1. Orientation to Architecture J. Bradley Satterfield, AUA, AIA Campus Architect Georgia Institute of Technology

2. Orientation to Architecture Traditional Practice of Architecture in the Architectural Design Firm Schematic Design (SD) Design Development (DD) Construction Documents (CD) Specifications Construction Administration

3. Orientation to Architecture Architecture – Experience and Specialization Pre-Design Services / Feasibility Studies Programming * as “Problem Seeking” by AIA Press Master Planning / Future Planning Sustainable Design and Construction (LEEDS) Landscape Architecture (improves value of building) Adaptive Reconstruction / Renovation (50% of market) Interior Design (continues during a recession in building) Program Management *

4. Orientation to Architecture Programming is “Problem Seeking” A process leading to a statement of an architectural problem and the requirements to be met in offering a solution…analysis…not design… Architectural Design is Problem Solving Synthesis of Form, Function, Time and Economy Problem Seeking by William Pena Copyright by CRSS, Inc. AIA Press

5. Orientation to Architecture Program Management A Project is a well organized program of events with direction and oversight of a professional Program Manager (PM) who is responsible to the Owner. A Program Manager serves the Owner by managing Owners risk in project delivery Owners assets at risk include money, time, space and quality Program Delivery Methods vary but may be classified

6. Orientation to Architecture Program Management Services to Owner Owner Representation to Architect and Builder Feasibility of Program as compared to Budget Definition of work breakdown and critical events Overall Project Scheduling (OPS) Project Budget and Cost Analysis Preparing Request for Proposals (RFP) Project reporting and documentation Anticipation of problems and resolution strategies

7. Orientation to Architecture Project Delivery Methods Traditional Design - Bid - Build Owner / PM, Architect and Contractor Moderate risk, control, takes more time, errors/omissions moderate effort, Construction Manager as Advisor (not at risk) Owner, Architect, CM/A and Subcontractors Early Start, moderate risk, more effort Construction Manager at Risk Early start to construction as design proceeds Owner Architect and CM/R Contractor Guaranteed Maximum Price (GMP)

8. Orientation to Architecture Project Delivery Methods Design - Build Contracting (D-B) Owner contracts with D-B Team Architect is a part of D-B Team Early start to construction as design proceeds Work to Design Baseline and GMP Construction to completion

9. Orientation to Architecture Project Delivery Design - Build Contracting (D-B) with “bridging” Owner selects PM and then Architect Design proceeds to SD and DD PM solicits RFP based upon DD plans and prequalification of D-B teams Owner contracts with D-B Team at a GMP Architect of D-B team completes the CD phase Early start to construction as CD’s are completed Construction proceeds to completion

10. Orientation to Architecture Successful Projects will have … Program and / or scope of work defined (stuff) Work site or area of work (land / space) Budget defined and some or all required funding ($) Project team to perform the project (glue) Schedule of events and milestones (string)

11. Orientation to Architecture Credits for “bridging “ method of delivery George T. Heery, FAIA RIBA Brookwood Group Inc.www.brookwoodgroup.comwww.brookwoodgroup.com Other Resources on web site American Institute of Architects www.aia.orgwww.aia.org Design Build Institute www.dbi.orgwww.dbi.org Construction Management Institute www.cmi.orgwww.cmi.org Green Building Council www.gbc.orgwww.gbc.org

12. Orientation to Architecture Questions and Answers

13. Architecture Georgia Institute of Technology Technology Square Project

14. Orientation to Architecture Project Team Georgia Institute of Technology (Client / End User) Georgia Tech Foundation, Inc. (Owner) Jones Lang LaSalle (PM) Thompson, Ventulett, Stainback and Associates, Inc. Master Architect / Architectural Design associated Engineering Firms Holder / Hardin (CM)

15. Historical Perspective Atlanta and Georgia Tech together for over 100 years Urban growth and Interstate I-75/85 Decline and renewal of vibrant Midtown area Greater neighborhood vision and Georgia Tech Isolated campus – psychological separation from community Increasing technology-based economy brings more companies into Atlanta and Midtown

16. Georgia Tech’s Vision Mission Statement Georgia Tech will define the technological research university of the 21st century and educate the leaders of a technologically driven world.

17. Vision Success Factors Academic initiative in the areas of: –Engineering –Science –Management –Interdisciplinary Programs –Economic Development –Life-long Learning

18. Facility Initiatives Administrative Initiatives Campus Programs and Facility Study Campus Master Plan Capital Planning Land Strategies Technology Square Project

19. Facility Study/Capital Plan Science and engineering radically changed, generating accelerated need for advanced facilities. Physical need to emphasize interdisciplinary work between science and engineering. Accommodate innovation and growth. Continue leadership in Technology and learning by developing an office complex that also brings thought leadership on management. Further ignite leading edge research and education.

20. Master Plan Urban Campus becomes landlocked Need Master Plan to facilitate academic growth Need to transform old, decaying and costly facilities Development as a catalyst for community change Campus revitalization was needed Georgia Tech’s Vision needs land

21. Capital Funding Minimal State Funding Creative Financing –Capital Campaign Donations to GTF –Capital Equity for Collateral by GTF –Revenue Based Bonds by GTF –Taxable and Tax Exempt Bonds –Payback Program by BOR/GT/GTF

22. Land Strategy Challenges –Tight urban site –Land locked / “urban island” –The center of gravity for the institute changed –Not pedestrian friendly Solutions –Extend beyond traditional boundaries –Cross I-75/85 to Midtown –Get creative about buying the land

23. Creating Technology Square Connector to community Life-long Learning –Global Learning Center –Hotel / Conference Center Create a retail center for campus community Facilitate technology corridor, economic development –College of Management –Yamacraw Design Center –ATDC (Incubator)

24. Statistics Technology Square 1.1 million square feet –Management Building 189,000 GSF –Bookstore 47,000 –Economic Dev’t Building 48,000 –Global Learning Center 114,000 –Hotel & Conference Center 207,000 –Parking (1550 Spaces) 498,000 –Shops 18,000 Construction Cost $120,000,000 Project Cost $178,000,000 Construction Period 11/2001 – 7/2003 Centergy 618,000+ square feet –Technology Square Research Building 218,000 GSF –ATDC150,000 –Spec Office Space250,000 –Parking (1200 Spaces)425,000 Construction Period 10/2001 – 8/2003