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Sonata (building design software)

Summary

Sonata was a 3D building design software application developed in the early 1980s and now regarded as the forerunner of today's building information modelling applications.[1][2]

Sonata was commercially released in 1986,[3] having been developed by Jonathan Ingram independently and was sold to T2 Solutions (renamed from GMW Computers in 1987[4] - which was eventually bought by Alias|Wavefront),[5] and was sold as a successor to GMW's RUCAPS. It ran on workstation computer hardware (by contrast, other 2D CAD systems could run on personal computers). The system was not expensive, according to Michael Phiri.[6] Reiach Hall purchased "three Sonata workstations on Silicon Graphics machines, at a total cost of approximately £2000 each" [1990 prices]. Approximately 1000 seats were sold between 1985 and 1992. However, as a BIM application, in addition to geometric modelling, it could model complete buildings, including complex parametrics, costs and staging of the construction process.[7]

ArchiCAD founder Gábor Bojár has acknowledged that Sonata "was more advanced in 1986 than ArchiCAD at that time", adding that it "surpassed already the matured definition of 'BIM' specified only about one and a half decade later".[8]

A large number of projects were designed and built using Sonata including Peddle Thorp Architect's Rod Laver Arena in 1987, and Gatwick Airport North Terminal Domestic Facility by Taylor Woodrow.[9] The US-based architect HKS used the software in 1992 to design a horse racing facility (Lone Star Park in Grand Prairie, Texas) and subsequently purchased the successor product, Reflex.[10]

The Sonata business was founded in 1984 and, by one account it "disappeared in a mysterious, corporate black hole, somewhere in eastern Canada in 1992,"[11] after new owner Alias Research discontinued marketing of the product.[12] Ingram then went on to develop Reflex, bought out by Parametric Technology Corporation (PTC) in 1996.[11]

References edit

  1. ^ Eastman, Chuck; Tiecholz, Paul; Sacks, Rafael; Liston, Kathleen (2008). BIM Handbook: a Guide to Building Information Modeling for owners, managers, designers, engineers, and contractors (1st ed.). Hoboken, New Jersey: John Wiley. pp. xi–xii. ISBN 9780470185285.
  2. ^ Eastman, Chuck; Tiecholz, Paul; Sacks, Rafael; Liston, Kathleen (2011). BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors (2nd ed.). Hoboken, New Jersey: John Wiley. pp. 36–37.
  3. ^ See, Richard (2007). "Building Information Models and Model Views" (PDF). Journal of Building Information Modelling. No. Fall. BuildingSmart Alliance. Retrieved 17 October 2015.
  4. ^ Port, Stanley (1989). The Management of CAD for Construction. New York: Springer. ISBN 9781468466058.
  5. ^ Day, Martyn (September 2002). "Intelligent Architectural Modeling". AEC Magazine. Archived from the original on 19 April 2015. Retrieved 15 June 2015.
  6. ^ Phiri, Michael (1999). Information Technology in construction design. London: Thomas Telford Publishing. p. 181. ISBN 0-7277-2673-0.
  7. ^ Morgan, L; Zampi, G (1999). Virtual Architecture. London: Batsford. p. 74.
  8. ^ In Appendix 6: Letter to the author, p. 281, Ingram, Jonathan (2020). Understanding BIM: The Past, Present and Future. Abingdon: Routledge. ISBN 9780367244187..
  9. ^ Fisher, Norman; Barlow, Richard (1997). Project Modelling in Construction: Seeing is believing. London: Thomas Telford Services Ltd. p. 74.
  10. ^ McFarlane, Brian (31 March 2008). "How a major design firm adapted to a paradigm shift". Healthcare Design. Retrieved 17 October 2015.
  11. ^ a b Crotty, Ray (2012). The Impact of Building Information Modelling: Transforming Construction. London: SPON/Routledge. p. 71. ISBN 9781136860560.
  12. ^ Weisberg, David (2008), The Engineering Design Revolution: The People, Companies and Computer Systems That Changed Forever the Practice of Engineering. Chapter 16. Available online. Retrieved: 17 October 2015