Launched in 2005, the Architectural Training and Research Programs are a response to the need for the practice of architecture to return more of what is learned through designing and constructing buildings to the field itself. Each program creates a space in which architectural knowledge can be developed free of the constraints of particular projects, sites, budgets, or programs – yet informed at every step by the realities of practice.

The research program awards grants to individual researchers with ideas and the passion to explore them. In the first two rounds, the only requirements were that the ideas should have the potential to improve the craft or practice of architecture, and that they should benefit from being carried out within the context of a busy architectural office. Researchers have worked as resident fellows in close association with architects, engineers, graphic designers, and model makers at Rafael Viñoly Architects, and with non-profit and industry partners.

To mark its twenty-fifth anniversary, the firm for the first time awarded multiple research grants, with an emphasis on international themes. Research teams have worked in Europe, China, Latin America, Australia, and Indonesia.

The training program was established to provide a tuition-free, fourteen-week fall course that develops the operational and intellectual instruments that form the basis of practice. The program, which is not to be considered a substitute for a formal architectural education, was created for advanced students and practicing architects who find a significant gap between their formative instruction and the challenges they face as professionals, presenting architectural expertise not as an intuitive ability that comes only with experience, but as a body of knowledge that can be taught. Classes have been offered by Rafael Viñoly and his colleagues.

In 2008, the course’s faculty and other interested architects in the firm redesigned the program, evaluating the curriculum from the standpoint of the firm's own experiene in training young architects. The new curriculum was organized around a few central questions: How do architects learn to make good decisions within the context of a project, a schedule, and a budget? How do they learn what they need to know to make decisions? How do they learn what questions to ask? In 2009-2010, with the help of a workforce training grant from New York State's Department of Labor, the program underwent further modifications. Participation was limited to employees of Rafael Viñoly Architects.

In 2010, the training program focused on publishing and disseminating the work produced by the latest round of research fellows. The 2012-2013 training program is currently under development.

  • training

    • Week 1

      LEED for New Construction 2009

      Topics covered: Sustainable Sites, Water Efficiency, Energy and Atmosphere, Materials and Resources, Indoor Environmental Quality, Innovation and Design, and Regionaly Priority. Pactices for incorporating green strategies into building design. Process for obtaining LEED certification.

      Instructors: Michael Gresty (Altanova LLC)

      Week 2

      International Green Building Rating Systems

      Overview of different green building rating systems: UK BREEAM, Abu Dhabi Estidama Pearl, Australia Green Star, South Africa Green Star. How to adapt sustainable thinking to different environmental contexts.

      Instructors: Michael Gresty (Altanova LLC)

      Week 3

      Planning and Infrastructure: From Macro to Micro

      Regional and environmental factors that influence master planning. Market drivers for infrastructure, planning, and design strategies of projects in the U.S. and abroad.

      Instructors: Andrea Lamberti

      Week 4

      Building for the Arts (I): Theaters

      Case studies: Kimmel Center for the Performing Arts, Curve (theatre). Programmatic criteria. Local examples of theaters. Project delivery and construction of theaters.

      Instructors: Harold Park

      Week 5

      Building for the Arts (II): Galleries

      Case studies: Cleveland Museum of Art, firstsite:newsite, Duke University Nasher Museum of Art. Unique mechanical and engineering features and opportunities for sustainable design initiatives. Project delivery and construction of galleries and museums.

      Instructors: David Rolland

      Week 6

      Approvals and Zoning

      Planning procedures of large mixed-use projects in different jurisdictions such as New York City, Philadelphia, and Abu Dhabi. Approvals and zoning issues and their effect on project schedules.

      Instructors: Jim Herr, Martin Hopp, Andrea Lamberti

    • Week 7

      Variances

      Alternative methods for complying with planning and zoning regulations. How to compute typical zoning and variance calculations.

      Instructors: Jim Herr, Martin Hopp

      Week 8

      Structures, Technology, and Documentation

      Case studies: Brooklyn Children's Museum, Gabrielle H. Reem and Herbert J. Kayden Center for Science and Computation at Bard College, UPenn Perelman Center for Advanced Medicine, and others.

      Instructors: Martin Hopp, David Rolland

      Week 9

      Challenges of a Global Practice

      Case studies: Carrasco International Airport (Montevideo, Uruguay), Edificio Acqua (Punta del Este, Uruguay). Comparison of building construction practices in North and South America.

      Instructors: Rolando Goldstein, David Rolland, Carlos Soubiè

      Week 10

      Façade Engineering: Waterproofing and Roofing

      Overview of waterproofing and roofing technologies. Quality control in construction documentation.

      Instructors: Charles Blomberg, David J. von Stappenbeck

      Week 11 & 12

      Façade Engineering: General Exterior Wall Systems and Specialist Walls

      Overview of wall systems and their application to a variety of project types.

      Instructors: Charles Blomberg, Carlos Soubiè, David J. von Stappenbeck

      Week 13

      Project Delivery

      Case studies: UCSF Helen Diller Family Cancer Research Building, UCSF Institute for Regenerative Medicine, Vdara Hotel & Spa at CityCenter, the New Stanford Hospital. Planning, budgeting, and implementing projects. Alternative delivery methods.

      Instructors: Chan-li Lin

    • Week 14

      Wrap Up

      Competition submissions and the use of video for presentation: examples from recent entries to competitions in Germany, China, Brazil, and Argentina. Round table discussion and critique of 2009-2010 training program.

      Instructors: Charles Blomberg, Ned Kaufman, Andrea Lamberti, and Carlos Soubiè

    • Week 1

      Introduction

      Tools of an Architect

      Instructors: Rafael Viñoly

      Week 2

      The Stages of a Project From Commission to Completion: Site Visit

      The Stages of a Project From Commission to Completion: Site Visit
      Princeton University Stadium and Carl Icahn Laboratory, Lewis-Sigler Institute for Integrative Genomics

      Instructors: Charles Blomberg, Andrea Lamberti

      Week 3

      Establishing the Building Concept and Organization

      Establishing the concept. Basic premises for the building's organization. Circulation. Fixed elements vs. changeable spaces. Aligning a winning scheme to new constraints.

      Instructors: Andrea Lamberti, Chan-li Lin, Teal Usher

      Week 4

      Re-thinking the Brief

      Site. Budget. Role of competitions.

      Instructors: Andrea Lamberti, Alison Macdougal-Weil, Teal Usher

      Week 5

      Managing and Tracking Projects (I)

      Putting together proposals. Fast-track bid packages. Managing the early design stages. Tracking the actual project.

      Instructors: Andrea Lamberti, David Rolland, Jim Herr, Harold Park, Herb Jesswein

      Week 6

      Defining Building Systems (I): Architectural

      Enclosure. Materials. Finishes and color (interior and exterior). Atria and large spaces vs. cellular spaces. Specific materials and finishes vs. material qualities.

      Instructors: Charles Blomberg, David von Stappenbeck

    • Week 7

      Defining Building Systems (II): Engineering

      Development of structure in relation to building concept. Innovations to meet or exceed project conditions. Cable walls, self-shading systems, skylights.

      Instructors: Carlos Soubie, Chan-li Lin, Yoshinori Nito

      Week 8

      The Why and How of Collaboration

      When and when not to collaborate. Collaboration with your team (scaling and dispersing responsibility across offices); with consultants (information gathering and research); with builders and fabricators; and with engineers. Collaboration versus design direction (UK vs. US subcontract models).

      Instructors: Jay Bargmann, Charles Blomberg, Harold Park, David Rolland, Carlos Soubié

      Week 9

      Defining Building Systems (III): Craftsmanship

      Mechanical systems. Filigree systems. Modularity. Role of craftsmanship and custom design in innovative solutions.

      Instructors: Jay Bargmann, David Rolland

      Week 10

      Managing and Tracking Projects (II)

      Documentation, coordination, liability. Construction document: why do them. Limits of the of architect's responsibilities. Coordinating consultant documents. Role of non-architectural disciplines.

      Instructors: Jay Bargmann, Charles Blomberg, Charlie Clements, Mariana Kolova, Ron Papaleo

      Week 11

      Building Your Own Ideology and Career

      Knowing what you like and what you want. Positioning yourself in relation to the craft and its history.

      Instructors: Rafael Viñoly

      Week 12

      Future Directions: BIM and Integrated Project Delivery

      Collaboration and multi-disciplinary work. International contexts (e.g. South American, Middle Eastern). Discussion of how BIM and other systems for project delivery are changing practice.

      Instructors: Charles Blomberg, Carlos Soubié
    Rafael Viñoly Jay Bargmann Charles Bloomberg Rolando Goldstein Ned Kaufman Andrea Lamberti Chan-li Lin Harold Park Carlos Soubié David J. von Stappenbeck Teal Usher

    Rafael Viñoly

    Principal / Lead Designer

    The firm’s founder and director, Rafael is also the training program’s guiding spirit.

    Born in Uruguay and raised in Argentina, Rafael Viñoly has practiced architecture for forty-five years. As principal of Rafael Viñoly Architects PC in New York, he has completed many critically and publicly praised buildings worldwide. His work is inspired by a conviction that architecture should enhance the public realm, and his projects are marked less by adherence to any specific architectural style or movement than by a sustained dedication to exploring the expressive and space-making possibilities of structural innovation.

    The firm’s seminal projects include the Tokyo International Forum; the Howard Hughes Medical Institute Janelia Farm Research Campus in Ashburn, Virginia; and Philadelphia’s Kimmel Center for the Performing Arts. In 2009, New York’s Brooklyn Children’s Museum; the University of Pennsylvania Health System’s Perelman

    Center for Advanced Medicine in Philadelphia; “Curve,” a theater in Leicester, England; the Fortabat Collection in Buenos Aires; Edificio Acqua in Punta del Este, Uruguay, will reach completion.

    Founder of the firm’s training and research programs, Rafael is a Fellow of the American Institute of Architects, an International Fellow of the Royal Institute of British Architects, and a member of the Japan Institute of Architects. His classes on design development and the role of ideology in architecture have been highlights of the training program during its first years.

    Profiles are being updated, please check back soon.

    The training program for 2012-2013 is currently under development. Please check back later for further information.

    • 2008 Site Visit: Princeton University, Princeton, NJ Carl Icahn Laboratory of the Lewis-Lewis-Sigler Institute for Integrative Genomics

      2008 Site Visit: Princeton University, Princeton, NJ Carl Icahn Laboratory of the Lewis-Lewis-Sigler Institute for Integrative Genomics

  • research

    Housing in China, Exploring Steps Toward a Solution A Critique of the Performance of Large-Scale Urban Projects in Bogotá, Colombia Relief Efforts After the 2004 Tsunami Transforming Squatter Settlements into Urban Neighborhoods

    Housing in China, Exploring Steps Toward a Solution

    Researchers: Ida Assefa, David O'Brien

    With some of the world’s largest cities, China faces an intense demand for new urban housing. While the government and developers have taken major strides towards housing the wealthy, attention is now shifting to the majority of city dwellers. One result is that China’s urban villages, offering the last available center-city development sites, are being increasingly targeted for redevelopment. But what forms of housing will best meet the needs of ordinary Chinese city-dwellers? Zhang, Baumler, and Feng will bring the disciplines of architecture, urban planning, and documentary photography to the problem. They will investigate both urban villages and new development projects in Shenzhen, as well as an emerging housing form in Shanghai, the group rental, in order to gain insight into the needs and desires of residents. To supplement the statistical information which already exists, they will live alongside and interview residents. They will

    also organize public meetings in order to initiate dialogue among residents, local officials, designers, and developers.

    New Horizons for Composite Fiber Structures: Technology Transfer From Aeronautics to Long-Span Structures From Industrial Insulation to a Rooftop Learning Landscape in the Bronx: The Stevenson Green Roof Project

    New Horizons for Composite Fiber Structures: Technology Transfer From Aeronautics to Long-Span Structures

    Researchers:

    Architect Michael Silver loves to make things. He is also fascinated by the patterns which computers can generate. And he is intrigued by the extraordinary structural and aesthetic properties of carbon and other composite fibers. He approached Rafael Viñoly Architects in the fall of 2006 with a proposal: to explore the potential for transferring what fiber manufacturers have already achieved in aeronautics and other high-performance engineering fields to the design of buildings. Though composite fibers remain expensive, he believed that their superior strength and lightness offered advantages over more traditional structures. His intuition also told him that the technology of computer-driven fiber placement could reveal new aesthetic solutions which transcend the old opposition between structural frame and infill panel. The research quickly evolved into a close three-way partnership among Silver, designers and engineers at Rafael Viñoly Architects, and Automated Dynamics Corporation, an advanced composite manufacturer in Schenectady, New York.

    Understanding Composites:

    Composites are termed as such because they represent a composite of two very different materials: a fiber made of carbon, glass, or other material, and a matrix made of resin or a high strength epoxy. They were introduced in the late 1950s and have been widely used in contexts in which a premium is placed on the combination of strength and lightness and where high cost can be partially offset by the production of multiple parts from a single design. The construction of airplanes provides an important example. While there are many fabrication processes, Mike’s research focuses on a relatively new one called “computer automated fiber placement,” a technique which Automated Dynamics uses to make oil pipeline fittings and a variety of other high-tech industrial parts, and which aeronautics manufacturers like Raytheon apply to airplane fuselages. In this technique, a computer-controlled machine lays down strips of fiber tape on a mold or mandrel and heat-seals them in

    epoxy or resin. Computerization allows the machine to execute remarkably complex patterns with great precision, and this in turn allows designers to use the material very efficiently by placing it exactly where and in the quantities required by the structure. While the machines can produce continuous cylinders or even solids built up of numerous overlapping layers, they can also be used to generate complex three-dimensional patterns resembling basketwork. It was these patterns, and their potential for mimicking the lines of force found in an engineering diagram, that fascinated Mike. The question was what they could do for architecture.
    Research Questions and Answers

    Mike launched his residency at Rafael Viñoly Architects by meeting with senior architects and engineers, led by Jay Bargmann, to develop an approach. Everyone agreed that composites can successfully be used to build furniture, decorative components, small-scale architectural elements, and panels: designing and building an architectural application of

    composite elements might produce an aesthetically interesting result but would prove little beyond what was already known. The group wanted to push the limits. They agreed on a more daring strategy: to see if computer automated fiber placement could produce a long-span roof structure. The immediate goal of the research project was to design and produce a scale model of such a structure, using the actual machinery and processes of computer automated fiber placement. This required not only developing a successful structural design but also understanding the precise capabilities and limitations of the manufacturing process and programming the movements of the taping head and mandrel. This might well be a year’s work, but the ultimate goal of the experiment was to determine whether composites could equal the structural performance of steel and glass and even out-perform it in terms of cost. To provide a basis for comparison, an actual project was chosen as a benchmark: the atrium of the addition to the Cleveland Museum of Art, which was already in design.

    At a minimum, therefore, the composite structure would have to meet all of the constraints of the Cleveland design. It would have to span a space of 338 by 114 feet with no internal supports. The depth of the composite structure could not exceed four feet. And the composite roof would have to admit daylight comparable in quantity and quality to the glass skylights specified in the actual design.

    Before setting to work, Mike arranged for the Rafael Viñoly Architects team to visit the Automated Dynamics and Raytheon plants and the National Institute for Aviation Research to gain first-hand exposure to the manufacturing process and materials. The Rafael Viñoly Architects team included technical director Charles Blomberg, structural engineer Carlos Soubié, and research director Ned Kaufman, later joined by consulting engineer Phil Khalil. The design proceeded through numerous iterations in which drawings and models were reviewed, tested, and refined. Meanwhile,

    Mike was also consulting regularly with Rob Langone, Automated Dynamics vice president for composite structures, and with master programmer Chipp Jansen. The basic concept was a 100-foot-long composite member that looked somewhat like a triangular truss. The challenge was to design a three-dimensional pattern of fibers which would efficiently place material where it was structurally needed and not elsewhere, create aesthetically satisfying patterns when replicated across the entire roof, and admit an appropriate amount of daylight. Most of all, the pattern had to be one that the machine could efficiently follow. And it had to be designed for easy and safe removal from the mandrel when it was complete.

    After more than a year of work, all were satisfied that they had a workable design. Rafael Viñoly Architects contracted with Milgo/Bufkin Metal Fabrication, a well-known metalworking firm, to build a custom stainless steel mandrel. The drawings, mandrel, and computer algorithms were taken to

    Automated Dynamics, which contributed materials, expertise, and the use of its machines. A few days later – with the help of some dry ice – two twelve-foot-long models were successfully removed from the mandrel. One is made of carbon fiber, the other of glass fiber. Both are remarkably light and strong.

    The experiment to design and build a long-span composite truss has successfully demonstrated several points. First, it is possible, using computer automated fiber placement, to design and manufacture a composite structure over one hundred feet long that performs successfully from an engineering perspective. Second, such a structure is less deep than a steel truss and a fraction of the weight. Third, composite structures used in this way offer aesthetic possibilities, in terms of pattern, light, and color, which are distinctively different from those available with steel and glass.

    Next Steps:

    Other questions remain as yet unanswered. For example, although the engineering analysis carried out by Phil Khalil and Carlos Soubié took wind and snow loads into account, as well as the impacts of maintenance, the structure’s response to ultraviolet light was not considered, nor was its performance in a fire. Also, no cost comparison was attempted. Such a comparison would have to consider not only the cost of fabrication but also of shipping and assembly. Conversely, it would have to account for savings in the supporting structure due to the greatly reduced weight of the roof. These and other questions await further research. Meanwhile, Mike’s work with Rafael Viñoly Architects and Automated Dynamics has opened up promising avenues for exploration.

    The Gaia Institute New Visions for Public Schools Automated Dynamics Milgo/Bufkin Pittsburgh Corning The Salvadori Center School Construction Authority The Stevenson Schools Tremco

    The Gaia Institute

    http://www.gaiainstituteny.org/

    This Bronx-based non-profit is a leader in the movement towards environmental restoration and the integration of human communities in natural systems. The Gaia Institute is a partner in the Stevenson Green Roof project.

    • Representing the culmination of a 3-year research process, we are please to announce our book, Pressures and Distortions: City Dwellers as Builders and Critics. More information at: <a href="http://www.rvatr.com">www.rvatr.com</a>

      Representing the culmination of a 3-year research process, we are please to announce our book, Pressures and Distortions: City Dwellers as Builders and Critics. More information at: www.rvatr.com

    • 4 teams of researchers analyze how residents are designing, building, and interpreting cities in the face of wrenching transformations. More info at: www.rvatr.com

      4 teams of researchers analyze how residents are designing, building, and interpreting cities in the face of wrenching transformations. More info at: www.rvatr.com