The University of Notre Dame announced this morning the largest building project in its 172-year history, integrating the academy, student life, and athletics with the construction of more than 750,000 sf in three new buildings attached to the west, east, and south sides of the school's iconic football stadium, at a projected cost of $400 million.
The plan, called the Campus Crossroads Project, features new structures attached to and serving the stadium: a west building for student life services, including space for student organizations, a recreation center and career center; an east building for the anthropology and psychology departments and a digital media center; and a south building for the Department of Music and the Sacred Music at Notre Dame program. The east and west buildings also will include some 3,000 to 4,000 premium seats for the football stadium with supporting club amenities.
The lead architectural firm for the Crossroads Project is The S/L/A/M Collaborative. RATIO Architects is the co-designer. Other consultants include Workshop Architects for the student center and 360 Architecture for the recreation, fitness, and hospitality areas. The contractor is Barton Malow Co.
Central components to the plan include the addition of meeting, research, and teaching venues, as well as facilities that do not currently exist on campus, such as a 500-person ballroom. The various new spaces also will be designed to accommodate multiple functions for multiple departments, such as the stadium club spaces, which also will be used for student services, academic event space, classrooms, conferences, career fairs, and other campus and community activities.
The exterior design of the Campus Crossroads Project is inspired by Knute Rockne’s original Notre Dame Stadium—which still stands today as the core of the facility—and is wed with materials, massing, and details taken from many of the Collegiate Gothic buildings on the campus.
The area between the stadium and the DeBartolo Hall classroom building will become a pedestrian plaza with walkways, trees, planters, and seating areas. The entire project will include sustainability practices consistent with other University projects.
The project also will enhance the football fan experience on game days. A variety of premium seating options—both indoor and outdoor and mostly club seats—will be available on three upper levels on the east and west sides. A hospitality area also is planned for the new building on the south end of the stadium.
Football fans, especially younger ones, have expressed a clear desire to have better access to data and video when attending Notre Dame games. Some of that will be addressed through enhanced broadband connectivity and some by the introduction of video, though the shape that will take has not yet been finalized. However, to the extent the University provides video, whether in the concourse or in the stadium itself—similar to the philosophy in Purcell Pavilion and the Compton Family Ice Arena—there will be no commercial signage or advertising.
Notre Dame Stadium opened in 1930 and was expanded to its current configuration in 1997. One of the nation’s most iconic athletics venues, it is used for home football games, the University Commencement Ceremony and several other events.
Features of the three new buildings include:
West building
Space designed to enhance student development and formation will dominate the nine-story west building. Planning has ensured that the new facility will complement the student organization space and administrative offices located in the historic LaFortune Student Center.
Levels 1 and 2: Flexible, state-of-the-art meeting rooms, graduate and undergraduate student lounges, a dining area, student organization space and administrative offices.
Levels 3 and 4: Recreational sports and fitness facilities (the Rolfs Sports Recreation Center will become the practice home for the men’s and women’s varsity basketball teams).
Level 5: A career services center, centralized and expanded with more than 40 interview rooms, multiple training rooms and conference areas, an employer lounge and advising offices. The existing working press space on this level will be integrated into a premium seating area for the stadium.
Level 6: Mechanical support.
Level 7: A 500-seat student ballroom, club seating for football and booths for NBCSports telecasts of home football games. Student-oriented programming will have priority booking for non-game weekends.
Level 8: Premium stadium seats and terraces that will look onto the campus and the playing field.
Level 9: Club seating, boxes for home and visiting coaches, security booths and boxes for administrative and athletic department leaders.
Basement: Food service space for the three new buildings and the stadium.
South building
The relocation of the Department of Music and Sacred Music Program will provide much needed new and state-of-the-art space for these growing programs. It also will put music into close proximity to other performing arts departments and programs.
Level 1: Recital and rehearsal halls and the Leahy gate grand entrance to the stadium.
Level 2: A large music library, to be relocated from the Hesburgh Library, classrooms and rehearsal and tutoring rooms.
Level 3: A 350-person club/lounge.
Level 4: Department of Music offices, practice rooms and storage.
Level 5: The Sacred Music Program, offices, organ practice rooms and storage.
Level 6: Mechanical, with a scoreboard on the exterior.
East building
Offices and laboratories for the Departments of Anthropology andPsychology, which are housed in a variety of buildings on campus, now will be in one place and located closer to other social sciences departments, the College of Scienceand international institutes.
Level 1: A digital media center with a 2,000-square-foot studio and production, teaching, learning, research and scholarship facilities for use by faculty, students, University Communications, athletics and information technology will position Notre Dame as a national leader in what is a rapidly expanding and increasingly important component of higher education. A control room will support faith-based programming, such as Masses at the Basilica of the Sacred Heart, as well as athletics events, performing arts presentations and academic lectures and speeches.
Level 2: Anthropology offices, administrative space, conference and tutoring areas and multifunction research and teaching labs.
Levels 3, 4 and 5: Psychology offices, classrooms, labs, computer rooms and a student lounge.
Level 6: Mechanical support.
Level 7: Outdoor club seating for football, outdoor terraces and a large space that will double as a club area and flexible classroom.
Level 8: Outdoor club seating for football.
Level 9: Working press box, radio booths and a club area with indoor and outdoor premium seating for football.
For more on the Campus Crossroads Project, visit: http://crossroads.nd.edu.
Related Stories
Architects | May 2, 2024
Emerging considerations in inclusive design
Design elements that consider a diverse population of users make lives better. When it comes to wayfinding, some factors will remain consistent—including accessibility and legibility.
K-12 Schools | Apr 30, 2024
Fully electric Oregon elementary school aims for resilience with microgrid design
The River Grove Elementary School in Oregon was designed for net-zero carbon and resiliency to seismic events, storms, and wildfire. The roughly 82,000-sf school in a Portland suburb will feature a microgrid—a small-scale power grid that operates independently from the area’s electric grid.
AEC Tech | Apr 30, 2024
Lack of organizational readiness is biggest hurdle to artificial intelligence adoption
Managers of companies in the industrial sector, including construction, have bought the hype of artificial intelligence (AI) as a transformative technology, but their organizations are not ready to realize its promise, according to research from IFS, a global cloud enterprise software company. An IFS survey of 1,700 senior decision-makers found that 84% of executives anticipate massive organizational benefits from AI.
Codes and Standards | Apr 30, 2024
Updated document details methods of testing fenestration for exterior walls
The Fenestration and Glazing Industry Alliance (FGIA) updated a document serving a recommended practice for determining test methodology for laboratory and field testing of exterior wall systems. The document pertains to products covered by an AAMA standard such as curtain walls, storefronts, window walls, and sloped glazing. AAMA 501-24, Methods of Test for Exterior Walls was last updated in 2015.
MFPRO+ News | Apr 29, 2024
World’s largest 3D printer could create entire neighborhoods
The University of Maine recently unveiled the world’s largest 3D printer said to be able to create entire neighborhoods. The machine is four times larger than a preceding model that was first tested in 2019. The older model was used to create a 600 sf single-family home made of recyclable wood fiber and bio-resin materials.
K-12 Schools | Apr 29, 2024
Tomorrow's classrooms: Designing schools for the digital age
In a world where technology’s rapid pace has reshaped how we live, work, and communicate, it should be no surprise that it’s also changing the PreK-12 education landscape.
Adaptive Reuse | Apr 29, 2024
6 characteristics of a successful adaptive reuse conversion
In the continuous battle against housing shortages and the surplus of vacant buildings, developers are turning their attention to the viability of adaptive reuse for their properties.
AEC Innovators | Apr 26, 2024
National Institute of Building Sciences announces Building Innovation 2024 schedule
The National Institute of Building Sciences is hosting its annual Building Innovation conference, May 22-24 at the Capital Hilton in Washington, D.C. BI2024 brings together everyone who impacts the built environment: government agencies, contractors, the private sector, architects, scientists, and more.
Mass Timber | Apr 25, 2024
Bjarke Ingels Group designs a mass timber cube structure for the University of Kansas
Bjarke Ingels Group (BIG) and executive architect BNIM have unveiled their design for a new mass timber cube structure called the Makers’ KUbe for the University of Kansas School of Architecture & Design. A six-story, 50,000-sf building for learning and collaboration, the light-filled KUbe will house studio and teaching space, 3D-printing and robotic labs, and a ground-level cafe, all organized around a central core.
Sports and Recreational Facilities | Apr 25, 2024
How pools can positively affect communities
Clark Nexsen senior architects Jennifer Heintz and Dorothea Schulz discuss how pools can create jobs, break down barriers, and create opportunities within communities.