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Why the rise of redundant precision in architecture and the accompanying fear of error are key to understanding the discipline's needs, anxieties and desires. When architects draw even brick walls to six decimal places with software designed to cut lenses, it is clear that the logic that once organized relations between precision and material error in construction has unraveled. Precision, already a promiscuous term, seems now to have been uncoupled from its contract with truthfulness. Meanwhile error, and the always-political space of its dissent, has reconfigured itself. In The Architecture of Error Francesca Hughes argues that behind the architect's acute fetishization of redundant precision lies a special fear of physical error. What if we were to consider the pivotal cultural and technological transformations of modernism to have been driven not so much by the causes its narratives declare, she asks, as by an unspoken horror of loss of control over error, material life, and everything that matter stands for? Hughes traces the rising intolerance of material vagaries—from the removal of ornament to digitalized fabrication—that produced the blind rejection of organic materials, the proliferation of material testing, and the rhetorical obstacles that blighted cybernetics. Why is it, she asks, that the more we cornered physical error, the more we feared it? Hughes's analysis of redundant precision exposes an architecture of fear whose politics must be called into question. Proposing error as a new category for architectural thought, Hughes draws on other disciplines and practices that have interrogated precision and failure, citing the work of scientists Nancy Cartwright and Evelyn Fox Keller and visual artists Gordon Matta-Clark, Barbara Hepworth, Rachel Whiteread, and others. These non-architect practitioners, she argues, show that error need not be excluded and precision can be made accountable.
Architecture Design for Soft Errors provides a comprehensive description of the architectural techniques to tackle the soft error problem. It covers the new methodologies for quantitative analysis of soft errors as well as novel, cost-effective architectural techniques to mitigate them. To provide readers with a better grasp of the broader problem definition and solution space, this book also delves into the physics of soft errors and reviews current circuit and software mitigation techniques. There are a number of different ways this book can be read or used in a course: as a complete course on architecture design for soft errors covering the entire book; a short course on architecture design for soft errors; and as a reference book on classical fault-tolerant machines. This book is recommended for practitioners in semi-conductor industry, researchers and developers in computer architecture, advanced graduate seminar courses on soft errors, and (iv) as a reference book for undergraduate courses in computer architecture. - Helps readers build-in fault tolerance to the billions of microchips produced each year, all of which are subject to soft errors - Shows readers how to quantify their soft error reliability - Provides state-of-the-art techniques to protect against soft errors
Whereas most humans spend their time trying to get things right, psycholo gists are perversely dedicated to error. Errors are extensively used to in vestigate perception, memory, and performance; some clinicians study errors like tea leaves for clues to unconscious motives; and this volume presents the work of researchers who, in an excess of perversity, actually cause people to make predictable errors in speech and action. Some reasons for this oddity are clear. Errors seem to stand at the nexus of many deep-psychological questions. The very concept of error presupposes a goal or criterion by comparison to which an error is an error; and goals bring in the foundation issues of control, motivation, and volition (Baars, 1987, 1988; Wiener, 1961). Errors serve to measure the quality of performance in learning, in expert knowledge, and in brain damage and other dysfunctional states; and by surprising us, they often call attention to phenomena we might otherwise take for granted. Errors also seem to reveal the "natural joints" in perception, language, memory, and problem solving-revealing units that may otherwise be invisible (e. g. , MacKay, 1981; Miller, 1956; Newell & Simon, 1972; Treisman & Gelade, 1980).
An inventive examination of a crucial but neglected aspect of architecture, by an architect writing to architects. Maintenance plays a crucial role in the production and endurance of architecture, yet architects for the most part treat maintenance with indifference. The discipline of architecture values the image of the new over the lived-in, the photogenic empty and stark building over a messy and labored one. But the fact is: homes need to be cleaned and buildings and cities need to be maintained, and architecture no matter its form cannot escape from such realities. In Maintenance Architecture, Hilary Sample offers an inventive examination of the architectural significance of maintenance through a series of short texts and images about specific buildings, materials, and projects. Although architects have seldom choose to represent maintenance—imagining their work only from conception to realization—artists have long explored subjects of endurance and permanence in iconic architecture. Sample explores a range of art projects—by artists including Gordon Matta-Clark, Jeff Wall, and Mierle Laderman Ukeles—to recast the problem of maintenance for architecture. How might architectural design and discourse change as a building cycle expands to include “post-occupancy”? Sample looks particularly at the private home, exhibition pavilion, and high-rise urban building, giving special attention to buildings constructed with novel and developing materials, technologies, and precise detailing in relation to endurance. These include Buckminster Fuller's Dymaxion House (1929), the Lever House (1952), the U.S. Steel Building (1971), and the O-14 (2010). She considers the iconography of skyscrapers; maintenance workforces, both public and private; labor-saving technology and devices; and contemporary architectural projects and preservation techniques that encompass the afterlife of buildings. A selection of artworks make the usually invisible aspects of maintenance visible, from Martha Rosler's Cleaning the Drapes to Inigo Manglano-Ovalle's The Kiss.
Table of Contents The Architecture of Science by Galison, Peter L. (Editor); Edelman, Shimon (Editor); Thompson, Emily (Editor) Terms of Use Acknowledgments Notes on Contributors 1 Buildings and the Subject of Science Peter Galison 1 Of Secrecy and Openness: Science and Architecture in Early Modern Europe 2 Masculine Prerogatives: Gender, Space, and Knowledge in the Early Modern Museum Paula Findlen 3 Alchemical Symbolism and Concealment: The Chemical House of Libavius William R. Newman 4 Openness and Empiricism: Values and Meaning in Early Architectural Writings and in Seventeenth-Century Experimental Philosophy Pamela O. Long II Displaying and Concealing Technics in the Nineteenth Century 5 Architecture for Steam M. Norton Wise 6 Illuminating the Opacity of Achromatic Lens Production: Joseph von Fraunhofer's Use of Monastic Architecture and Space as a Laboratory Myles W. Jackson 7 The Spaces of Cultural Representation, circa 1887 and 1969: Reflections on Museum Arrangement and Anthropological Theory in the Boasian and Evolutionary Traditions George W. Stocking Jr. 8 Bricks and Bones: Architecture and Science in Victorian Britian Sophie Forgan III Modern Space 9 "Spatial Mechanics": Scientific Metaphors in Architecture Adrian Forty 10 Diagramming the New World, or Hannes Meyer's "Scientization" of Architecture K. Michael Hays 11 Listening to/for Modernity: Architectural Acoustics and the Development of Modern Spaces in America Emily Thompson 12 Of Beds and Benches: Building the Modern American Hospital Allan M. Brandt and David C. Sloane IV Is Architecture Science? 13 Architecture, Science, and Technology Antoine Picon 14 Architecture as Science: Analogy or Disjunction? Alberto Perez-Gomez 15 The Mutual Limits of Architecture and Science Kenneth Frampton 16 The Hounding of the Snark Denise Scott Brown V Princeton After Modernism: the Lewis Thomas Laboratory for Molecular Biology 17 Thoughts on the Architecture of the Scientific Workplace: Community, Change, and Continuity Robert Venturi 18 The Design Process for the Human Workplace James Collins Jr. 19 Life in the Lewis Thomas Laboratory Arnold J. Levine 20 Two Faces on Science: Building Identities for Molecular Biology and Biotechnology Thomas F. Gieryn VI Centers, Cities, and Colliders 21 Architecture at Fermilab Robert R. Wilson 22 The Architecture of Science: From D'Arcy Thompson to the SSC Moshe Safdie 23 Factory, Laboratory, Studio: Dispersing Sites of Production Peter Galison and Caroline A. Jones Index Descriptive content provided by Syndetics"! a Bowker service
What can you do with a degree in architecture? Where might it take you? What kind of challenges could you address? Architects After Architecture reframes architecture as a uniquely versatile way of acting on the world, far beyond that of designing buildings. In this volume, we meet forty practitioners through profiles, case studies, and interviews, who have used their architectural training in new and resourceful ways to tackle the climate crisis, work with refugees, advocate for diversity, start tech companies, become leading museum curators, tackle homelessness, draft public policy, become developers, design videogames, shape public discourse, and much more. Together, they describe a future of architecture that is diverse and engaged, expanding the limits of the discipline, and offering new paths forward in times of crisis. Whether you are an architecture student or a practicing architect considering a change, you’ll find this an encouraging and inspiring read. Please visit the Architects After Architecture website for more information, including future book launches and events: architectsafterarchitecture.com
This book examines the life and works of a major architect whose buildings today surpass him in recognition.
Precision is necessary in the field of architecture, and new technologies have increased demands for accuracy, particularly when the smallest errors can have outsized consequences. However, the importance of precision, or exactitude, has not received the consideration it merits. While themes of sustainability, performance, and formal innovation have been at the forefront of architectural scholarship for the past twenty years, this book moves beyond these concerns to explore the theoretical and practical demands exactitude makes on architecture as a field. The eleven essays collected here investigate the possibilities and shortcomings of exactitude and delve into current debates about the state of contemporary architecture as both a technological craft and artistic creation. Featuring new work by leading theorists, historians, editors, architects, and scholars, this volume brings theory and practice into insightful and productive conversations. In addition to the editors, contributors include Mark Wigley, Alejandro Zaera-Polo, Eric Höweler, Christopher Benfey, Sunil Bald, Ada Tolla and Giuseppe Lignano with Thomas de Monchaux, Alicia Imperiale, Francesca Hughes, Teresa Stoppani, and Cynthia Davidson.
The software development ecosystem is constantly changing, providing a constant stream of new tools, frameworks, techniques, and paradigms. Over the past few years, incremental developments in core engineering practices for software development have created the foundations for rethinking how architecture changes over time, along with ways to protect important architectural characteristics as it evolves. This practical guide ties those parts together with a new way to think about architecture and time.
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