The clever way the program organized its geometric data pioneered the use of "master" ("objects") and "occurrences" ("instances") in computing and pointed forward to object oriented programming. The main idea was to have master drawings which one could instantiate into many duplicates. If the user changed the master drawing, all the instances would change as well.
Geometric constraints was another major invention in Sketchpad, letting the user easily constrain geometric properties in the drawing—for instance, the length of a line or the angle between two lines could be fixed.
As a trade magazine said, clearly Sutherland "broke new ground in 3D computer modeling and visual simulation, the basis for computer graphics and CAD/CAM".[4] Very few programs can be called precedents for his achievements. Patrick J. Hanratty is sometimes called the "father of CAD/CAM"[5] and wrote PRONTO, a numerical control language at General Electric in 1957, and wrote CAD software while working for General Motors beginning in 1961. Sutherland wrote in his thesis that Bolt, Beranek and Newman had a "similar program"[3] and T-Square was developed by Peter Samson and one or more fellow MIT students in 1962, both for the PDP-1.[6]
The Computer History Museum holds program listings for Sketchpad.[7]
Hardware
Sketchpad ran on the Lincoln TX-2 (1958) computer at MIT, which had 64k of 36-bit words. The user drew on the screen with the recently invented light pen, which relayed information on its position by computing at what time the light from the scanning Cathode-ray tube screen is detected.
To configure the initial position of the light pen, the word "INK" was displayed on the screen, which, upon tapping, initialised the program with a white cross to continue keeping track of the pen's movement relative to its previous position.[3] Of the 36 bits available to store each display spot in the display file, 20 gave the coordinates of that spot for the display system and the remaining 16 gave the address of the n-component element responsible for adding that spot to display.
The TX-2 was an experimental machine and the hardware changed frequently (on Wednesdays, according to Sutherland[8]). By 1975, the light pen and the Cathode-ray tube with which it had been used had been removed.[9]
——— (30 January 1963), Sketchpad: A Man-Machine Graphical Communication System(PDF), Lincoln Laboratory, Massachusetts Institute of Technology via Defense Technical Information Center, Technical Report No. 296, archived from the original on April 8, 2013, retrieved 2007-11-03{{citation}}: CS1 maint: unfit URL (link).