents which include:
a. U.S. national cad standard for architecture, engineering & construction (a/e/c) b. ISO DIS 13567 c. Daso-CAD Manual d. General Contract Requirements e. Autodesk BIM Deployment Plan f. Sustainable Design Standards g. AEC (UK) BIM Standard for Autodesk Revit
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3 BIM PROJECT REQUIREMENTS
3.1 Summary
The Contractor shall use building information modeling 30 software (BIM) to carry out the design development process (Stages 1 to 3) for all disciplines and to ensure a fully integrated approach. Outputs from the BIM is to be fully compatible with AutoCAD 2006 or higher. All design analysis shall be performed using Industry Standard Proprietary Software commonly used in the construction industry. The use of all software is to be approved by the Engineer prior to commencement of the design development process. Mandatory BIM Project requirements shall include the modeling, visualization, documentation and analytic processes of the building design, as shall assist in validating the scope and cost of the project. The principal objective of incorporating BIM is to improve the quality of design solutions and the exchange of information between the stake holders. This requires cooperation between the Engineer, design build team, project management and Client.
3.2 Technology Platform and Software Client accepts true 3D solid modeling, object oriented software applications that comply with current industry interoperability standards and are able to be used in a collaborative environment. The models and analyses shall be used in support of the decision making process for high performance project design. All software platforms used for the projects MUST be compliant with:
• Most current version of Industry Foundation Classes (IFC) file format • Commercially available collaboration software that provides interoperability between the different
software applications (e.g. NavisWorks or equal) Standard BIM Software used for the Projects*:
Software Available Authoring – Design (Architecture, Structural)
Revit Architecture, Bentley BIM, ArchiCAD, Tekla or equal
Authoring - MEPF (design & construction)
Revit MEP, AutoCAD MEP, Bentley BIM, CAD-Duct, CAD-Pipe, AutoSprink, PipeDesigner 3D or equal
Authoring - Civil Bentley Inroads and Geopak, Autodesk Civil 3D
Coordination (spatial conflict, clash detection)
NavisWorks Manage or Bentley Navigator
4D Scheduling Synchro, Vico, NavisWorks Simulate, Primavera, MS Project , Bentley Navigator
Cost Estimate Innovaya, Vico or equal
Energy Analysis Green Building Studio, IES, Ecotect, Hevacomp, TAS, or equal
Specifications E-Specs or equal Model Checking Validation, IFC File Optimizer
Solibri or equal
Water Management Bentley WaterGem
* Software other than those listed below may be used subject to the above compliance requirements and approval by the Client.
All outputs such as drawings for the Interim design and detail design drawings, construction / shop drawings and as-built drawings must be compliant with the Daso-CAD Manual as such, the expectation shall be that plans,
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elevations, sections, schedules, and details are fully coordinated with the concurrent building model. All other documents are to be submitted per the contract requirements.
3.3 Applications of BIM BIM output can be utilized in a variety of ways to provide stakeholders with a greater understand of how a building is to be used, designed, and constructed. The various applications in which BIM shall be utilized shall be as follows:
1 Site Conditions - Existing Conditions and New Construction
For new construction and renovation projects, the modeling of the project site and the existing structures, shall be included in the BIM requirements. For all projects, the modeling of existing buildings shall be performed based upon provided as-built information, with field verification or electronic measurements conducted by Project team to validate the level of accuracy.
For all existing conditions to be directly impacted, altered, or to be demolished by a proposed renovation, Project Designers shall model those conditions to the appropriate level of detail that will clearly demonstrate the design intent to building stakeholders, other Project Team Members, and construction trades directly involved with executing this change. Prior to construction, it shall be the responsibility of the Contractor to verify all existing conditions and model or update any conditions in the design model for construction means and methods associated with their scope of work.
Proposed site conditions shall reference benchmarks and reference existing surveys and GIS mapping systems for accuracy. New site and utility conditions shall be modeled in 3D, and shall coordinate system and spatial models three dimensionally. Where other systems are directly impacted by landscape features (i.e. vegetation, irrigation), those elements shall be modeled with correct size and clearance requirements in BIM.
2 Architectural Model - Spatial and Material Design Models
The Architectural Spatial model evolves during the design process, and the information modeled in BIM shall be further refined as a project progresses toward construction. In the early phases of design, an Architectural BIM Model may be as simple as a massing model validating program requirements, basic geometries, and building orientation to climate and site conditions. As the design progresses, design options shall develop and need to be clearly documented and delineated in the BIM model. Likewise, as materials and components are selected, generic assemblies shall be assigned material properties, sizes, track LEED values, and other specific component information to clearly define various building features such as walls, floors, roofs, doors and windows. Program space requirements shall be modeled in the spatial model and validated using schedules and other validation tools designated by the PMC/Client for the specific project.
3 System Models - Structural and MEPF design
With current technology, building systems are best organized as separate BIM models linked to a common benchmark for efficient and accurate coordination purposes. Similar to the spatial models, the level of detail in these models shall evolve as design progresses such that these systems are accurately modeled, and include sufficient performance, clearance, and LEED requirements as part of the BIM.
4 Cost Estimation
Cost estimation shall be generated from the Project BIM at project milestones designated by the contract. At the completion of Construction Documentation Phase, the Design Team shall provide to potential bidders a copy of the fully assembled and coordinated BIM in a non-editable format. (i.e. Navisworks .nwd, .dwf, 3d .pdf).
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5 4D Scheduling and Sequencing
The construction planning process mandates the sequencing of activities in space and time and accounting for constraints such as procurement lead time/logistics, resources, spatial constraints, and weather among others.
Traditional scheduling methods do not address the spatial aspect to the construction activities nor are they directly linked to a design or building model. Traditional bar charts or Critical Path Method Network Diagram can be difficult to understand or interpret. Having the ability to watch the elements of a design come together onscreen gives the design and construction team improved accuracy in construction sequencing.
The primary elements for 4D simulation and sequencing shall be as follows:
Structural system All structural framing components including foundations, grade beams, columns, load bearing walls, floor and roof decks and support
Exterior building envelope
Stud walls, Exterior Panels and assemblies, curtain walls, openings, glazing
Exterior building envelope
Main plumbing walls and wall assemblies
Mechanical system Main Ductwork and Equipment, (Separated by floors) Roof systems Roof Assemblies, Major Equipment, Openings Site work and ground plane
Excavation work, footings, foundations, on-grade Slab
Plumbing Main Connection lines from site, main plumbing lines
The optimal process in 4D scheduling is to import schedule activity data from a scheduling application such as Primavera P3/P6 into a dedicated 4D scheduling application and “link” the activity data to the associated object in a 3D model. The result is a 4D model which provides a value advantage to the Project Team for better visualization and coordination of the construction sequence for respective trades. Prior to the start of construction, Design-Builder (General Contractor) shall link BIM to the approved construction schedule.
6 5D Estimation
Client will not require BIM based 5D Estimation at this time. We will address this requirement in later versions of this Standard as technology progresses.
7 Energy Consumption Simulation and Life-Cycle Cost Analysis
In order to achieve net zero energy goals for its projects, all new construction shall need to be designed in a way that energy and material use can be greatly reduced and then measured and verified by a building’s users and facilities management teams once it is occupied. As such, energy simulation and life-cycle cost calculations shall be based upon information extracted directly from BIM technology and validated by energy modeling, whole building commissioning requirements and LEED Certification.
Exporting to gbXML - Project teams shall utilize energy modeling and sustainable design software that extracts BIM data to gbXML format for analysis. Reference section 3.2 for approved BIM Authoring Tools.
8 Design Visualization
Design Visualization tools refer to animations, fly-throughs, static 3D renderings, 4D, and 3D Physical Models exported directly from a BIM Authoring Tool. Design teams shall participate in providing the quality design visualizations that illustrate building spaces, their use and organization, to assist stakeholders in making decisions throughout the project duration. During Construction, visualization models may be developed by the Contractor to help simulate, clash detection and sequence construction of a project before it is built.
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It should be noted that even though the BIMs contain most of the source information needed for visualization, they may require further refinement in specific animation and visualization software to accomplish intended results.
3.4 Modeling Requirements
1 General
a. The BIM shall be used for all site and building systems design, development, and analysis, including but
not limited to architectural, structural, mechanical, electrical, plumbing, and fire suppression, etc. All outputs such as drawings for the Interim design and detail design drawings, construction / shop drawings and as-built drawings must be compliant with the Daso-CAD Manual as such, the expectation shall be that plans, elevations, sections, schedules, and details are fully coordinated with the concurrent building model. All other documents are to be submitted per the contract requirements.
b. During Interim Design and Detail Design Phases, BIM Technology shall be used to develop and establish
building performance, and the Basis of Design in accordance with General Project Requirements (GCR). This model shall be interoperable with analytic tools including but not limited to building envelope, orientation, daylighting, energy consumption, building management system (BMS), building automation systems (BAS), renewable energy strategies, life cycle cost analysis, and spatial requirements.
c. Use BIM authoring software element libraries when creating model objects. Model objects shall contain
parts and components as opposed to simple 3D Geometry (i.e. walls, doors, windows, railings, stairs, furniture etc.)
d. Model objects shall contain IFC parameters and associated data applicable to building system
requirements. These elements shall support the analytic process include size, material, location, mounting heights, and system information where applicable. As an example, a light fixture may contain several parameters such as energy output requirements, user illumination levels, make, model, manufacturer, bulb life etc.
e. Sustainable design principles and LEED Credit Documentation shall be included in the BIM to analyze,
document, and verify project LEED Certification Goals. f. Design Team shall provide awarded General Contractor a copy of the fully coordinated and assembled
BIM (in Navisworks or equal), as well as copies of the Authoring BIMS for each trade (see Sec 3.2.c). These Authoring BIMS shall be used as basis for fabrication models generated by sub-contractors. It is recommended Design Team and Contractor establish a protocol for digital data exchange (i.e. interoperable file formats) prior to providing these models.
g. General Contractor shall utilize model geometry and extract graphical information for generating
construction administration documents from the Project BIM, i.e. RFI’s, Directives, Bulletins, Change Orders. Construction team shall record as- built conditions in BIM as part of final delivery to Client.
h. All outputs such as drawings for the Interim design and detail design drawings, construction / shop
drawings and as-built drawings compliant with the Daso-CAD Manual, calculations and analysis shall be extracted from the Project BIM.
2 Types of Model Elements Model elements shall be derived from the following sources: a. Manufacturer’s Model Elements - elements created by and acquired from manufacturers. It is the author’s
responsibility to display the appropriate level of detail for the design element. Embedded performance data shall remain for analysis and specification purposes.
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b. Custom Created Model Elements - model elements created by the model author must utilize appropriate BIM Authoring tool templates to create custom elements. Custom models components need to be assigned as a part and part of a family or group.
c. Client Provided Model Elements - model elements created by specialists, containing the minimum
standards set forth in this document. 3 Model-based Quantity Take-off Client will not require model based quantity take offs at this time. We will address this requirement in later versions of this Standard as technology progresses. 4 Specifications It is required to direct model linkage to specifications. 5 Model Geographical Location
For bench mark details to be discussed with PMC/Client.
6 Program Spatial Requirements
a) Spatial data should be generated and associated with bounding elements (walls, doors, windows, floors,
ceilings etc.). b) Space/area schedules and diagrams must be dynamically updated from the model geometry. c) Client Spatial Requirements must be validated using BIM Technology.
7 As Built BIM
BIM must be updated continuously throughout the construction phase and must include all RFI’s, as built conditions, etc. Contractor shall have modelers on site continuously updating constructed related changes. Design Team shall update design changes coordinated with the contractor via RFI’s and change orders, and verify completeness and accuracy of Contractor’s As-Built BIM relative to design intent, and progress of the schedule.
1. Contractor shall make the As-Built BIM available to the Design Team and Engineer for review for the
duration of the construction schedule.
2. Within 30 days of Substantial completion, Contractor shall submit the completed As Built BIM to the Engineer and Design team for final review and approval. The as-built BIM shall include the following:
a. As-built conditions relative to design intent and construction means and methods. b. Native file formats and all associated and linked files for all:
1. Authoring models generated by the Contractor 2. Fabrication models
c. Fully assembled and coordinated master model d. Full description of how to reassemble the model and how to extract 2D documentation, software and
version number. e. Authoring Models shall include data for installed equipment necessary for Operation and Maintenance,
including by not limited to: 1. Equipment Tag (name and number) per Design Documents 2. Model Number 3. Manufacturer 4. Serial Number 5. Installation Date 6. System Information 7. Performance Characteristics and Attributes 8. References to O+M Manuals, Warranty Data, Training and Safety Manuals
f. Copy of Native Models converted to .dgn/i-model or compatible format.
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3.5 Drawing Requirements
Drawing Requirements pertain to standards for output of models such as file naming, line work, font styles, title blocks, symbols, text styles, printing requirements, and Daso-CAD Manual content.
3.6 Project Folder Structure
1 General
Maintaining consistent file naming and structure is critical for referenced (linked) files to function properly across project teams and for end users such as facilities managers, to be able to retrieve files quickly once the project is complete. For this reason, Engineer has developed a filing structure to organize BIM Files and other deliverables for the duration of the project.
a Sample Folder Structure
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The root location (drive letter) of the Project folders may differ as per project requirement. However, all project data should be independent of the root drive letter to allow sharing between differing server structures. The Root project Directory must reside directly below the Drive letter:
Discipline Folders - Each discipline shall be assigned a folder corresponding to a Discipline Designator as listed in Table 2. All project files received and referenced from each discipline shall be organized in this folder. As a project progresses, the contents within these discipline folders will expand, and each deliverable should be clearly organized in its own folder.
Discipline DesignatorsTable 2 Discipline (in alphabetical order)
Designator
Architectural AGeotechnical BCivil CProcess DElectrical EFire Protection FGeneral GHazardous Materials HInteriors ILandscape LMechanical MFacilities / Operations OPlumbing PEquipment/SpecialtyDesign
Q
Structural STelecommunication TSecurity TYSurvey VCivil Works WOther Disciplines XContractor/ Shop Drawings Z
BIM Folder - BIM Files shall be sorted by model files and sheet files.
Model Files - Original files from other disciplines should be linked from their discipline folder location and relative path to models. Sheet Files - .PDF and .dwg (.dgn) formats of the most current sheets shall be maintained in this folder and organized with sheet file naming outlined in File Naming Section 3 Sheet Naming and Numbering of Daso-CAD Standards. Support Files - Standard items needed for the project, such as a project specific templates, symbols, applications (lisp, script, etc.), logos and graphics. Project Specific Model Content can also be placed here. Coordination Files – Files for Construction coordination (clash detection) shall be managed by the BIM Facilitator, and organized by date as the project progresses. Other Folders - Renderings, analyses, LEED, etc., will have their own folders which will be populated as the project progresses.
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b Variant Folder Tree
For projects that require multiple buildings, a separate folder structure shall be created for each building and assigned:
Create building folders below the discipline directories as required for the project.
07T Project Code Folder 07T-712_LATTC CTB & EPS Project Folder
07T-712.1 CTB building folder A-Architectural discipline folder
BIM Model Sheet
07T-712.2 EPS building folder
A-Architectural discipline folder BIM
Model Sheet
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C Archiving Milestone Submittals
All documentation pertaining to Milestone Submittals shall be archived and stored within the project file structure with a heading corresponding to the submittal type (i.e. 100% Construction Documents). A sample file structure is shown below:
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3.7 Information Delivery Manual (IDM)
The IDM is a methodology to document the exchange of information using BIM tools to support the sustainable building design solutions with a process map that can be reused to support future project design. Design Teams shall provide IDMs for executing energy analyses, verification of geospatial requirements, project water management, and daylight harvesting analysis in compliance with Standard Information Delivery Model (IDM).
3.8 Data Security
Project Teams shall establish a data security protocol to prevent any possible data corruption, virus “infections” and data misuse or deliberate damage by their own employees or outside sources. Both the Design Team and Contractor shall each establish adequate user access rights to prevent data loss or damage during file exchange, maintenance, and archiving. If an Engineer provided shared file server is available, Design Team and Contractor shall provide user roles to Engineer to establish access rights for all identified users. At the request of the Client, project teams shall provide access rights to a write protected version of the current models for Engineer’s users / stakeholders for review and comment only.
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4 BIM PROCESS AND IMPLEMENTATION
4.1 General
The project BIM Implementation Plan is intended to be used as a guideline to incorporate BIM as an integral part of project's design, construction and facilities management processes. These standards shall be considered Project BIM requirements for implementation of certain BIM processes that may be new to the Project Team. Any deviations to the guidelines outlined herein must be documented by the Project Team, and then reviewed and approved by Engineer prior to commencement. BIM requirements to be as per the General Contract Requirement, or Supplemental Conditions by Engineer, at the discretion and approval of Client Project Manager.
4.2 BIM WORKFLOW PROCESS
1 BIM Workflow Summary
a. Design Phase 1. Architect shall assign a Lead BIM Facilitator to coordinate BIM workflow per section 4.4 2. Designers shall use trade specific analytic and authoring tools to create 3D models to meet
predefined project requirements. 3. For Spatial Coordination, BIM Facilitator will integrate the design discipline and trade specific
models into a consolidated 3D-model using coordination software (i.e. Navisworks, Bentley Navigator). The consolidated model will be used for assembling the various design models and providing a report and view list of design coordination issues.
4. Resolution of Spatial Conflicts: During coordination meetings, the Design Team will electronically identify, track and publish interference reports between all trades. All interferences will be resolved interactively by the design team facilitated with the use of coordination software.
5. Prior to each scheduled coordination meeting, an updated clash report will be issued by Project Team BIM Facilitator to track the progress of coordination, analyze conflicts and help facilitate issue resolution prior to construction.
6. Spatial Coordination Sign-off Drawings: Once all spatial conflicts have been resolved by the design team and the structural, architectural, MEP, and Civil systems have been fully coordinated, each consultant shall provide fully annotated drawings of their respective systems in PDF format for submission to the Architect / Engineer of Record for review and approval. The fully coordinated model shall be used as reference model for the construction team to coordinate compliance of fabrication models with design intent, and shall be updated in a timely manner to reflect design changes in the field.
7. Building Performance and Energy Modeling – Design Team shall regularly update energy models using BIM Data as reference Information generated from Design Energy models shall be integrated into design models as appropriate to achieve building performance and energy efficiency goals of the project.
b. Bidding Phase
1. As part of documents delivered to potential bidders, Design Team shall provide non-editable
version of the coordinated BIM for reference and visualization of the building. 2. After Contract is awarded, the coordinated Design BIM and all native BIM files will be provided to
the General Contractor.
c. Construction Phase 1. Prior to the start of construction, Contractor shall assign a Team BIM Facilitator to coordinate
fabrication models with coordinated design model. If acceptable to the Contractor and Design Team, Contractor may request Team BIM Facilitator be the same individual assigned in the Design Phase.
2. Construction Trades noted in Section 4.2.4.c shall generate fabrication models using Design Team BIMs that have been issued for construction.
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3. Contractor’s Fabrication models shall be coordinated with the design model provided upon Engineer’s Approval. Prior to fabrication and construction Contractor shall report any potential discrepancies to the design model to Design Team in the form of an RFI. Clash reports may also be issued by General Contractor as background information for RFIs and submittals.
4. As part of the requirement for record deliverables Contractor shall continually update the Construction Record BIMs with as-built conditions. Concurrently, Design Team shall update Design Record BIMs with documented design changes in the field.
2 Project Team Collaboration Procedures
The success of a BIM enabled project delivery process is highly dependent upon the level at which the entire project team can communicate and work collaboratively for the duration of the project. This section documents the recommended collaboration procedures for effectively managing this process.
a. Shared File Server - Prior to start of design, it is required that Design Team establish a single shared
project server for the upload and exchange of digital models, and the collection of project deliverables at pre-determined milestones. The same shared server shall continue to be used for the same purposes during Construction. Models on this shared server will be fully accessible web based to all team members via assigned site user names and passwords. If a Client provided shared file server is available, Project Team shall coordinate with the Engineer to establish access. 1. Upload Models to Shared Project Server - During the Design Phases, design engineers and
architects will upload their trade specific authoring and analysis models to the shared Project Server for scheduled coordination meetings and milestone submittals.
2. Design Models uploaded for clash detection and systems coordination should be saved in an optimal interoperable format agreed upon by project team. (i.e. Navisworks accepts several file types but *.dwg, *.nwd /.nwc, and .ifc are file formats that are operable across multiple software platforms)
b. Coordinated Insertion Point – Prior to the start of design in BIMs, BIM Facilitator shall work with
project team to establish a geospatially coordinated insertion point for all disciplines to begin their models. See Section 3.4.5 and Daso-CAD manual for additional information on how to establish insertion points.
c. Points of Reference – The BIM facilitator will provide a 3D grid for incorporation into the spatial coordination model. This will provide the viewer with a quick point of reference when navigating through the model. If room information is easily translatable to the coordination model, this should also be incorporated.
d. Project Kickoff BIM Standards Orientation – Upon award of the project to the Project Team, Engineer / Client shall facilitate a BIM Standards Kickoff Orientation with the Design Team to review the following:
1. Project BIM Standards and Workflow process 2. Statement of Owner’s Project Requirements 3. All data developed during the project validation phase 4. Project Model Template (aka dataset) During Bidding, use of BIM Standards will also be announced to potential bidders, and then reviewed with selected General Contractor prior to the start of construction.
e. Third party involvement - The Project Team is encouraged to seek involvement of selected third parties, such as building officials, local utility companies and other stakeholders that may benefit from a visual review of the coordination model.
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3 BIM Collaboration Room (“BIM Theater”)
During the Design Phases, the Design Team Prime Consultant will provide a room (BIM Theater) for facilitating BIM Collaboration. The BIM Theater shall serve as a collaborative work environment for design review and coordination. Alternately, collaboration using web conference (i.e. WebEx, GoToMeeting or similar) is acceptable for facilitating these meetings.
During Construction, Contractor will provide and set up a BIM Collaboration room located at the construction site to coordinate fabrication models with respective trades.
For each BIM Theater, Smart boards may be used to view documentation (2D and 3D), create mark ups interactively, archive the latter, convert them to RFIs or other relevant reference documents.
4 Spatial Coordination and Clash Detection
In addition to Authoring and Analysis tools, specialized coordination software (i.e. Navisworks, Bentley Navigator) will be needed to facilitate spatial coordination and clash detection in a 3D Environment.
a. 3D-Models, Formats and Model Structures The 3D models shall consist of 3D-Solids (not lines or wire frames) that represent the actual dimensions of the building elements and the equipment that will be installed on the project. In the Design Model, reasonable abstractions can be made (i.e. pipe fittings do not need to be modeled), and shall be coordinated with the Builder to ensure meaningful coordination and clash detection. Before modeling begins, BIM Facilitator will work with team to develop a structure and features of the files that are to be submitted (Documents: File Structure, Modeling Scope Matrix). Typically, BIM Coordination requires the following model structure and features: 1. Project team shall follow File Naming requirements as documented in this manual and Daso-CAD
manual 2. One file for each floor (or zone) of one floor and trade (e.g. 4 floors, 2 wings per floor, and 5
trades => 40 files) 3. For MEP trades, the 3D representations of each floor may be relative to a 0’-0” FFL as long as all
MEP trades agree on the same protocol. The BIM facilitator will adjust the elevations of the architectural and structural elements to 0’0”.
4. All other trades will be modeled at the correct elevation (not all floors modeled at the same elevation).
5. All elements of the building must be represented in only one file and should be modeled by their specific trade. For example, the architectural model provided for 3D coordination should not include any of the structural elements contained in the structural model. Lights should be modeled by the electrical engineer, not the architect.
6. The architectural ceilings should contain openings for lights, registers, etc. as required. 7. All models should include separate 3D representations of required clearances and/or access
requirements for equipment access, light clearances, overhead cable tray access, etc. These clearance/access models should be in a separate layer(s) for each trade clearly labeled as such.
8. The granularity of elements in the model has to correspond with the sequence of the installation at the site (e.g. not one wall element for the entire floor).
9. All 3D model files submitted for clash detection must be “clean” – with any extraneous 2D references and/or 3d elements stripped from the models.
10. E-mail notifications will be generated automatically by the Server system every time a new file is uploaded.
11. When emailing notification of file uploads or for any other email correspondence pertaining to this project, all email subject line headings must be prefaced with the acronym for the Project Name.
12. For ease of identification during the 3D Coordination process, the following trades will be represented in these assigned colors:
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Trade colors for Coordination Software Fire Protection: red Plumbing: magenta HVAC Duct: blue HVAC Pipe: lime green Electrical: cyan Pneumatic Tube: dark green Concrete: Grey Structural Steel: maroon Architectural: white
* Additional trades or systems that may be required shall be identified in the BIM Execution Plan(s) and designated a color to be used for coordination for the duration of the project.
b. Collaboration in the Installation Planning Process
Prior to installation, Contractor will hold planning meetings with affected sub- contractors where the coordinated model will be used to review and optimize field installation. Subcontractors will be expected to have individuals attend who can actively engage in the planning process and make schedule commitments.
c. Digital Fabrication The collaborative process will ensure that the deep knowledge and associated efficiencies of the fabricator are embedded into the construction model. As part of the contractor’s submittal, the following construction trades shall provide 3D fabrication models with parametric model objects:
1. Structural Steel 2. Mechanical System Duct 3. Curtain Wall 4. Building Envelope Systems (i.e. rain screens, pre-cast panels) 5. Casework and furniture systems 6. Any additional fabrication models generated by subcontractor
Note: MEP subcontractors shall incorporate vendor models for equipment when available.
d. Coordination of entire building - BIM Facilitator will assemble a composite model from all of the
model parts of each design discipline for the purpose of performing a visual check of the building design for spatial and system coordination. Vertical shafts should also be reviewed to ensure that adequate space has been allocated for all of the vertical mechanical systems and that all of the shafts line up floor to floor.
e. Coordination, floor by floor - On a multistory project, the models may need to be split on a level by
level basis for MEP coordination. If a floor is particularly large, it may also need to be split by zones to reduce file size.
1. Each floor shall be created as a separate level in the coordination software, and all trades shall
reference a shared and documented insertion point and methodology for developing these files. Typically, 3D coordination continues single floor until building systems are fully coordinated, and then continues on the next floor up.
f. Clash detection and reporting
1. Coordination software will be used for assembling the various design models and for providing a
report and view list of design coordination issues. The Design Team, including Team BIM Facilitator and Discipline BIM Lead Modelers, will review the model and the Clash Reports in coordination meetings on a regular (weekly) basis.
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2. The report will be reviewed by the team members and agreed upon solutions will be implemented per an agreed upon schedule. This process will be repeated throughout the design phases until all spatial and system coordination issues have been resolved.
3. During the construction phase, the Contractor shall utilize the fully coordinated and consolidated design model to verify the accuracy of certain fabrication models (ref. Sec 3.2.4.c). Prior to each fabrication submittal for approval, fabrication contractors shall submit their models to the Contractor’s BIM Facilitator for integration with the Design Model.
4. Internal Clash Resolution – Design Consultants and Subcontractors who are responsible for multiple scopes of work are expected to coordinate the clashes between those scopes prior to providing those model to the BIM Facilitator for spatial and system coordination.
4.3 Project BIM Work Plan
Design and Construction teams shall be required to submit to Engineer for approval, Project BIM Work Plans demonstrating their strategy for using Building Information Modeling to executing project deliverables.
a. Design BIM Execution Plan - As part of their design proposal, The Design Team shall submit “BIM Work Plan” which shall contain the following: 1. Proposed BIM Software to be used 2. Proposed BIM Workshops and Training integrated in to project schedule 3. Strategy for compliance with Client’s BIM Project Requirements (ref. Sec 2 - BIM PROJECT
REQUIREMENTS) 4. Schedule integrating progress BIMs per Design Document Submission Standards 5. File formats used for project submittal and file exchange 6. File exchange protocol 7. Strategy for establishing and managing shared file server (ref. 3.2.2.a) 8. Strategy for updating and coordinating design changes during
construction using BIM 9. Documentation of any proposed deviation from BIM Standards for LACCD consideration 10. Project team qualifications and experience in BIM, and a list of individuals with relevant
experience assigned to the following roles: • Design BIM Facilitator (ref. Section 4.4.1) • Mechanical System BIM Coordinator (ref. Section 4.4.2) • Lead BIM Technicians for all major trades (i.e. Architect, Civil, MEP, Structural) • Senior Project Designers and Engineers • BIM and IT Managers for all applicable trades
b. Construction BIM Execution Plan - In the Bid, Contractor shall submit a Construction BIM Work
Plan, outlining their strategy for utilizing BIM Technology to execute construction related activities and coordination 1. List of Sub-contractors using digital fabrication per Section 4.2.4.c 2. Proposed BIM Software to be used by the GC and fabrication modelers for approval by Engineer 3. Proposed BIM Workshops and Training integrated in to project schedule 4. Strategy for file exchange and integrating Construction Management Activities in to Shared File
Server 5. Documentation of any deviation from Project BIM Standards for Client consideration 6. Proposed strategy for utilizing BIM during construction phase including:
• Proposed use of digital fabrication to validate constructability of design • Updating as built conditions in Construction Record BIM • Integration of Record information in to Construction Record BIM • Proposed utilization of 4D Scheduling and Sequencing technology
7. Project team qualifications and experience in BIM, and a list of individuals with relevant experience assigned to the following roles: • Construction BIM Facilitator (ref. Section 4.4.1) • Lead Fabrication Modelers for all trades in section 4.2.4.c
8. Additional requirements defined in General and Supplemental Conditions
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4.4 BIM Roles and Responsibilities It is the responsibility of all Contractors and their Consultants to have or obtain, at their cost, the trained personnel, hardware, and software needed to successfully complete the BIM coordination phase of the project. Equipment used by the subcontractors during the on- site coordination meetings must meet the requirements of the software being implemented so as not to cause delays in modeling and redraw. Individuals assigned to the following project roles shall have the minimum qualifications and responsibilities outlined below.
1 Design Team BIM Facilitator
As part of the execution of the Design BIM Work Plan, Project Team shall assign an individual to the role of Design Team BIM Facilitator. The individual shall have at least 3 years of BIM experience and shall have relevant proficiency in proposed BIM Authoring and Coordination Software. This individual and their qualifications shall be approved by Engineer and shall serve as the main point of contact with Client / Engineer and the Project Team for BIM related issues. Assigned responsibilities shall be as follows:
a. Ensure compliance with Design BIM Work Plan b. Coordinate Project-wide training sessions with Client / Engineer BIM Coordinator c. Coordinates software training and establishes protocol for efficient use of software d. Coordinate set up of shared file server with Client / Engineer and Project Team IT staff. This shall
include interfacing with Project team IT staff to set up web portal, permissions, etc. e. Assembles composite design model for coordination meetings f. Provide Modeling Quality Control / Quality Assurance Check of Design BIMs. g. Facilitates use of composite design model in design coordination meetings h. Ensures that BIMs are used appropriately to test design requirements / criteria i. Interfaces with Project team BIM and IT Managers to ensure software is installed and operating
properly j. Interfaces with software developers to provide feedback and bug reports k. Provides specifications for “BIM Coordination Room” to Client / Engineer for approval l. Facilitates BIM Technical meetings with Lead BIM Technicians m. Ensure Design Team understands, supports, and meets Client / Engineer’s Vision and Main
Objectives for BIM (ref. Section 2.2) n. Ensure the shared geo-reference points noted in Section 3.4.5 are distributed and used by ALL team
members. o. Interfaces with Aconex for data and file exchange as needed p. Coordinate BIM File Exchange and archiving of Milestone Submittals
2 Lead BIM Technicians
a. All major design trades shall assign an individual to the role of lead BIM Technician for the duration of the project. These individuals shall have at least 2 years of relevant BIM experience and shall have the following responsibilities: 1. Lead the internal project team BIM in its documentation and analysis efforts 2. Interface with Design BIM Facilitator for BIM related meetings and issues 3. Coordinate internal project team training as required
3 Construction BIM Facilitator (Virtual Design and Construction Manager)
As part of the requirements for the selected bidder, the General Contractor shall assign an individual to the role of Virtual Design and Construction Manager for the project. This individual shall be assigned to this role as their primary responsibility for the duration of the project, and it is mandatory that this individual have previous onsite construction experience as Virtual Design and Construction Manager (VDC Manager), MEP Model Coordinator, Assistant Project Manager (APM), Assistant Superintendent, or Project Engineer. Additionally, the individual shall have at least 3 years of BIM experience and shall have relevant proficiency in proposed BIM Authoring and Coordination Software. Official Certification for proficiency in the above software is also recommended. This individual and their qualifications shall be approved by Client / Engineer and shall serve as the main point of contact with Client / Engineer and the Design Team for BIM Construction related issues. Assigned responsibilities shall be as follows:
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a. Main point of contact between Client / Engineer BIM Lead, Design Team and Construction Team for
BIM related issues. b. Prior to and during Construction, interface with Client / Engineer’s IT to establish and maintain shared
portal access and permissions c. Prior to commencing construction, ensures Sequencing and Scheduling is integrated with
Construction Record BIM d. Communicates to design team, the data extraction sets required to be completed by the construction
team and ensures that these requests are met e. Coordinate with design team to ensure design changes in the field have been documented and are
updated in the Design Record BIM in a timely manner f. Prior to approval and installation, work with Lead Fabrication Modelers to integrate 3D fabrication
models with updated design composite model to ensure compliance with design intent g. Coordinates update of as-built conditions in the Construction Record BIM h. Ensures record documentation noted in Document Submission Standards are properly linked to
Construction Record BIM for final submittal to Client / Engineer i. Coordinates software training and establishes protocol for efficient use of software for Construction
Team j. Provides specifications for General Contractor’s “BIM Coordination Room” to Client / Engineer for
approval k. Ensures Construction Team has necessary hardware and BIM Software properly installed and
accessible on site, for project use prior to the start of pre- construction activities.
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5 QUALITY ASSURANCE AND VALIDATION
5.1 Introduction
The purpose of the Quality Assurance and Validation process is to ensure project teams are using Best Practices in the development and file exchange of building information models. Quality Assurance is an ongoing process to be conducted by the Project Team and validated by the College Project Manager at both project milestones and random intervals of the project to ensure that each BIM is being constructed in conformance with Project BIM Standards and is suitably modeled for its intended use. The goal is to detect and correct, any errors and deficiencies in the models early in the process such that these discrepancies to not result in unresolved issues during construction or any significant loss of data upon transfer of as-built models and record documents to the Client for Operations and Maintenance use.
5.2 Quality Assurance Checklists Contractor has to develop a series of checklists to assist project teams and Project Managers with the quality assurance and validation of project building information models. During Design, it shall be the Design Team’s responsibility to submit completed copies of these checklists at each project milestone in conjunction with project deliverables. During Construction, the BIM QA Validation Matrix will be maintained and updated by the Design Team and submitted to Client / Engineer. It shall be the responsibility of the Project Manager to validate the quality of the models submitted to ensure they are in compliance with Best Practices and Project BIM Standards referenced on the completed checklists as follows:
1. Develop and maintain a detailed BIM Work Plan for Client / Engineer approval prior to Notice to Proceed
2. Develop and Maintain Information Delivery Manual during design and construction phase with final IDM submitted per Document Submission Standards
3. Verification of assigned roles and responsibilities as documented in RFP and maintained throughout Design and Construction Process
4. BIM Quality Assurance and Validation Checklist- The BIM Quality Assurance and Validation Checklist is a step-by-step checklist to ensure Projects are conforming to Project BIM Standards and use best practices in the development and exchange of building information models. The checklist references specific sections of the Project BIMS and shall be submitted by DB Team with each project milestone. These checklists and building information models may be audited by Client / Engineer for BIM QA Reviews as part of the technical review at project milestones.
For each trade, the Lead BIM Technician shall coordinate with the Virtual Design and Construction Manager to complete their respective section of the checklist at each project milestone. Any major discrepancies or conflicts should be resolved prior to submission to Client / Engineer.
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5.3 Checklists for Level of Compliance to Daso CAD Standard
Company LOGOS PROJECT:
QUALITY ASSURANCE:
Format No: REV:
CHECKLISTS FOR LEVEL OF COMPLIANCE TO DASO CAD STANDARD Contractor Submission No: Date of Submission:
S/No. Standard Criteria CAD Technical
Yes No N/A Yes No N/A
1 File Format (DWG Native) 2 CAD Tool & Release 3 File Reference 4 Layer 0 5 Layer References 6 Managed Objects (Blocks) 7 Block Attributes Values 8 Xref path (J:\DASO_Projects) 9 Drawing Conventions 10 Geo-Reference 11 Line widths and Colours 12 Model space & Paper space 13 Template File
Remarks: Achieved Level of Compliance:
1 2 3 4
Checked By: Approved By:
Name: Name:
Signature: Signature:
Date: Date:
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5.4 BIM Project Audit Check List
The following areas will be considered during the audit process in accordance with the Standards Document and Standards Document:
Project folder structure Naming conventions in both Windows Explorer and Revit General Project setup and template version use File organization Worksets CAD Standards in model and output to DWG Parameters Links Model management Sheets Clash Detection
BIM Project Audit Checklist
NO AUDIT CHECK POINT OBJECTIVE EVIDENCE ITEM COMMENT
Y N N/A
OPEN UP WINDOWS EXPLORER TO START AUDIT
1 WINDOWS EXPLORER ORGANIZATION
Refer to Revit Folder Structure naming protocols
2 CONSULTANT INCOMING CAD FILES
Consultants in folder
3 REVIT WORKING FILE NAMING
Refer to Revit naming protocols
OPEN UP REVIT TO CONTINUE AUDIT
4 TEMPLATE FILE Is the Standard Template used
5 DRAWING NAMING Refer to Revit naming protocols
6 LEGENDS NAMING Refer to Revit naming protocols
7 SCHEDULE NAMING Refer to Revit naming protocols
8 SHEET NAMING Refer to Revit numbering protocols
9 FAMILIES NAMING Refer to Revit naming protocols
10 SYSTEM FAMILIES -DESCRIPTION & TYPE MARK
Does all the curtain walls, floors, railings, ramps, roofs, stairs & walls have a description and type mark in the parameters
11 GROUPS NAMING Is there groups in the project, if so why? And do they follow Refer to Revit naming protocols
12 REVIT LINKS NAMING Refer to Revit naming protocols
13 ASSEMBLIES NAMING Is there assemblies in the project, if so why? And do they follow Refer to Revit naming protocols
14 WORK SET NAMING Refer to Revit naming protocols
15 MATERIAL NAMING Refer to Revit naming protocols
16 PROJECT INFORMATION Is all the project information correct as well as the energy settings
17 PROJECT PARAMETERS Is there any rogue project parameters in the file, if so why?
18 FILE PATTERN NAMING Refer to Revit naming protocols
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19 LINE STYLES NAMING Refer to Revit line protocols
20 LINE WEIGHTS Do the line weights match Refer to Revit line protocols if not why?
21 LINE PATTERNS Is there any rogue project line patterns in the file if so why?
22 CALLOUT TAG NAMING Refer to Revit naming protocols
23 ELEVATION TAG NAMING Refer to Revit naming protocols
24 SECTION TAG NAMING Refer to Revit naming protocols
25 ARROW HEADS NAMING Refer to Revit naming protocols
26 LOCATION OF PROJECT Is true north & project north set up correctly
27 DESIGN OPTIONS Is Design Options used in any form? If Yes. Add comments of status and maintenance in Additional Comments.
28 MANAGE LINKS REVIT FILE NAMING
Refer to Revit collaboration protocols
29 MANAGE LINKS - DWG FILES
Is there any DWG files loaded into the Revit project, can any be removed?
30 MANAGE LINKS - DWF FILES
Is there any DWF files loaded into the Revit project, can any be removed?
31 MANAGE LINKS - POINT CLOUD FILES
Is there any Point Cloud files loaded into the Revit project, can any be removed?
32 MANAGE IMAGES Is there any rogue images in the file, if so why?
33 DECAL TYPES Is there any rogue decal types in the file, if so why?
34 PHASES - PROJECT PHASES
Refer to Revit naming protocols
35 PHASES - PHASE FILTERS Refer to Revit naming protocols
36 PHASES - GRAPHIC OVERRIDES
Refer to Revit naming protocols
37 REVIEW WARNINGS Are the review warning in the project under 50
Refer to Revit naming protocols
38 GRID SET OUT Have the grids been set out correctly? Is it DWG or RVT?
39 MODEL LINES Is there any rogue model lines in the file, if so why?
40 DETAIL LINES Is there any rogue detail lines on any of the floor plans, if so why?
41 REFERENCE PLANES Have all unnecessary reference planes be deleted and the rest put on to LINKS, SHARED LEVELS & GRIDS
42 IN PLACE FAMILIES Is there any in place families in the file, if there is remove them!
43 DIMENSIONS TYPES Does the project have any custom dimensions in it, refer to Refer to Revit naming protocols
44 TEXT STYLES Does the project have any custom dimensions in it, refer to Refer to Revit text protocols
45 LINE TYPES Does the project have any custom line types in it, refer to Refer to Revit line protocols
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PRINT ALL SHEETS OUT TO COMPLETE THE REST OF THE AUDIT
46 NOTES - UPPER CASE Are all the text notes in upper case lettering
47 NOTES - SPELLING Is the spelling correct in the entire job
48 TITLEBLOCKS - DRAWING LOCATION
Have the floor plan drawings been placed in a consistent spot on the title block for every level
49 TITLEBLOCKS - MULTIPLE DRAWING LOCATIONS
Have multiple drawings been place in the right location with ground the floor plan on the bottom left hand side of the title block followed by the level 1 above it then level 2 etc.
50 TITLEBLOCKS - NORTH POINT
Has the north point been turned off all the elevations, sections & details
51 TITLEBLOCKS - VIEWPORTS
Has the correct viewport markers be placed on the sheets hexagon for floor plans, circle for sections & elevations
52 TITLEBLOCKS - INFORMATION
Has the title block information been filled out correctly and is in CAPS
53 TITLEBLOCKS - REVISIONS Have all the revisions be clouded and tagged
5.5 BIM Checklist-Contractors
Pre-Construction
Provide Conformed Bid BIMs in IFC and native format, as well as COBie spreadsheet to C ontractor. All
Conformed Bid BIMs and COBie spreadsheet have been delivered to the Contractor
Within 30 days:
Review Resume of BIM Manager Professional qualifications
BIM knowledge
Previous experience in BIM management role Review Proposed Web‐Based Collaboration System
Ability of Owner to access all content
Automated versioning of BIM and other files
Ability to access previous versions of BIM files The collaboration site is configured to provide all trades with access to all models
The collaboration site prevents changes to one trade’s model(s) by another trade Review BIM Execution Plan
Construction team is modeling the complete building
All trades required to produce BIMs are included
Each trade has designated a BIM Coordinator All topics are covered
All trades are required to share BIM models via the collaboration site
A computer with software capable of viewing merged models is provided onsite
Modeling standards cover all indicated sub‐topics Modeling standards, especially naming conventions, are consistent across all trades
Modeling standards require geo‐referencing of all BIMs
Model naming indicates that models will be segmented by discipline and floor Model naming makes it easy to identify contents of each model file
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Model naming indicates that collaboration system versioning rather than dates will be used to manage model revisions
Kickoff meeting attendees, location, date, and agenda are provided
Kickoff meeting agenda includes topics in outline Description of the processes for using BIMs during construction coordination include:
Reference model(s) to be used by all trades
Technique to be used for modeling clearances
Partitioning of model for purposes of coordination
Sequence of coordination
Responsibility of trades to upload models to collaboration system
Schedule for uploads
List of interference checks to be performed, typically each system against each other system (structural vs. plumbing, structural vs. duct, structural vs. electrical, duct vs. plumbing, etc.)
Responsibility for performing interference checks
Process and schedule for reviewing interferences and assigning responsibility for resolution
Process for tracking interference resolution
Process for signing off on a Coordination BIM
Requirement to build to signed off Coordination BIM
Requirement to generate all shop and coordination drawings from signed off Coordination BIM
Verify with team that all software products used for model authoring are IFC and COBie compliant
Identifies other construction‐phase analyses including:
Software to be used
BIMs to be analyzed
Responsible team members
Process and responsibility for insuring that all building configuration changes resulting from RFI responses, change orders, etc. are incorporated in the Construction BIM
Project deliverables include As‐Built BIMs partitioned by floor in IFC format, site and landscape model in IFC or 3D DWG format, As‐Built drawings extracted from As‐Built BIMs, COBie spreadsheet, all documents listed in COBie spreadsheet
Project deliverable section describes how each deliverable will be produced and delivered from the coordinated Construction models
Project team describes acceptable level of quality control
All organizations providing BIM deliverables have signed Attend BIM Kickoff Meeting
Coordination Phase
Verify that Shop Drawings are being extracted from Coordinated BIMs
The information shown in the Shop drawings is seen in the model(s) Verify that Coordination Drawings are being extracted from Coordinated BIMs
The information shown in the drawings is seen in the model(s)
Construction Phase
Verify that Construction BIMs are being maintained to reflect any field changes or change orders
Approved building configuration changes have been modeled in the Construction BIMs Spot check that equipment inventory and documents are maintained in the COBie format
Don’t wait until closeout to find out whether the contractor is capable of producing a COBie
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spreadsheet
Project Closeout Phase
Receive As‐Built BIMs in IFC format (site may be in 3D DWG)
All As‐Built BIMs have been delivered Verify separate BIMs for each floor and discipline
As‐Built BIMs have been partitioned by floor and discipline in IFC format. The site model may be in IFC or 3D DWG format
Verify As‐Built drawings are extracted from the As‐Built BIMs
The information shown in the As‐Built drawings is seen in the As‐built BIMs Verify that As‐Built BIMs have been reviewed by Designer for conformance to design intent
Receive and Validate COBie Deliverable using automated tools
Contact, Facility, Floor, Space, Zone, Type, Component, System, Document, & Attribute worksheets are provided and valid
All documents listed are provided
5.6 BIM Checklist-Designers
Pre-Planning
Designate design disciplines required to produce BIM
All building systems will be modeled Designate construction trades required to produce BIM
All building systems will be modeled
Design Project Startup
Prior to completion of program verification phase:
Review Resume of BIM Manager
Professional qualifications
BIM knowledge
Previous experience in BIM management role Review Proposed Web‐Based Collaboration System
Ability of Owner to access all content
Automated versioning of BIM and other files
Ability to access previous versions of BIM files Review BIM Execution Plan
All disciplines required to produce BIMs are included
All topics are covered All disciplines are required to upload BIM revisions to the collaboration site promptly
Modeling standards cover all indicated sub‐topics
Modeling standards, especially naming conventions, are consistent across all disciplines
Model naming indicates that models will be segmented by discipline and floor
Model naming makes it easy to identify contents of each model file
Model naming indicates that collaboration system versioning rather than dates will be used to manage model revisions
Description of generating drawings is clear that drawings will be derived from the models and
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that they will not be edited subsequent to extraction
Verify with team that all software products used for model authoring are IFC and COBie compliant
Model analysis plan indicates that model will be used for: Space area calculations
Energy analysis (if required for project)
Building system coordination Space and equipment inventories in COBie format
Project deliverables include all BIM requirements
Project deliverable section describes how each deliverable will be extracted from the coordinated models
Project team describes acceptable level of quality control
All organizations providing BIM deliverables have signed
Schematic Design
Review BIM Deliverable
Massing BIM in IFC format
Geo‐reference mark and annotation Review/Validate COBie Deliverable using automated tools
Contact, Facility, Floor, & Space worksheets are provided and valid
Design Development
Review BIM Deliverables
BIM Partitioned by Discipline and Floor in IFC Format Site Model in IFC or 3D DWG Format
Polyline of FEMA building footprint
Geo‐reference mark and annotation Spot check to see that drawings are being exported from the models
The information shown in the drawings is seen in the model Spot check to see that areas are being calculated from the models
Area calculations in the model match those on the drawings Review/Validate COBie Deliverable using automated tools
Contact, Facility, Floor, Space, Zone, Type, System, & Attribute worksheets are provided and valid
Review Interference Report
All interferences are resolved or adequately annotated Review Energy Analysis Report
Verify that energy Analysis input came from the Design BIMs
Construction Documents
Review BIM Deliverables
BIM Partitioned by Discipline and Floor in IFC Format
Site Model in IFC or 3D DWG Format
Polyline of FEMA building footprint
Geo‐reference mark and annotation Spot check to see that drawings are being exported from the models
The information shown in the drawings is seen in the model
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Spot check to see that areas are being calculated from the models
The area calculations in the model match those on the drawings Review/Validate COBie Deliverable using automated tools
Contact, Facility, Floor, Space, Zone, Type, Component, System, & Attribute worksheets are provided and valid
Review Interference Report
All interferences have been resolved Review Energy Analysis Report
Verify that the energy Analysis input came from the Design BIMs
Bidding Phase
Review Conformed Bid BIMs
Must reflect addenda and accepted alternates
Must be delivered in IFC and native format partitioned by floor and discipline
Site Model in native or 3D DWG Format Review Conformed COBie File
Reflects changes in conformed bid BIMs
Run automated check to ensure conformance with Tennessee’s BIM standards
Construction Closeout
Deliver As‐Built BIMs to Designer for Review for Conformance to Design Intent
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6 Glossary of Terms
AEC- abbreviation for Architecture, Engineering, and Construction
Building Information Modeling (BIM) model- A Building Information Model (BIM) is a digital representation of physical and functional characteristics of a facility. As such it serves as a shared knowledge resource for information about a facility forming a reliable basis for decisions during its lifecycle from inception onward.
Charrette - An intensive process that involves the collaboration of all project stakeholders at the beginning of a project to develop a comprehensive plan or design. Component - Components are materials that make up a part. For instance, a base plate part may consist of grout and steel plate components. A single component may be tied to many different parts. In Revit, components refer to model objects. Component data can be used for quantity take-offs, specification sections based on CSI format and even cost data. Deliverable - A Deliverable is the product of engineering and design efforts. Typically, this would be the concept submittal and the corrected final design. A deliverable may have multiple phases. Digital Data - Digital Data is defined as information, communications, drawings, or designs created or stored for the Project in digital form. FF & E - Furniture, Fixtures and Equipment G.I.S. - Geographic Information System- integrates hardware, software, and data for capturing, managing, analyzing, and displaying all forms of geographically referenced information. Industry Foundation Class (IFC) - IFCs are data elements that represent the parts of buildings, or elements of the process, and contain the relevant information about those parts. IFCs are used by computer applications to assemble a computer-readable model of the facility that contains all the information of the parts and their relationships to be shared among project participants. The project model constitutes an object-oriented database of the information shared among project participants and continues to grow as the project goes through design, construction, and operation. The International Alliance for Interoperability (IAI) has created this IFC data exchange format. IAI - International Alliance for Interoperability software companies, building product manufacturers, information publishers, owners, designers, and builders—in AEC and other industries whose goal is to develop a universal standard for information sharing. IDM - Developed by Georgia Tech University, IDM (Information Delivery Manual is a means for documenting an integrated process data and analysis required by BIM. It describes how to identify and describe the processes undertaken within construction, the information required for their execution and the results. It also describes how the information can be further detailed to support solutions provided by building information system providers in a form that enables its reuse and how it can be configured to meet national, local and project needs. Interoperability - refers to the exchange of information among project participants throughout the lifecycle of a facility by direct communication between software applications. IPD - Integrated Project Delivery Library - a repository tool for organization, location, and managing of BIM content LOD - Level of Detail as it pertains to BIM
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MEP - Mechanical, Electrical, Plumbing Model File - pertains to any building information model where spatial or data information is stored NBIMS - National Building Information Model Standard Omni Class Classification System - otherwise known as Omni Class or OCCS, is an enterprise strategy for classifying the entire built environment. It is a multi-table classification system designed for use by the capital facilities industry. Phase - A portion of work that arises from sequencing work in accordance with a predetermined portion of a Stage. SDSFIE - Spatial Data Standards for Facilities, Infrastructure, and Environment- developed for facilities, infrastructure, environment, and civil works by the SDSFIE Steering Group, which is comprised of members from the Armed Forces and the U.S. Army Corps of Engineers Sheet File - A sheet file is a CAD file or Model that shows a selected view or portion of a Model File within a referenced border sheet. Sheet Files are used to generate the plotted construction sheets.
7 References 1. GSA BIM Guide For Spatial Program Validation, Volume 2 , U.S. General Services Administration,
May 2007 2. U.S. National CAD Standards 4.0, National Institute of Building Sciences, January 2008 3. National BIM Standards 1.0, Version 1.0—Part 1 Overview, Principles, and Methodologies; National
Institute of Building Sciences, 2007 4. AIA E202-2008 BIM Protocol Exhibit, American Institute of Architects 5. AIA E201 - 2007 Digital Data Protocol Exhibit, American Institute of Architects 6. AIA A295-2008 General Conditions of the Contract for IPD, American Institute of Architects 7. Information Delivery Manual, Georgia Tech University, 2007 8. BIM Wiki Penn State University - http://bim.wikispaces.com/Work+Flows 9. AEC (UK) BIM Standard for Autodesk Revit
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8 APPENDIX - Diagrams and Technical Footnotes
1* Finding the Revit Origin and Guidelines for Sharing Coordinates of an existing site file in Autodesk Revit (Source AUGI and Autodesk Revit Factory) a. Finding the Revit Origin
Revit does have an origin but it is hidden by default. We have located the origin in Revit relative to a 0,0,0 coordinate from AutoCAD and have crossed two pinned reference lines through its intersection. This should serve as the starting point for your first building. To check this intersection in Revit, go to ToolsShared CoordinatesReport Shared Coordinates and click on each reference plane. The horizontal reference planes should indicate a 0’0” location in the N/S direction, and the vertical a 0’ 0” location in the E/W direction. b. Guidelines for Sharing Coordinates of an existing site file in Revit Revit's internal calculations do not like very large coordinate numbers. Thus, it is important to keep your Revit project near Revit's origin. (near means within 1 mile/1.6km) Here are a few guidelines recommended by Autodesk Revit Factory • Always begin your building model near the starting point of the default template. • Model it with Project North pointing directly up. (Lay it out as you would have it appear on sheets) • If you are using a *.dwg based site, Link your site file Center To Center. • Move or rotate the SITE under your project until it is correctly positioned relative to the building. (do not move
or rotate the project itself). • Use the Acquire Coordinates tool and pick the site. This will set your project's shared coordinated to those of the .dwg's wcs (world coordinate system). True North will be the .dwg's Y axis. Now your building knows where the .dwg 0,0,0 is, but it can still record its own information in smaller numbers and can orient to either True North, or Project North. Once the shared coordinates are set, subsequent imports can be made origin to origin using shared coordinates. Project Coordinates origin can't be moved. This is not a problem unless you have more than one coordinate system that you need to work with on your project. When the project only needs one 0,0 point, you can locate Shared Coordinates to align with the coordinates in question NOTE: if the Shared Coordinates origin and the Project Coordinates origins are more than 2 miles apart, importing by Shared Coordinates will likely fail -- it defaults to center-to-center. So if your .DWG is a mile wide and 0,0 is in the middle of it, the Shared Coordinates origin must be less than 1.5 miles from the Project Coordinates origin for import by Shared Coordinates to work seamlessly. 2* Sheet Files for Revit Users - Revit does not organize its model with individual sheet files. However, record sheet files shall be exported to the sheet folder at project milestone submittals, as noted in the Document Submission Standards. 3* BIM Coordination Room installation and setup of Smartboards Connect a notebook or desktop computer to the Smartboard(s) and projectors.
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1AC Acme Contractors DSN 2 L2PD Prism Design CON 3 L3
4 CD567
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEYModel Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and oConstruction Detailed Design Data-rich modeling assemblies with actual size, shape and orientatio
Detailed modeling assemblies with final size, shape and orientation
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1AC Acme Contractors DSN 2 L2PD Prism Design CON 3 L30 0 0 4 CD0 0 0 50 0 0 60 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
02000 Runoff and Sedimentation ControlAC/CON
02010 Subsurface Investigation
02050 Demolition
02100 Site Clearing / Preparation
02140 Dewatering
02150 Shoring and Underpinning
02160 Excavation Support Systems
02170 Cofferdams
02200 Rough Earthwork
02210 Finish Earthwork
02280 Termite Treatment
02300 Tunneling
02350 Piles and Cassions
02370 Auger Cast Concrete Piles
02400 Site Drainage
02440 Site Improvements
02450 Granite Retaining Wall
02480 Exterior Landscape
02500 Pavements
02510 Curb and Gutter, Walks, and Concrete Paving
02511 Hot-Mixed Asphalt Paving
02521 Special Mix Portland Cement Concrete Paving
02580 Pavement Marking
02660 Water Distribution
02680 Fuel and Steam Distribution
02710 Foundation Drainage
02720 Storm Sewage
02770 Ponds and Reservoirs
02780 Power and Communications
02810 Site Irrigation
02870 Site and Street Furnishings
02900 Landscaping
Detailed modeling assemblies with final size, shape and orientationData-rich modeling assemblies with actual size, shape and orientatioModeling assemblies with approximate size, shape, orientation and object da
ABBREVIATION KEY PROJECT PHASES/MILESTONESModel Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
LEVEL OF DETAIL KEY
0 0
Design Criteria DesignConstruction Detailed Design
0 00 0
0 0
CS
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CS
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Sitework
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1AC Acme Contractors DSN 2 L2PD Prism Design CON 3 L30 0 0 4 CD0 0 0 50 0 0 60 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
03100 Concrete FormworkAC/CON
03200 Concrete Reinforcement
03250 Concrete Accessories
03300 Cast-in-Place Concrete
03350 Brushed Concrete Finish
03400 Precast Concrete
03450 Architectural Precast Concrete- Plant Cast
03600 Grout
03700 Concrete Restoration and Cleaning
03800 Mass Concrete
LEVEL OF DETAIL KEYBasic shapes with approximate sizes, shape, and orientations (2D or 3D)Modeling assemblies with approximate size, shape, orientation and object dataData-rich modeling assemblies with actual size, shape and orientationDetailed modeling assemblies with final size, shape and orientation
ABBREVIATION KEY PROJECT PHASES/MILESTONESModel
DesignConstruction
0
ConceptualizationCriteria DesignDetailed Design00
0
Concrete
Co
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ptu
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CS
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CS
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00
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Det
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0 0 0 0
00
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
04100 Mortar and Masonry Grout AC/CON04150 Masonry Accessories04200 Unit Masonry04220 Concrete Block04400 Rough Stone04405 Flagstone Pavers04420 Building Stone & Boulders
04435 Cast Stone
04550 Refractories
04600 Corrosion Resistant Masonry
04700 Simulated Masonry
04720 Architectural Cast Stone
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
No
tes
0 0
CS
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CS
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Masonry
0000
Det
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Cri
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
05010 Metal Materials AC/CON05030 Metal Coatings05050 Metal Fastening05100 Structural Steel05200 Steel Joists05300 Steel Decking05400 Structural Steel Studs
05500 Miscellaneous Metals / Metal Fabrications
05510 Steel Stairs and Ships Ladders
05580 Sheet Metal Fabrications
05700 Ornamental Metal
05800 Expansion Metals
05810 Expansion Joint Cover Assemblies
05900 Hydraulic Structures
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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Metals
No
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Det
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Des
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
06050 Fasteners and Adhesives AC/CON06100 Rough Carpentry06130 Heavy Timber Construction06150 Wood and Metal Systems06170 Prefabricated Structural Wood06180 Structural Glued Laminated Units06192 Prefabricated Wood Trusses
06200 Finish Carpentry
06270 Wood Siding
06300 Wood Treatment
06400 Architectural Woodwork
06500 Structural Plastics
06600 Plastic Fabrications
06650 Solid Polymer Fabrications
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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CS
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Woods & Plastics
No
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
07100 Waterproofing AC/CON07120 Fluid Applied Waterproofing07150 Dampproofing07160 Bituminous Dampproofing07180 Water Repellants07190 Vapor Barrier and Perimeter Insulation07200 Insulation
07210 Building Insulation
07240 EIFS
07241 Exterior Insulation and Finish Systems - Class PB
07250 Sprayed-On Fireproofing
07270 Firestopping
07300 Asphalt Fiberglass Shingles
07400 Manufactured Roofing and Siding
07410 Preformed Metal Roofing
07480 Exterior Wall Assemblies
07500 Membrane Roofing
07530 Elastic Sheet Roofing
07570 Pedestrian Traffic Topping
07600 Sheet Metal and Flashing
07700 Roof Specialties and Accessories
07720 Roof Hatches
07800 Skylights
07910 Caulking
07920 Sealants
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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CS
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Thermal Moisture Protection
No
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
08100 Metal Doors and Frames AC/CON08200 Wood Doors08250 Door Opening Assemblies08300 Special Doors08330 Overhead Doors08331 Overhead Coiling Doors08350 Folding Doors
08360 Horizontal Sliding and Bi-Fold Mirror Doors
08400 Entrances and Storefront
08460 Automatic Entrance Doors
08500 Metal Windows
08610 Wood Windows
08650 Special Windows
08700 Finish Hardware
08800 Glass and Glazing
08830 Mirrored Glass
08920 Glazed Aluminum Curtain Walls
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
I C
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CS
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Doors & Windows
No
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
09100 Standard Steel Studs AC/CON09200 Lath & Plaster09250 Drywall and Acoustical Ceilings09255 Gypsum Board Assemblies09262 Gypsum Sheathing09270 Gypsum Board Shaft Wall Systems09300 Tile
09400 Terrazzo
09450 Stone Facing
09500 Acoustical Ceilings
09550 Wood Flooring
09600 Stone Flooring
09630 Unit Masonry Flooring
09650 Resilient Flooring and Base
09680 Carpet
09800 Special Coatings
09835 Textured Ceiling Coating
09900 Painting
09950 Wall Coverings
09985 Prefinished Panels
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
I C
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CS
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Finishes
No
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
10100 Visual Display Boards, Chalk / Tack Boards AC/CON10150 Compartments and Cubicles, Cubicle Tracks10160 Metal Toilet Partitions10165 Laminated Plastic Toilet Partitions10200 Louvers and Vents10240 Grilles and Screens10250 Service Wall Systems
10260 Wall and Corner Guards
10270 Access Flooring
10300 Prefabricated Fireplaces
10340 Manufactured Exterior Specialties
10350 Flagpoles
10400 Identifying Devices / Signage
10450 Pedestrian Control Devices
10500 Lockers
10520 Fire Extinguishers and Cabinets
10530 Protective Covers / Metal Canopies
10550 Postal Specialties
10600 Wire Mesh Partitions
10610 Toilet Partitions
10650 Operable Partitions
10670 Storage Shelving
10750 Telephone Specialties
10800 Toilet Accessories
10880 Scales
10900 Wardrobe and Closet Specialties
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
I C
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CS
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Specialties
No
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
11010 Window Washing Equipment AC/CON11020 Security and Vault Equipment11035 Bullet-Resistant Wicket11050 Library Equipment11060 Theater Equipment11080 Hotel Equipment11130 Projection Screens, Audio / Visual
11150 Parking Control Equipment
11160 Loading Dock Equipment
11170 Solid Waste Handling Equipment
11200 Water Supply and Treating Equipment
11300 Fluid Waste Treatment and Disposal Equipment
11400 Food Service Equipment
11450 Compact Kitchen Units
11460 Kitchen Equipment
11465 Pre-fab Cabinets
11480 Athletic, Therapeutic, and Therapeutic Equipment
11500 Industrial and Process Equipment
11600 Laboratory Equipment
11605 Medical Cabinets
11615 Temporary Containment Rooms
11680 Office Equipment
11700 Medical Equipment
11800 Laundry Equipment
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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Equipment
No
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0 0 0 0
AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
12000 Furnishings AC/CON12050 Fabrics12300 Manufactured Casework12345 Laboratory Casework and Fixtures12500 Window Treatment12511 Horizontal Louver Blinds12600 Furniture and Accessories
12670 Entrance Mats
12690 Floor Mats and Frames
12710 Auditorium and Theater Seating
12800 Interior Plants and Planters
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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Furnishings
No
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
13030 Special Purpose Rooms AC/CON13050 Saunas13054 Steam Rooms13080 Sound, Vibration, and Seismic Control13120 Pre-engineered Structures13300 Utility Control Systems13800 Building Automation Systems
13850 Swimming Pools and Spas
13950 Special Security Construction
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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Special Construction
No
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
14100 Dumbwaiters AC/CON14200 Elevators14210 Electric Traction Elevators14240 Hydraulic Elevators14300 Escalators and Moving Walks14500 Material Handling Systems14600 Hoists and Cranes
14700 Turntables
14800 Scaffolding
14900 Transportation Systems
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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Conveying Systems
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
15010 Mechanical General AC/CON15050 HVAC General15052 Test and Balance15100 HVAC Piping, Valves & Accessories15150 Underground Preinsulated Piping System15250 HVAC Insulation15400 Plumbing Systems and Equipment
15440 Mechanical Water Feature Systems
15500 Fire Protection Systems
15501 Halon Systems
15600 Air Conditioning
15630 Electric Heating Equipment
15770 Direct Expansion Equipment
15820 Fans
15835 Swimming Pool Packaged Dehumidifier Unit
15840 Ductwork and Accessories
15860 Louvers and Dampers
15870 Air Distribution Devices
15900 Automatic Temperature Control System (Electric Control)
15910 Mechanical Systems Commissioning
15950 HVAC Testing, Adjusting and Balancing
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
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AUTODESK BIM DEPLOYMENT PLAN LEVEL OF DETAIL EXHIBIT
Abrev Company Abrev 1 L1
AC Acme Contractors DSN 2 L2
PD Prism Design CON 3 L3
0 0 0 4 CD
0 0 0 5
0 0 0 6
0 0 0 7
Yes / No Yes / No L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD L1 L2 L3 CD
16000 Electrical General AC/CON16010 Basic Materials and Methods16070 Conductors16080 Wiring Devices16090 Boxes16111 Conduit and Raceways16200 Power Generation - Built Up Systems
16390 Grounding
16415 Low Voltage Switchboard
16435 Panelboards
16442 Overcurrent Protective Devices
16455 Motor and Circuits Disconnects
16480 Equipment Connections and Control Wiring
16500 Lighting Fixtures
16501 Lamps
16502 Ballasts
16642 Standby Generators Systems
16710 Liquid Detection System
16720 Fire Alarm
16750 Television / Telephone / Data Raceway Systems
16820 Lighting Dimming System
16900 Electrical Systems Commissioning
ABBREVIATION KEY PROJECT PHASES/MILESTONES LEVEL OF DETAIL KEY
Model Conceptualization Basic shapes with approximate sizes, shape, and orientations (2D or 3D)
0 0
Design Criteria Design Modeling assemblies with approximate size, shape, orientation and object data
Construction Detailed Design Data-rich modeling assemblies with actual size, shape and orientation
0 0 Detailed modeling assemblies with final size, shape and orientation
0 0
0 0
CS
I C
od
e
CS
I D
escr
ipti
on
In B
IM M
od
el
As
Ob
ject
In M
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el a
s D
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On
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Electrical
No
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Co
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Des
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0 0 0 0
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