Science + Technology

Located on the northwest edge of Cal Poly San Luis Obispo’s main campus. the building houses the departments of mechanical, aerospace, civil, materials, industrial, and biomedical engineering, as well as Dean’s offices. The design includes laboratories, lecture halls, design rooms, support spaces, and faculty offices.

The interior spaces are equipped with technology capable of adapting to a yet undetermined future demand. The finishes include stained concrete floors, wood paneling at the elevator cores in the entry lobby, sliding bulletin boards with a variety of colorful cork, custom light sconces and exposed ceilings. The result is a colorful, welcoming and somewhat unconventional space; one that encourages thinking and working across disciplines.

The massing of Engineering IV is a response to site constraints, opportunities—including optimal solar orientation and views—and programmatic needs. The site is located at the terminus of a significant pedestrian axis connecting Engineering 13, the new ATL building and the proposed Bonderson building. The entry to Engineering IV was located to respond to this axis and draw people to the building. The building is formed to complete a landscaped plaza bordered by the ATL and Bonderson engineering buildings. The plaza is envisioned as the heart and soul of the interdisciplinary engineering precinct, a dynamic space where students can move their projects outdoors for testing and display, creating a synergistic relationship with the neighboring engineering buildings.  

The building is designed as two intersecting volumes, each informed by a different site condition. The westernmost volume contains program spaces that require high bay space. The eastern volume is angled away from the first to create a welcoming entry court and to acknowledge the curving of Highland Avenue, which borders the site to the north. A series of large glass double doors on the first floor will encourage engineering activities to spill into the courtyard and plaza.

University of Southern California's Ronald Tutor Hall is a five-story, 103,000 GSF engineering facility that accommodates undergraduate and graduate studies in information technology, bioengineering, and nanotechnology. The flexible space features labs and research areas extending from a central-core plan as well as the Viterbi Museum.

The modular lab spaces are modeled after those at national government laboratories to give students and professors the most current configurations and equipment. Elements particular to the university environment include elevated safety levels and collaborative work areas. The building defines a new campus yard and identity for the campus with a grand entry lobby opening onto the main landscaped courtyard envisioned as an outdoor academic court to encourage and foster collaboration.

The 106,000-SF laboratory facility, located across from the existing Biological Sciences building, forms a consolidated science zone within the campus. This helps to unify the previously dispersed science programs and create a collegial environment among its users, which include chemistry, biology, allied health, and geology departments.

The three-story project is primarily devoted to wet-lab uses, with fume hood intensive space and instructional spaces. The facility includes a Van de Graaff linear accelerator, veterinary science facilities, greenhouses, and an observatory.

This 4,000-SF lobby and Tech Lounge renovation for a private biotech company provided a centrally located technology service center for employees and modernization of an existing lobby space in an executive office building. The project scope included:

- Tech Lounge with tech bar, lounge seating, work table, display case, lockers, storage, and tech vending machine
- Tech work room with back-of-house work stations and storage
- Tech demonstration room for new technology tutorials
- Private meeting room
- Elevator waiting area and cab upgrades, including new finishes and graphics
- Lobby upgrades, including new finishes, seating areas and graphics
- Toilet room upgrades

The Tech Lounge was designed to be a welcoming space by opening it up to the existing two-story lobby space. The white solid-surface entry portal that extends into the lobby contrasts with the surrounding darker wood wall paneling, making it easily identifiable to new employees. The new terrazzo flooring that runs throughout the lobby also extends into the Tech Lounge, creating a stronger connection between the two spaces. As a result, the lobby serves a dual function as both building circulation and Tech Lounge waiting area.

Professor Guttman works in the Division of Biology and Biological Engineering at California Institute of Technology. His work focuses on a new class of genes known as lincRNA. These genes are involved in controlling how stem cells become other types of cells. Guttman’s work  includes both the experimental as well as the computational components of biological research. In 2012 he received the NIH Director’s Early Independence Award, and has been named as one of Forbes magazine’s ’30 under 30’.

Professor Guttman’s method of research required the design of both a biological lab and a computational area that were efficient, conducive to the work being performed, and that fit within a building originally constructed in the 1930’s. The Guttman lab is located on the second floor of Kerckhoff Hall, and is comprised of 1,732 SF of wet lab area, a 1,077 SF computational office area, and a cold room. The wet lab includes a tissue culture room containing microscopes and bio safety cabinets, as well as a main lab space with 18 workstations and 2 fume hoods. 

Design features include a cohesive architecture that connects the two main components, which are set across the hall from one another, custom bamboo cabinetry and shelving, direct/indirect lighting coupled with under-cabinet lighting to achieve the appropriate light levels in the lab spaces. 3D modeling and rendering was used to help professor Guttman visualize the spaces during design. The scope of work included a new mechanical system including 4 fan coils located in the ceiling to condition the space. Construction of the spaces required timely coordination between AC Martin, the consultants and the general contractor, as the project was completed in approximately 4.5 months.

The nature of scientific collaboration is evolving from one of conducting research within departments to one that creates partnerships across departments/disciplines/institutions and, increasingly, context (academic, government, private industry). This type of interdisciplinary/multi-contextual collaboration has increased the pace of research and encouraged the development of innovative and groundbreaking strategies in investigating increasingly complex problems. Buildings from the 40’s - 90’s do not typically support this type of collaboration. For years, the emphasis in research labs was on bench, support and private office space providing no conference, meeting or social space required for an interdisciplinary team. The Minnich Lab renovation at Caltech looked at the department’s specific needs for collaboration and re-imagined the spaces to open them up and facilitate collaboration between groups.

The Minnich Nanotechnology Research Laser Lab was inserted into the existing 50 year old Keck Laboratory Building at the basement level. Professor Minnich not only conducts experiments, but because of the nature of his work, must also build the elements used in his experiments.  This required spaces to conduct experiments as well as spaces for tooling and manufacturing. AC Martin worked closely with the project team to integrate the proposed design into the existing structure and systems, including upgrades to systems as were required. New spaces include: optical lab, dry lab, wet lab with fume hood, and a sample prep area.

The Orthotics and Prosthetics Department is currently located off-campus in a 12,000 SF Los Alamitos office park, approximately 16 miles away from the CSUDH main campus in Carson. To address this issue, AC Martin designed a new 5,000 GSF Orthotics and Prosthetics Education Center to be built adjacent to the existing College of Continuing and Professional Education (CCPE) building. The new education center will house a megatronics lab, student lab, a maker space, clinical space, and shared resources for storage and deliverables. The O+P program will utilize existing classroom space in the CCPE building for lecture courses. CSUDH extensively studied how to bring the O+P program to the main campus, including scenarios for renovations, new construction, and nearby property purchases. However, the construction of a new O+P facility on campus yielded the most long-term operational savings as well as most closely meeting the needs of the program.

Bringing the O+P program back to the main campus provides many advantages, including closer connection to the College of Health and Human Development, College of Continuing and Professional Education, and University services and resources.

Creating a welcoming academic center for the recently designated Cal Poly Humboldt, our design-build Engineering & Technology Building will serve as a gateway to all polytechnic students, and shepherd them through years of success in the College of Natural Resources and Sciences. The project will include engineering and research labs, maker spaces, and a student success center that incorporates innovative building systems, allowing for future adaptability, improving student retention, and maintaining a uniquely Humboldt feel. The new building will bring engineering and technology education to the forefront, putting science on display and inviting students and the community to observe the polytechnic mission of “learn by doing.” The project will also utilize the latest MEP building systems to be Carbon Net Zero and constructed of mass-timber from locally sourced materials, creating a direct connection with the local industry.

The new Behavioral and Social Sciences building, which replaced Butte Hall on the Chico State University campus, creates a bookend for the campus’ east-west connection. The building massing is informed by the scale of the existing buildings, the programmatic elements, access to daylight, and accommodation of solar panels. This 94,000 gross square foot, design-build project with Turner Construction Company is a net zero energy building that co-locates several college resources to a common location and provides much needed study areas. The new building maximizes space usage, provides active learning environments, creates holistic work environments for faculty and staff, improves outdoor environments, and supports the health and wellness of all building occupants.⁠
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The building includes 22 general university classrooms, 1 large learning hall, various study and lounge spaces, 5 departmental instructional labs, and office spaces for the College of Behavioral and Social Sciences. The Behavioral and Social Sciences departments include Anthropology, Economics, Geography and Planning, Multi-Cultural and Gender Studies, Political Science and Criminal Justice, Public Health and Health Services Administration, Social Science, Social Work, and Sociology.⁠