Parametricism

Parametricism is a style within contemporary avant-garde architecture, promoted as a successor to post-modern architecture and modern architecture. The term was coined in 2008 by Patrik Schumacher, an architectural partner of Zaha Hadid (1950-2016). [1] Parametricism has its origin in parametric design, which is based on the constraints in a parametric equation. [2] Parametricism relies on programs, algorithms, and computers to manipulate equations for design purposes.

Aspects of parametricism have been used in urban design, architectural design, interior design and furniture design. Proponents of parametricism have declared that one of the defining features is that "Parametricism implies that all elements of the design become parametrically variable and mutually adaptive."[3] According to Schumaker, parametricism is an autopoiesis, or a self-referential system, in which all the elements are interlinked and an outside influence that changes one alters all the others."[4]

Parametricism rejects both homogenization (serial repetition) and pure difference (agglomeration of unrelated elements) in favor of differentiation and correlation as key compositional values. The aim is to build up more spatial complexity while maintaining legibility, i.e. to intensify relations between spaces (or elements of a composition) and to adapt to contexts in ways that establish legible connections. This allows architecture to translate the complexity of contemporary life processes in the global Post-Fordist network society.

History

Parametricism emerged as a theory-driven avant-garde design movement in the early 1990s, with its earliest practitioners - Greg Lynn, Jesse Reiser, Lars Spuybroek, Kas Oosterhuis among many others – harnessing and adapting the then new digital animation software and other advanced computational processes that had been introduced within architecture much earlier by pioneers like John Fraser and Paul Coates, but that only spread to make an impact within avant-garde architecture in the last 10–15 years.[5] Schumaker has said that he believes the work of Frei Otto (1925 - 2015) is a precursor of Parametricism, as Frei "used physical processes as simulations and design engines to 'find' form rather than to draw conventional or invented forms. The inherent lawfulness of the engaged physical processes produced a combination of complexity, rigor and elegance that was otherwise unattainable. The power and beauty of this approach was striking."[6]

Early instances of proto-Parametricism, as manifest through the prolific generation of innovative designs and radical experiments within the transitional styles of Deconstructivism and Folding - including the work of the discipline’s discourse leaders such as Peter Eisenman, Frank Gehry, Zaha Hadid, Rem Koolhaas, Wolf D. Prix, Bernard Tschumi, and Daniel Libeskind[7] - were later radicalized by younger practitioners who matured in the context of these early practices, and stabilized the discipline around prolonged research programmes thriving on emerging digital technologies, and culminating in the emergence of Parametricism.

Parametricism co-evolved with the global shift from the Modernist era of Fordism (mass production) to the Post-Fordist era (mass customization) of contemporary global society, and continues to evolve in an increasingly complex and fluid network of global societal communication systems. Parametricism offers advantages over styles that cannot (because they were never intended to) resonate and respond to the complexity and rapid fluidity of today’s society. Despite the persistence of styles such as modernism, minimalism, postmodernism, historicism and deconstructivism, a hard core of continuous innovation in research and building has stabilized around the new heuristics of Parametricism, and is continuing to proliferate the new style in academic and practice domains worldwide.

Heuristics

Parametricism offers functional and formal heuristics based on set of general abstract rules distilled from a very complex ecosystem of sustained avant-garde design research that spans over twenty five years of continuous innovative communication. Parametricism achieves elegance in both senses of the word – it is unified (compact) and beautiful (vital).

Functional heuristics

The functional heuristics of Parametricism include both Negative Principles and Positive Principles that have evolved since the mid-1990s across many projects worldwide, and that together constitute unifying heuristics. The Negative Principles include the avoidance of functional stereotypes (i.e. prescriptive program typologies), and the avoidance of segregative functional zoning (i.e. impermeable separation spaces according to single function allocation). The Positive Principles include the networking of parametric activity/event scenarios, and the communication of all spaces, activities and events.

Formal heuristics

Similar to the Functional heuristics, there are unified Formal heuristics distinguishing Parametricism from other styles of architecture. The Negative Principles include the avoidance of rigid forms that lack malleability; the avoidance of simple repetition that lacks variety; and the avoidance of collage of isolated and unrelated elements that result in a lack of order. The Positive Principles include the intelligent information-rich deformation of soft forms; differentiation of all systems through gradients, thresholds and singularities; and interdependent correlation of all systems.[8]

Projects

Munich Olympic Stadium (Frei Otto and Günther Behnisch, 1972)

Proto Parametricism (1952-1992)

Throughout his career, Frei Otto conducted research focused on constructing light-weight, tensile structures through form-finding physical models that performed analog "material computation". This work is regarded as the precursor to Parametricism. His design for the Olympic Stadium, Munich, built for the 1972 Summer Olympics, is a celebrated example of highly innovative lightweight tent construction, designed in collaboration with the architect Günther Behnisch.

The Water Pavilion (Lars Spuybroek, 1993-1997)

Early Parametricism (1993-2008)

Yokohama International Passenger Terminal (Foreign Office Architects, 1995-2002)
Phaeno Science Center (Zaha Hadid Architects, 2000-2005)

Beyond the discursive paradigm shifts that led to the emergence of Parametricism, the ambition of the early built projects (1993-2008) was focused on adapting and innovating manufacturing and construction processes, upgrading the discipline's capacity to translate complex digital designs into constructible material assemblies.

One of the earliest built examples, Lars Spuybroek's (NOX-Magazine) Water Pavilion (1993-1997), was the first building to utilize sensors throughout the interior, creating an interactive environment (also known as responsive architecture) where light and sound could be transformed by visitors.[9] It was praised by the renowned architecture critic Charles Jencks as "yet to be surpassed" in his book The New Paradigm of Architecture.[10]

One of the early examples of a project designed from the outset in three-dimensional computer model is Kas Oosterhuis' Saltwater Pavilion (Gold Award 1997 for innovative recreational projects, Zeeuwse Architectuurprijs 1998, nomination Mies van der Rohe Award 1998). "The delineation of the form is laid down in the digital genes of the design that hold the germ of life. The first idea is the genetic starting point for all subsequent steps in the development. We no longer accept the domination of platonic volumes, the simplistic geometry of cube, sphere, cylinder and cone as the basic elements of architecture.".[11]

Among the most critically acclaimed and stylistically defining of the earliest projects is the Yokohama International Passenger Terminal (1995-2002), designed by Foreign Office Architects, FOA, headed by Farshid Moussavi and Alejandro Zaera-Polo. The project was praised for its "inventive architectural methodology and socially conscious thinking". The project broke new ground, both formally and socially, enriching a prominent shared urban space.[12]

Another notable early example is a project designed by Greg Lynn (FORM), Douglas Garofalo (Garofalo Architects) and Michael McInturf (Michael McInturf Architects) using vector-based animation software (1999). This addition of a 1500-seat sanctuary on the roof of a renovated laundry factory was part of its conversion to the New York Presbyterian Church in Queens, New York (1999.[13]

Among the most celebrated and stylistically defining of the early built projects is the Phaeno Science Center in Wolfsburg, Germany, designed by Zaha Hadid Architects starting in 2000. The building opened to the public in 2005, and has been described as a "hypnotic work of architecture - the kind of building that utterly transforms our vision of the future." It won a 2006 RIBA European Award,[14] and the 2006 Institution of Structural Engineers Award for Arts, Leisure and Entertainment Structures.

A later example is the 21-story concrete shell tower 0-14 in Dubai, UAE (2007), designed by Reiser + Umemoto. The structural shell creates a unique lace-like facade is modulated for variable light and views. The one meter space between the shell and main enclosure creates natural air movement that cools the glass facade. This is a very early example of the environmental design benefits that are achieved by applying the adaptive heuristics of Parametricism. The building's load-bearing concrete shell eliminates the need for internal columns and load-bearing walls.[15][16]

Morphosis Architects' Giant Interactive Group Corporate Headquarters, designed in 2005-2006 and constructed in 2009-2010, is described by the architects as "emerging organically from complexity".[17] The campus is designed as a village that accommodates a diverse array of functions within a continuous folding plane that undulates in and out of the ground plane, creating a new artificial landscape.[18]

Dalian International Conference Center (Coop Himmelb(l)au, 2008-2012)
Dongdaemun Design Plaza at night (Zaha Hadid Architects, 2009-2014)


Parametricism 1.0 (2009-2014)

The most complex and important built projects designed in the style of Parametricism were completed after the global financial crisis of 2008.

Coop Himmelb(l)au's Dalian International Conference Center in Dalian, Liaoning, China, was completed in 2012. It has become "an instantly recognizable landmark" and "centerpiece of emerging Central Business District in the city of Dalian, bringing a parametric design to the edge of the Bay of Korea.[19] The dynamically fluid, modulated vector field articulated on the exterior enclosure correlates the level and direction of natural light penetration to the organizational spatial distribution of the interior spaces.

The Louis Vuitton Foundation was designed by Gehry Partners between 2006-2014. It is considered "a catalyst internationally for innovation in digital design and construction, setting a new standard for the use of advanced digital and fabrication technologies". The web-hosted, parametric, intelligently adaptable three-dimensional digital model enabled a team of over 400 people to contribute to it.[20]

The largest of these projects is Dongdaemun Design Plaza, designed by Zaha Hadid Architects with Samoo, a major urban development landmark in Seoul, South Korea. The project resulted in the 2010 designation of Seoul as the World Design Capital. The most innovative state-of-the-art fabrication techniques were used in shaping the "45,000 aluminium panels of varying sizes and curvatures". The back-lit facade, "described by the designers as 'a field of pixilation and perforation patterns'...[transforms] from a solid entity by day into an animated light show by night".[21]

Chhatrapati Shivaji International Airport Terminal 2 in Mumbai, India, designed by Skidmore Owings and Merrill and completed in 2014, serves over 40 million people yearly.[22] The terminal is designed to accommodate traditional Indian departure and arrival ceremonies, and the complex veriagated patterns incorporated in the architecture at all scales are reminiscent of native regional patterns.[23]

Parametricism 2.0 (2015- )

In a 2014 debate between Michael Hansmeyer and Patrik Schumacher of ZHA, part of "The New How" lecture series hosted by Alejandro Zaera-Polo at Princeton University School of Architecture, Schumacher introduced "Parametricism 2.0", the "upgraded" and now fully matured "Parametricism with parameters that matter".[24] Schumacher emphasized that after two decades of cumulative build-up of knowledge and experience, Parametricism is now fully prepared to "go mainstream", fulfilling the full gamut of the societal tasks of architecture in the "organization and articulation" of the built environment, including tectonic articulation and environmental adaptation.

Examples of projects that fit the Parametricism 2.0 paradigm and are currently in the design phase include Google's California Headquarters by Bjarke Ingels (BIG) and Thomas Heatherwick (Heatherwick Studio),[25] Beijing New Airport Terminal Building in Beijing China by Zaha Hadid Architects - which will be the world's biggest airport terminal,[26] Harbin Cultural Center in Haerbin, Heilongjiang, China by MAD Studio,[27] and Earthly Pond Service Center International Horticultural Exposition by HHD-FUN.[28]

Outlook

Parametricism is a global architectural style that has converged rather than being invented. Parametricism is architecture's answer to our computationally powered network society, representing a paradigmatic shift in architecture after the collapse of the hegemonic style of Modernism, in response to the global shift from the Modernist era of Fordism (mass production) to the Post-Fordist era (mass customization). The style continues to evolve in an increasingly complex and fluid network of global communications. Parametricism evolves with the advancing computational design and fabrication technologies. e.g. multi-agent computational systems, genetic algorithms and robotic fabrication. However, it is imperative to state that the emergence of a new style does not occur solely as the outcome of innovation in the technological arena. "The intelligence that is able to invent and think through such correlations is prior to its computational implementation. And, to a limited extend there can be "computation without computers".[29] Despite the radical paradigmatic shift that Parametricism achieved in architecture, older styles of architecture continue to persist in the mainstream. However, it is the implicit (and in some cases explicit) aim of those working within the style of Parametricism to conquer the mainstream arena and see Parametricism evolve into a global best practice standard for architecture and the design disciplines.

References

  1. Schumacher, Patrik (6 May 2010). "Patrik Schumacher on parametricism - 'Let the style wars begin'". http://www.architectsjournal.co.uk/. Retrieved 25 December 2015. External link in |website= (help)
  2. Coyne, Richard (18 January 2014). "What’s wrong with parametricism". richardcoyne.com. Retrieved 25 December 2015.
  3. "PARAMETRICISM". www.parametricism.agency/. ArchAgenda. 9 October 2015. Retrieved 25 December 2015.
  4. Eleini, Katerina (20 May 2015). "“THE AUTOPOIESIS OF ARCHITECTURE” PATRIK SCHUMACHER’S PARAMETRICISM AND THEORY". http://blogs.cornell.edu/. Cornell. Retrieved 25 December 2015. External link in |website= (help)
  5. Lynn, Greg. "CCA - Archeology of the Digital."
  6. Schumacher, Patrik. "11. Parametricism - The Parametric Paradigm and the Formation of a New Style." p.619
  7. Johnson, Phillip. "Deconstructivist Architecture - Museum of Modern Art - Fact Sheet."
  8. Schumacher, Patrik. "11. Parametricism - The Parametric Paradigm and the Formation of a New Style." p.657
  9. Osness, B. (2012, December 1). HtwoOexpo the Water Pavilion, Lars Spuybroek NOX. Retrieved May 12, 2015, from http://brettosness.files.wordpress.com/2009/12/finalhtwo0_small.pdf
  10. Jencks, C. (2002). The new paradigm in architecture: The language of Post-modernism. New Haven: Yale University Press.
  11. Oosterhuis, K. (n.d.). Salt Water Pavilion and Hydra sensorium. Retrieved May 12, 2015, from http://www.onl.eu/?q=projects/salt-water-pavilion
  12. AD Classics: Yokohama International Passenger Terminal / Foreign Office Architects (FOA). (2014, October 6). Retrieved May 12, 2015, from http://www.archdaily.com/554132/ad-classics-yokohama-international-passenger-terminal-foreign-office-architects-foa/
  13. Greg Lynn: Korean presbyterian church, new york. (2012, November 16). Retrieved May 12, 2015, from http://www.designboom.com/architecture/greg-lynn-korean-presbyterian-church-of-new-york
  14. RIBA European Award winners 2006. (n.d.). Retrieved May 12, 2015, from http://www.architecture.com/RIBA/Awards/RIBAEuropeanAwards/2006/RIBAEuropeanAwards2006.aspx
  15. Reiser, J. (n.d.). RUR Architecture PC. Retrieved May 12, 2015, from http://www.reiser-umemoto.com/
  16. O-14 / Reiser Umemoto. (2012, September 18). Retrieved May 12, 2015, from http://www.archdaily.com/273404/o-14-reiser-umemoto/
  17. Morphosis. (2009, February 22). Giant Interactive Group Corporate Headquarters. Retrieved May 12, 2015, from http://morphopedia.com/projects/giant-interactive-group-corporate-headqu
  18. Unknown. (n.d.). Giant Interactive Group Corporate Headquarters | Morphosis Architects. Retrieved May 12, 2015, from http://www.arch2o.com/giant-interactive-group-corporate-headquarters-morphosis-architects/
  19. Dalian International Conference Center. (n.d.). Retrieved May 12, 2015, from http://en.wikiarquitectura.com/index.php/Dalian_International_Conference_Center
  20. Fondation Louis Vuitton / Gehry Partners. (2014, October 13). Retrieved May 12, 2015, from http://www.archdaily.com/555694/fondation-louis-vuitton-gehry-partners/
  21. Zaha Hadid's Dongdaemun Design Park & Plaza opens in Seoul. (2014, March 23). Retrieved May 12, 2015, from http://www.dezeen.com/2014/03/23/zaha-hadid-dongdaemun-design-plaza-seoul/
  22. Fernandes, N. (2014, February 20). Cities in motion: Why Mumbai's new air terminal has gone off the rails. Retrieved May 12, 2015, from http://www.theguardian.com/cities/2014/feb/20/cities-in-motion-mumbai-air-terminal-rails
  23. http://SOM : Chhatrapati Shivaji International Airport – Terminal 2. (n.d.). Retrieved May 12, 2015, from http://www.som.com/projects/chhatrapati_shivaji_international_airport__terminal_2
  24. Patrik Shumacher and Michael Hansmeyer - F'14 SoA Lecture Series, "The New How" (112414). (2014). Retrieved May 12, 2015, from https://vimeo.com/112854141
  25. BIG and Heatherwick unveil design for Google's California HQ. (2015, February 27). Retrieved May 12, 2015, from http://www.dezeen.com/2015/02/27/big-and-heatherwick-unveil-vibrant-new-neighbourhood-for-googles-california-hq/
  26. Ledbetter, C. (2015, May 1). Beijing Is Building The World's Biggest Airport Terminal. Retrieved May 12, 2015, from http://www.huffingtonpost.com/2015/05/01/beijing-worlds-biggest-airport-_n_7188682.html
  27. Harbin Cultural Centre | MAD Architects. (n.d.). Retrieved May 12, 2015, from http://www.arch2o.com/harbin-cultural-centre-mad-architects/
  28. Earthly Pond Service Center | HHD FUN. (n.d.). Retrieved May 12, 2015, from http://www.arch2o.com/earthly-pond-service-center-international-horticultural-exposition-hhd-fun/
  29. (ref missing)

External links

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