- Project plans
- Project activities
- Legislation and standards
- Industry context
- Specialist wikis
Last edited 22 Jun 2021
Computers in building design
Today, the process of designing buildings is dominated by computers. Software tools used in the design phase can automate repetitive calculation and drawing tasks, help find new design solutions and provide a high degree of precision. This optimisation makes the design process faster, clearer and more effective.
The starting point for the use of computers in the construction industry was structural calculations. Civil engineer Konrad Zuse is considered to be one of the major pioneers in computer technologies. In 1941 he developed the world's first functional programme-controlled Turing-complete computer, the Z3. Structural calculations were followed by drawing tools and geographic information systems.
The origins of Computer Aided Design (CAD) lie in the aircraft industry in the 1960s. In the 1980s, these systems also made their break-through in architecture. Specialised Computer Aided Architectural Design (CAAD) software programmes started to improve the drawing process in 2D. In the 1990s, tools emerged which provided the possibility of 3D drawing and subsequently, object-oriented design systems were developed.
Design data produced by specific software tools is used throughout the life-cycle of a building – from project development through to refurbishment – and, in addition to architects and engineers, it is used by building owners, statutory authorities and contractors.
Essential input for the design phase is provided by location-related data, which is processed by Geographical Information Systems (GIS) tools. Design ideas are investigated with computer aided architecture tools (CAAD) and informed by calculation and simulation tools. This interdependence means that both data production and data communication are enormously important.
 Geographical Information Systems (GIS)
GIS systems support the design process through the preparation of information about the site and geography. Collected data can be summarised and is available for the designers in real-time. Direct interfaces of the applied GIS systems ensure that corresponding design tools are given access to this database.
 Computer Aided Architectural Design (CAAD / CAD) and BIM
Design documents can be created by CAD tools in 2D, 2½D and 3D. 2D and 2½D designs can be used for standard building designs. 3D-software is needed for polyaxial curvatures, varying curves and dynamic structures. Drawing elements are vector-based such as points, lines, poly-lines, circles, etc. Textures simulate materials and depth. Complete building elements exist in specific libraries for the creation of models. These elements can be specified by various parameters.
Linking single elements of this database forms a connected model with interdependent parts, which means that changes to one part of the model can influence other parts if necessary. Elevation drawings, sectional views and 3D views can be generated as construction drawings. The design data from these software tools can be exported and imported using various exchange formats for further use.
- Level 0: Unmanaged CAD.
- Level 1: Managed CAD in 2D or 3D.
- Level 2: Managed 3D environment with data attached, but created in separate discipline models.
- Level 3: Single, online, project model with construction sequencing, cost and lifecycle management information.
 Calculation and simulation
Calculation and simulation tools allow the dynamic behaviour of complex systems and processes to be modelled. Such tools supply a fact-based understanding of a design’s form and physics and, in doing so, sectoral planning in various dimensions are integrated. The same volumetric data model is integrated into different calculation and simulation tools. Often calculation and simulation software can be used as a plug-in tool for the specific CAAD software system, or interfaces may be used.
Progress made in software and hardware allows more and more applications for such tools in calculating and simulating different aspects of a building. Most important is structural optimisation through the finite element method (FEM) and the estimation of cost by quantity calculations. Furthermore, simulation and calculation tools are available for the purposes for illumination, acoustics, fire prevention, energy efficiency, ventilation, heating, and so on.
The text in this article is based on an extract from COMPUTER METHODS IN CONSTRUCTION, by Christoph Motzko, Florian Binder, Matthias Bergmann, Bogdan Zieliski, Mariusz Zabielski and Robert Gajewski. Darmstadt, Warsaw 2011. The original manual was developed within the scope of the LdV program, project number: 2009-1-PL1-LEO05-05016 entitled “Common Learning Outcomes for European Managers in Construction”. It is reproduced here in a slightly modified form with the kind permission of the Chartered Institute of Building.
 Related articles on Designing Buildings Wiki.
- An algorithm in architecture.
- Building drawing software.
- Building information modelling.
- Computer aided design.
- Computers in tendering.
- Computers in the management of construction.
- Computational fluid dynamics.
- Computer numerical control.
- Connected procurement.
- Cyber security.
- Document control.
- Excel and construction.
- Generative design.
- Geographic information systems.
- Global positioning systems and global navigation satellite systems.
- Houzz Pro business software.
- Information and communications technology.
- Internet of things.
- Real time.
- Smart buildings.
- What is design?
Featured articles and news
On Levelling-Up and Regeneration Bill.
Over 70 managers and organisations shortlisted for the 14 awards.
From biometric to electrical current, chemical and more.
Changes are due to come into force on 1st October 2022.
Heed advice and insight of this report IPA tells the government.
From the Commonwealth Association of Architects.
For the Levelling Up, Housing & Communities Committee.
BSRIA's Technical Director reflects on recent weather patterns.
A national valuation to fund old-age pensions.
The world’s largest Commonwealth memorial to the missing.
Long after the end of the defects liability period.
Occupant satisfaction and wellbeing in buildings.
From the simple to the complex.
And the UK Government guidelines.
Commitment agreed to by major built environment bodies.
Electrical skills, low carbon, high-tech and the building services revolution.
Ultra-deep drilling with millimeter-wave beam technology.
Looking at the built environment from space.
BSI standards 8671, 8672 and 8673.
Bringing life to burial grounds.
From failed modernism to twenty-minute neighbourhoods.
The gates process and change control.