The UC Project Management Institute offers a registered program with the AIA for continuing education, emphasizing the importance of sustainable practices in architecture. A case study on the UCSF laboratory renovation highlights lessons learned about the benefits of BIM technology, including increased efficiency and reduced waste through remodeling rather than new construction. Key next steps involve further simulation and automated documentation to enhance sustainability tracking.

1. The UC Project Management Institute is a Registered Provider with The American Institute of Architects Continuing Education Systems. Credit earned on completion of this program will be reported to CES Records for AIA members. Certificates of Completion for non-AIA members are available upon request ( [email_address] ). This program is registered with the AIA-CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product. Questions related to specific materials, methods and services will be addressed at the conclusion of this presentation.

2. BIM Augments Sustainability in UCSF Laboratory Renovation A Case Study in Sustainable BIM Use Eric Peabody & Christie Coffin

3. LEARNING OBJECTIVES Project Program & Context Lessons Learned: Successes Reuse & Remodel Instead Of Building New Increase Efficiency Prevent Over-ordering Prevent Rework Wastage Next Steps: Comprehensive Simulation Advanced Simulation LEED Tracking

4. PROJECT PROGRAM University of California San Francisco Pathology Basic Research Laboratory University of California San Francisco at Parnassus Heights Campus 16 story H-8 laboratory building 1960’s Building with piecemeal upgrades Large program / small space 5 high profile researchers Pathology basic cancer research

5. PROJECT PROGRAM University of California San Francisco Pathology Basic Research Laboratory

6. PROJECT CONTEXT University of California San Francisco Pathology Basic Research Laboratory Spiraling Construction Costs Shortage of Effective Contractors and Building Trades People Lack of Staging Area at Site Significant Space Needs That Prohibit Easy Access to Lecture Halls Below UCSF Commitment to Sustainability

7. BASIC SUSTAINABILITY ISSUES Small Is Sustainable High Efficiency Shared Space Adaptable Is Sustainable Modular Design Fixed Supports (Core Lab) Adaptable Variations (Support Labs) Green Specifications Demolition (50-75% Recycling Target) New Finishes and Equipment

8. PROJECT DELIVERY IMPROVEMENT BIM is Virtual Design & Construction Automatic Document Coordination 3D Systems Coordination Virtual Building Simulation Direct Fabrication

9. LESSONS LEARNED: SUCCESSES Specific advantages from BIM’s increased level of information and tighter coordination: Reuse & Remodel Instead of Building New Prevent Rework Wastage Prevent Over-ordering Increase Efficiency Beneficial Occupancy Sooner, Reduce Period of Disuse

10. LESSONS LEARNED: REUSE AND REMODEL

11. LESSONS LEARNED: REUSE AND REMODEL

12. LESSONS LEARNED: INCREASE EFFICIENCY Real-time Gross vs. Net Area Tracking 91.44% Efficiency

13. LESSONS LEARNED: INCREASE EFFICIENCY Real-time Gross vs. Net Area Tracking

14. LESSONS LEARNED: PREVENT OVER-ORDERING Accurate Material Take-offs

15. LESSONS LEARNED: PREVENT OVER-ORDERING Accurate Material Take-offs

16. LESSONS LEARNED:PREVENT REWORK Prefabricate to use materials more efficiently Images courtesy of Marelich Mechanical

17. LESSONS LEARNED:PREVENT REWORK Prefabricate to use materials more efficiently Images courtesy of Marelich Mechanical

18. LESSONS LEARNED:PREVENT REWORK Make parts only once Images courtesy of Marelich Mechanical

19. LESSONS LEARNED:PREVENT REWORK Prefabricate to use labor more efficiently Images courtesy of Marelich Mechanical

20. LESSONS LEARNED:PREVENT REWORK Reduce worker & product transportation Images courtesy of Marelich Mechanical

21. LESSONS LEARNED:PREVENT REWORK Complete Pre-installation Coordination Images courtesy of Marelich Mechanical

26. NEXT STEPS: SIMULATION Extend the use of BIM through virtual prototyping and building simulation: Advanced Simulation Daylighting LEED Tracking

27. 3D model simplifies the transition to energy modeling packages: Programming & Schematic Design Green Building Studio NEXT STEPS: ADVANCED SIMULATION Design Development & Construction Documents Ecotect IES Virtual Environment DOE2 eQUEST 3D Studio/VIZ

28. LEED Comercial Interiors (CI) 68 Prerequisites & Credits to Track 38 Special Affinity for BIM 56% of LEED CI Documentation NEXT STEPS: LEED TRACKING Simplify & Auto-document LEED Requirements

29. NEXT STEPS: LEED TRACKING Simplify & Auto-document LEED Requirements

30. NEXT STEPS: LEED TRACKING

32. Questions? Thank you for your time. Sincerely, Eric Peabody & Christie Coffin This concludes the American Institute of Architects Continuing Education Systems Program.