The new home of the School of Engineering and Applied Sciences, designed by Perkins+Will, opened at the University at Buffalo. Co-locating the departments of computer science and electrical engineering in a single facility, the 133,000-sf Barbara and Jack Davis Hall creates an collaborative education and research environment.
Clad in glass and copper-colored panels, the three-story building thrusts outward from the core of the campus to establish a new identity for the School of Engineering and Applied Sciences and the campus at large. Formerly scattered among seven different locations, the engineering campus is now focused and consolidated, with a defined “front door” for the school and a new quad and interior common spaces.??
Davis Hall will enable the University at Buffalo to expand research in nanotechnology, pattern recognition and bio-based security systems, among other fields. The hybrid design of the hall stresses the value of interactive space for learning and discovery. The building is organized around a glass-enclosed, multi-story gallery that facilitates pedestrian traffic into the existing campus, creates an interactive educational/research environment, and culminates in a multi-tiered student lounge that activates a new courtyard shared with the existing Marcel Breuer buildings.
Facing south, the glass gallery is a daylight-filled science commons that includes open staircases that allow for spontaneous student and staff interaction. It also comprises a series of interlocking volumes that include windows into laboratories for the active display of technological research. Throughout the building, which also houses the Center of Excellence in Document Analysis and Recognition (CEDAR) and the Center for Unified Biometrics and Sensors (CUBS), cross-disciplinary zones are distributed for informal gathering spaces equipped with SMART Boards.
The new hall is tracking for USGBC LEED Gold certification through features like enhanced building shell insulation, high-performance windows and energy efficient lighting, the building improves overall energy performance 33.8% above the baseline ASHRAE 90.1-2004 requirements. +
Related Stories
| Sep 11, 2012
Ecosystem Management & Associates joins HDR
EM&A staff will do business as part of HDR Engineering and HDR Environmental, Operations and Construction.
| Sep 10, 2012
Specialty door types—plenty of functional variety
In the MasterFormat section 08 30 00, Specialty Doors and Frames, a number of door types are listed for special functions, access locations, sliding and folding hardware, and even pressure-resistant types.
| Sep 7, 2012
7 Do's and Don'ts for PV roof rack installation
As PVs grow in popularity, nearly half of all installations require roof rack systems. Our expert tells how to do the job right and protect your client’s roof.
| Sep 7, 2012
Net-zero energy pioneers on the el-hi frontier
Getting to net-zero is not easy, but the promise of eliminating energy bills and using state-of-the-art technology as a learning lab can make a compelling case to reach for net-zero.
| Sep 7, 2012
Healthcare architects get a preview of tomorrow’s medical landscape
The topic on everyone’s mind was how the Affordable Care Act would impact healthcare design and construction––and whether the law would even make it past the coming election cycle.
| Sep 7, 2012
Goettsch Partners designs new tower in Abu Dhabi
Al Hilal Bank’s 24-story flagship development provides contemporary office space.
| Sep 7, 2012
Suffolk awarded One Channel Center project in Boston
Firm to manage $125 million, 525,000-sf office building project.
| Sep 7, 2012
Duffy joins Thornton Tomasetti
At Hardesty & Hanover, Duffy partnered with Thornton Tomasetti on a number of projects.
| Sep 7, 2012
Lucile Packard Children’s Hospital breaks ground on expansion
Sustainability and nature at the heart of the new addition at the Stanford University Medical Center designed by Perkins+Will.
| Sep 6, 2012
Young Spirit of Nature Wood Architecture award to Tiina Antinoja
The award is given for a student work in which wood as a building material has a central role.