Chuck Bigelow, from 1967 Griffin.
For Lloyd Reynolds, calligraphy was not a mere decorative craft but literacy itself, the basis of civilization. His enthusiasms ranged from the scribes of ancient Sumer, who invented writing thousands of years before the Greeks borrowed the alphabet from the Phoenicians, to the artistry of Chinese calligraphers such as the third-century (CE) brush wizard Wang Xizhi, still admired today in China and Japan, to the medieval scholar-scribe Alcuin of York, who led the Carolingian Renaissance and helped devise and promulgate the ancestor of the basic Roman alphabetic script we use today.
Inspired by Reynolds, I later studied typography with Jack Stauffacher at the San Francisco Art Institute. Stauffacher, like Reynolds, was an enthusiast, but for the printed book, not the handwritten manuscript. From Jack, I learned of the great Venetian scholar-printer Aldus Manutius and his typefaces, and of their designer, Francesco Griffo of Bologna. Jack then asked me to be his teaching assistant, which led me deeper into a career in typography.
I admired Lloyd and Jack for their vision and enthusiasm, but I didn’t believe traditional explanations of calligraphic and typographic aesthetics, which seemed more like primitive belief systems than scientific understanding. So next I studied visual perception with Gerald Murch at Portland State University, from whom I learned theories of feature detectors and spatial frequency channels in the visual system. Though fascinating, those scientific theories did not offer practical guidance in matters of legibility and typographic aesthetics, or so I first thought.
Later, living and working in Cambridge, Massachusetts, I took a course on the physics of information at Harvard’s extension school. One evening, listening to a lecture on sampling theory, I realized how it corresponded to the theory of spatial frequency detection in the visual system, and how both theories explained some difficult technical and aesthetic problems of digitization of typographic letter forms. As a corollary, the same concepts explained some puzzles in the evolution of typographic forms.
I should emphasize that much of my insight was neither original nor subject to rigorous proof, but no one before had put the disparate pieces together in quite the same way to address technology, art, and cultural evolution. Donald Day ’68 (an old friend from ¹û½´ÊÓƵ, who had also studied calligraphy with Reynolds) and I summarized these ideas in an article on digital typography for Scientific American. Published in 1983, it included calligraphic illustrations and diagrams by Kris Holmes ’72, who had studied calligraphy at ¹û½´ÊÓƵ with Robert Palladino and Reynolds. All in all, a ¹û½´ÊÓƵ production. As at ¹û½´ÊÓƵ, we combined the pleasure of finding things out with the fun of sharing them.
Niels Bohr reputedly said, “Prediction is difficult, especially about the future.” Despite that caution, our article ended with a prediction. Commercial development of digital typography was at the time focused on imitating traditional analog types in digital form, but we argued that the imitation was merely a phase of technological transitions. We saw it as a pattern: early printed books imitated manuscript books, early automobiles imitated carriages, and so on. We predicted that when digital typography matured, designers would create forms directly for the digital medium and digital type design would enter a creative and innovative phase. This view was not widely held in the typography industry, but it turns out that we erred mainly in underestimating the magnitude of what was to come. In 1983, there were fewer than a hundred digital fonts for computer printers, and none was original. Today, there are more than 150,000 fonts available, a large portion of which are original designs made in the digital era.
Yet, Kris Holmes and I weren’t satisfied merely to analyze such phenomena. We wanted to create forms to appeal to the senses as well as to the intellect (shades of Democritus). In 1982, we began the design of a new, original family of digital typefaces for laser printers and computer screens. There were no guidebooks or manuals, little information, and few tools. Every aspect of the design had to be determined by guesswork and experiment. It was a good thing we had learned at ¹û½´ÊÓƵ to think outside the box. Of course some of our ideas turned out to be right, others to be irrelevant, and some to be wrong, but we kept innovating.
Several pundits in the field scoffed at our efforts. They knew the present and believed the future would be like it, only more so. But, one who encouraged us was world-famous type designer Hermann Zapf, with whom Kris and I had studied at the Rochester Institute of Technology. Zapf had been a pioneer designer of digital types for high-quality typesetting systems, and his encouragement helped us believe we were on the right track.
We named our new design “Lucida” from Latin lux (light) because it would be made out of light (laser, CRT, LCD, etc.) and was intended to be clear and rational. Although designed for computers, Lucida was not computeristic or nerdish in style. Mindful of Reynolds’ passionate insistence on the importance of handwritten forms, we looked back to Italian Renaissance handwriting and early Roman typefaces for our inspiration. We didn’t try to copy traditional forms directly; they wouldn’t have worked. Instead, we tried to distill their essential legibility and adapt them to the procrustean raster restrictions of digital displays and printers. We had to simplify, simplify, simplify, reducing forms to their bare essentials so they would still be readable and congenial in look, despite having been sliced and diced in a digital grid and rendered amid halos of extraneous noise.
The Lucida Roman lowercase is indirectly based on early-fifteenth-century handwriting developed by an Italian humanist and Florentine chancellor, Poggio Bracciolini. The capitals are based on first-century Roman inscriptional capitals that Kris had learned to brush write from Palladino at ¹û½´ÊÓƵ. Palladino in turn had learned them from Edward Catich, who had extensively researched the Trajan inscription in Rome and had given workshops at ¹û½´ÊÓƵ. Lucida Italic is based on the chancery cursive taught by Ludovico degli Arrighi in his little manual, the Operina of 1522. This is the form of italic handwriting that Reynolds and Palladino taught at ¹û½´ÊÓƵ. In the finished Lucida designs, those specific antecedents are nearly undetectable. The processes of simplification and technical adaptation to low-resolution imaging removed most historical details, but the essential form remained. Reynolds, using a term from traditional Chinese art theory, would have called that form the ch’i—the spirit-breath. Our approach, to seek the essentials of historical models and to adapt them to modern technology, runs throughout the Lucida extended family of typefaces. As with other things we learned at ¹û½´ÊÓƵ, the influence is not specific, but a manner, an attitude, a taste, a delight, a conviction.
We showed the first printed specimen of Lucida in 1984 at a London meeting of the Association Typographique Internationale. By the middle of the next year, we had expanded it into seriffed and sans-serif families, including Roman, italic, and bold variations. Major manufacturers of digital printing software and hardware did not, however, immediately adopt it. Although innovative in technology, the big manufacturers were imitative in typography. Lucida fonts were first released by a small laser printer manufacturer, the Imagen Corporation, and were initially available on only a few hundred computer systems. Despite initial indifference and eventual fierce competition from large firms, we persevered, and in time the industry caught up with our designs. Today, Lucida fonts are available on several hundred million computers, in a greatly expanded family of styles and weights.
Part of the pleasure of finding things out is anticipating what is to come. Prediction is difficult, but you can try to see what clouds, whether dark or light, loom on the horizon. We began our Lucida designs before personal printing and on-screen reading became ubiquitous, but now that most technical and aesthetic problems of digital typography have been solved, what’s next? Well, what are fonts for? Last summer at Rochester Institute of Technology, I helped organize a conference on the future of reading. We invited authors, scholars, vision scientists, graphic designers, publishers, computer scientists, and students to ask, answer, and argue over troubling questions. Will a new age of widespread, seductive multimedia and a deluge of short-form texts—text messaging and tweeting—cause a decline in literacy, especially in the deep, extended, immersive book reading from which earlier generations have derived crucial information and ideas? Will a few monster firms digitize all the world’s books and hold them commercially captive? Will digital reading—web browsing, searching, blogging, and tweeting—make us undiscriminating? Already, some pundits warn us that the brains of young people are being altered by the frenzied instant gratification of digital distractions-on-demand. O tempora, o mores! Well, I’m from the sixties, insofar as I can remember them, and we found out a little something about brain alteration back then, too. These latest fears remind me of the paranoiac science fiction movies of the fifties in which the minds of humans get taken over by space aliens. Today, however, the aliens aren’t from outer space, but are soulless corporations that purport to serve us online with cyber-augmentation of our mental and social lives.
And so what if digital media are making us illiterate? Is illiteracy really so bad? In the grand parade of human progress, illiterates invented toolmaking, agriculture, domestication of animals, weaving, pottery, wine making, poetry, and storytelling—all the arts and crafts of prehistory and much of what we think of as civilized arts today. Before the Odyssey was written down, Homer (or poets like him) entertained audiences by oral recital. Moreover, illiterates invented writing, or so it stands to reason. Who else could have done it? (Actually, the archaeological record suggests that the invention of writing was a long, slow process taking many generations.)
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