Summum Engineering is a structural design, engineering and optimization consultancy, founded in 2017 as a sole entrepreneurship, and based in Rotterdam, the Netherlands. It operates in the domains of architecture, engineering and construction as well as industrial design and art. Services are provided to project developers and owners as well as architects, designers, engineers and contractors. Specialties include the parametric modelling and structural engineering of lightweight structures, natural building materials, complex geometries and sustainable buildings.
Our core beliefs
Contemporary corporate ethics can be summarized as trying to not be evil. Indeed, Summum will not commit to projects that have a demonstrably or overtly negative impact on people or the environment, and is pleased to rely on commendable services provided by others: sustainable banking, ethical smartphones, recycled business cards, and so on.
But, unlike traditional engineering practice, Summum will not limit itself to so-called corporate social responsibility. In many firms, socially responsible business practices and guidelines are applied while at the same time, for example, executing projects in the fossil fuels industries, operating in cultures where construction workers are heavily exploited, or working for governments that patently violate human rights. Summum will refuse and has in fact refused such projects and clients. Our overarching objective is to do good and be credible, by forming a moral and ethical corporation, affecting real change, and having a net positive impact on the world. Along these same lines of thought, the company intends to grow as a cooperative, for-profit social enterprise. Summum is pro-active in seeking a clientele and building a holistic portfolio in support of its vision of a moral enterprise that contributes to a sustainable built environment.
Throughout history, mechanical limitations of construction materials and their prohibitive cost, have led master builders to rely on structural design to develop elegant and efficient structures. As structural engineers, we too attempt to span space with as little material as possible, and this endeavor naturally leads to lightweight structural systems such as shells, tensile roofs and inflatables as well as design methods such as form finding, graphic statics, topology optimization and genetic algorithms. We enjoy immersing ourselves in such topics whenever we are able.
Recent developments in computational design and digital fabrication hold a strong fascination. There is a clear movement towards generating data within well-informed parametric models, managing that data in collaborative building information models, and giving that data physical form through direct input to computer-controlled machinery such as robotic arms and 3D printers. Perhaps new forms of cooperation will follow suit, allowing us to break the value chain and shift towards seamless processes of design, construction and operation.
While technology may offer solutions to today’s problems, looking towards natural, circular and/or biobased construction materials, some used prehistorically, some only recently developed, may yield answers as well. While computational engineering and digital fabrication on one hand, and biodegradable, sustainable materials on the other, sometimes seem opposite ends of a spectrum, we are in fact interested in opportunities to combine both worlds.
Whatever the future holds, Summum is pleased to stand witness and keen to play a modest part in these ongoing developments. Our interests extend to historical and scientific research that help us to understand how we got here, and where we might be going.