Creative direction by Hugh Dubberly. This poster illustrates muller brockmann grid systems pdf change in design practice.
Computation-based design—that is, the use of algorithms to compute options—is becoming more practical and more common. 4 grid into unit rectangles. For many years, designers have used grids to unify diverse sets of content in books, magazines, screens, and other environments. 4 grid is a common example. Yet even in this simple case, generating all the options has—until now—been almost impossible.
He instantiated the algorithms in a MATLAB program, which output PDFs, which Thomas Gaskin imported into Adobe Illustrator to design the poster. The rule system that generated the variations in the poster was suggested by Bill Drenttel and Jessica Helfand who noted its relationship to the tatami mat system used in Japanese buildings for 1300 years or more. In 2006, Drenttel and Helfand obtained U. 2 rectangles can be arranged in 5 ways.
They appear at the end of section 6. 4 grid in 3,164 ways. Many are almost the same—mirrored or rotated versions of the same configuration. The poster includes only unique variations—one version from each mirror or rotation group. Colors indicate the type and number of related non-unique variations. See the table to the lower right of the poster for examples. The poster groups variations according to the number of non-overlapping rectangles.
The large figures indicate the beginning of each group. The sequence begins in the upper left and proceeds from left to right and top to bottom. Each group is further divided into sub-groups sharing the same set of elements. The sub-groups are arranged according to the size of their largest element from largest to smallest. Within sub-groups, variations are arranged according to the position of the largest element, preceding from left to right and top to bottom. Variations themselves are oriented so that the largest rectangle is in the top left. Black dots separate groups by size.