director ONL | emeritus professor Hyperbody TU Delft [2000-2016] | professor Qatar University [2017-2019] | consultant Qatar Robotic Printing Qatar University [2019-2022] | email email@example.com
The Body Chair is shown at Dubai Design Days in Design District D3 from 13-17 March 2017, presented by the Dutch Creative Industry [DCI] in 3 bespoke configurations: BYYU 30 FABRIC, BYYU 60 WOOD and BYYU 60 MONDRIAN, and at the Salone di Mobile from 4-9 April, presented by Masterly at the Palazzo Francesco Turati in the center of Milan.
The title of this blog leaves no doubt. I am not a fan of parametricism, while everything we do at my innovation studio ONL and at my chair Hyperbody at the TU Delft is fundamentally parametric. I will explain why. I do not think that it is a matter of definitions, but a matter of understanding of what parametric design is about. It certainly is not a style, and it should never be seen as such. In his lecture at the symposium Artificial Intuition  of which I managed the content at the Faculty of Architecture at the TU Delft Robert Aish told us that parametric design was something he was doing already back in the seventies while working for a Polish shipbuilder. Since a ship does not have a repetitive section through its body due to the streamline of the ship he developed a detail of which the values would adapt to their changing position in the body. That is parametric indeed, although Aish had a better word for it, he named it Associative Modelling. Parametric design means modelling associations between the components, which a ship or a building is made of. Associations are a form of dynamic entanglement. When one part changes its values, the associated parts change with it.
Since the early nineties my short definition of parametric design is the art of establishing dynamic relationships. Adaptive relationships of parts to parts, of things to things, of objects to objects, whether in the virtual realm or in the materialized world. Related to parametric design, but not the same, is interactive architecture, which I define as the real time relationships of people to things, and the other way round. Relationships are per definition bidirectional and never static. Relationships are constructed by acting in a complex adaptive system. Such is the case with parametric design, a parametric relationship acts both ways and in multiple ways.
Apollo < > Soyuz
An associative relationship does not necessarily mean that the neighboring part is similar in its shape or dimensions. Entangled parts can be of a different family and of a different order. I can illustrate this with my favourite yet one-dimensional form of a parametric relationship, which is the relation between the Soviet Soyuz and the American Apollo capsules docking in space. This happened back in the seventies of last century and it was a huge accomplishment, and of high political and technical importance. American and Russians embarked on a shared process of exchanging visions, views and data, eventually leading to the agreement on one single common docking ring. It basically meant that the Soyuz and the Apollo fitted exactly, in one moment in time, at one specific location, with one specific set of shapes and dimensions. It is this exactness of the association that is key to parametric design. In the world of parametric design one establishes exact relationships between parts, entangled as to adapt to the variations of the neighboring part.
While designing the Waterpavilion [ONL, 1997] we linked the reference points on the main 8 curves, define the geometry of the sculpture building, to the reference points of the steel structure, to the skin and the continuous variable fins gradually emerging out of the main body to emphasize the curvature. Structure, skin and featured fins were linked into one coherent parametric system. Associatively linked since in each instance on the curve the relative values of their mutual distances and angles would change with their positions along the curve. These relationships were not modeled in a existing CAD program but scripted from scratch using Autolisp routines. Drawings and 3d models are meaningless in a dynamic parametric world. The associations are defined with formulas and algorithms, describing their mutual relationships. Scripting is a very lean method of design, consuming very little data, exported to and retrieved from a database.
What is often considered as a parametric design is mostly nothing more than a fashionable form of tessellation of the surface, covering only a literally superficial part of the design / building. The real power of parametric design is to link all constituting components to each other, including floor, wall, roof such that when And staying within the limitations of such a mono-culture of similar yet not the same parts, one could indeed speak of a style, largely subject to fashion and voluntary follower of built-in commands of certain design software. Yet it would be unjust to the full potential of parametric design to declare the superficial qualities of being similar yet not the same a mainstream design movement, whether or not labelled as parametricism. To do that is a populist act, not respecting what are the underlying values. I remember having stated in my letter to Alvin Boyarsky describing my vision as unit master at the Architectural Association [AA] in London [1988-1989], that I reject all -isms. Then my rebellion was against modernism and its counterpart post-modernism, constructivism and its counterpart de-constructivism, both of which were deeply adhered to at that time at the AA. But I wanted no more -isms. So it may not be surprising that I became allergic to the term parametricism, which is nothing more than an attempt of Patrick Schumacher to become the founder and leader of a populist movement, feeding upon the supramatist sometimes bigoted calligrahic sweeps by the late Zaha Hadid [read my blog Calligraphic Sweeps]. His attempt to establish a mainstream movement would be more appropriately labeled patricism, more than anything else.
While modernism is an attitude which attempts to look modern, yet in its essence is not modern but retro-actively looking like something modern, and constructivism is an attempt to look like a logical structure but in fact isn’t, the container term parametricism is fit for designs that look parametric but not necessarily are parametric. I feel that it is important to make the distinction. For example the Reiser Umemoto Swiss Cheese tower in Business Bay in Dubai  may be considered parametric, while it is not parametric at all. Yes, it features 5 different sizes of openings in the concrete exoskeleton in a seemingly random fashion, but that is exactly why it is not parametric. In a parametric design all openings would have been unique in their shape, any sameness would be a pure co-incidence. at the other end however, ONL’s LIWA tower is by and large parametric, linking the curved geometry drivers to the Gross Floor Area [GFA] calculations, to the steel structure and to the skin in one coherent relational system. All windows of the LIWA tower are unique in shape and dimensions, all structural X-crosses are unique in shape and dimension, and both systems are parametrically linked to each other. Changing the position of one reference point on the curve changes all windows and steel components on at least two ruled surfaces of the body wrap, while maintaining the set value for the GFA.
Parametric design systems must and can be developed further, until the point that all constituting components have become an acting part of the system. Building components are seen as actors in a dynamic and open relational design system. The design that comes close to this point is ONL’s BYYU Body Chair, where all bits and pieces are associated part in one coherent complex adaptive system, where at the front end the customer can set individual preferences, while at the back end the design is directly linked to the data driven robotic waterjet-cut production of the pieces. Only when having a fully functional parametric design system one can establish such direct link from design to production, from customer to end-user, which explains the relevance of treating parametric design systems not as something it looks like, but as something what it is deep down in its genetic structure.
In 2006 ONL has won the design for the Al Nasser Headquarters tower in Abu Dhabi in the United Arab Emirates via an invited international competition. The client Mr Al Nasser owns a steel company and has chosen ONL´s iconic design, by far the most challenging of the competition entries, as he liked the exposed nonstandard steel structure inside and the metal duotone finishing of the exterior facade panels. Only in the final design stage the client as represented by Northcroft Middle East realized that all steel components and all windows are indeed different in shape and dimensions. They were fascinated by this fact but at the same time worried if this would be feasible within the strictly commercial budget they had defined for this project. Thanks to the precise control ONL successfully has monitored on the data as extracted from the Revit BIM model they were convinced that it was feasible indeed. The smart BIM model has served many purposes. In the first place ONL appointed no more then one single highly skilled architect, the young Gijs Joosen MSc, to be the executive architect and the BIM modeller in one. No information was lost in translation. The BIM model allowed for tweaking the curvatures of the shape of the office tower until the requested maximum GFA was reached, while maintaining the uniqueness of all constituting components and the unique configurations of each office floor. Any change in the curvature affects the square footage of each floor and hence the allowed GFA. Furthermore it facilitated to communicate with high precision with the local architects ACG who were responsible for acquiring the building permit and responsible for the calculations of the steel structure. The Al Nasser HQ is now under construction and will be finished in 2013.
PS: the building is now renamed into the LIWA tower