From Cave Paintings to the Internet A Chronological and Thematic Database on the History of Information and Media Architecture Timeline

Balthild, widow of Clovis II, and her son Clotaire III, found Corbie Abbey.

The first monks at Corbie came from Luxeuil Abbey, which had been founded by Saint Columbanus in 590, and the Irish respect for classical learning fostered at Luxeuil was carried forward at Corbie. The rule of these founders was based on the Benedictine rule, as modified by Columbanus.

"Above all, Corbie was renowned for its library, which was assembled from as far as Italy, and for its scriptorium. In addition to its patristic writings, it is recognized as an important center for the transmission of the works of Antiquity to the Middle Ages. An inventory (of perhaps the 11th century) lists the church history of Hegesippus, now lost, among other extraordinary treasures. In the scriptorium at Corbie the clear and legible hand known as Carolingian minuscule was developed, in about 780, as well as a distinctive style of illumination.

"Three of Corbie's ninth-century scholars were Ratramnus (died ca. 868), Radbertus Paschasius (died 865) and the shadowy figure of Hadoard. Jean Mabillon, the father of paleography, had been a monk at Corbie.

"Among students of Tertullian, the library is of interest as it contained a number of unique copies of Tertullian's works, the so-called corpus Corbiense and included some of his unorthodox Montanist treatises, as well as two works by Novatian issued pseudepigraphically under Tertullian's name. The origin of this group of non-orthodox texts has not satisfactorily been identified.

"Among students of medieval architecture and engineering, such as are preserved in the notebooks of Villard de Honnecourt, Corbie is of interest as the center of renewed interest in geometry and surveying techniques, both theoretical and practical, as they had been transmitted from Euclid through the Geometria of Boëthius and works by Cassiodorus (Zenner).

"In 1638, 400 manuscripts were transferred to the library of the monastery of St. Germain des Prés in Paris. In the French Revolution, the library was closed and the last of the monks dispersed: 300 manuscripts still at Corbie were moved to Amiens, 15 km to the west. Those at St-Germain des Prés were loosed on the market, and many rare manuscripts were obtained by a Russian diplomat, Petrus Dubrowsky, and sent to St. Petersburg. Other Corbie manuscripts are at the Bibliothèque Nationale. Over two hundred manuscripts from the great library at Corbie are known to survive" (Wikipedia article on Corbie Abbey, accessed 08-20-2009).

Marcus Vitruvius Pollio wrote De architectura, the only surviving classical treatise on architecture, between 31 and 27 BCE, while he was employed as military engineer for the Emperor Augustus. The work, which Vitruvius claimed to be the first comprehensive study on its subject, comprised ten books on the theory and practice of architecture, which in ancient times encompassed not only building construction but also many aspects of mechanical engineering including construction management, construction engineering, chemical engineering, civil engineering, materials engineering, mechanical engineering, military engineering and urban planning. The work contained much useful information on ancient materials and techniques, but it was the theoretical aspects of De architectura that were most influential. Drawing on his own preferences and a selective study of Greek architectural writings, most of which are no longer extant, Vitruvius defined architectural perfection in quantitative terms, and derived from these definitions finite rules governing planning and perfection. These rules had little effect on the architecture of his day, but were adopted as true doctrine during the Renaissance.

Of the eighty or so extant manuscripts of De architectura the great majority descend from a manuscript in the British Library known as Harley 2767 (H). This was written on the border between east and west Francia about 800. "Its splendid caligraphy, and its dominant influence on the later tradition suggest that it might well have been written at the palace scriptorium of Charlemagne. This is supported by the fact that the first two men to show any knowledge of Vitruvius after the Dark Ages are Alcuin, in a letter written to Charlemagne between 801 and 804, and Einhard, who in addition to his close association with the court, had a practical interest in building. The whole tradition shows signs of a derivation from an archetype in Anglo-Saxon script, and it has been suggested that Alcuin had imported a text from England.

"Among the descendants of H are a number of early manuscripts, all dating from the twelfth century, which show that by then this form of the text had spread over a wide area ranging from north-west Germany, through the Low Countries and France to England. . . .

"Germany obviously dominated the vital phase of Virtruvius' transmission, and we know that there were copies, too. in the ninth century at Reichenau, and its daughter house Murbach. It is difficult not to see such figures as Einhard lurking in the background, men equally at home in the workshop as in the library and scriptorium. An interest in technology has fused at an early age the α tradition of Vitruvius with that of a series of technical recipes known as the Mappae clavicula. This remarkable collection tells one how to gild metals and distill alcohol, how to make varous compounds, from pigments and varnish to incendiary bombs. It has a particular bearing on the making of stained glass and the illumination of manuscripts. These recipes appear in various degrees, and combinations in H (and some of its descendants). . . ." (Reynolds, Texts and Transmission [1983] 441-42).

The Plan of Saint Gall (St. Gall), "the only surviving major architectural drawing from the roughly 700-year period between the fall of the Roman Empire and the 13th century," dates from this time. The plan probably depicts an ideal Benedictine monastic compound "including churches, houses, stables, kitchens, workshops, brewery, infirmary, and even a special house for bloodletting. . . . much has been learned about medieval life from the Plan. The absence of heating in the dining hall, for instance, was not an oversight but was meant to discourage excessive enjoyment of meals. In the quarters for the 120-150 monks, their guests, and visitors, the ratio of toilet seats was better than what modern hygenic codes would prescribe." The Plan also includes a library.

The portfolio of Villard de Honnecourt, preserved in the Bibliothèque nationale de France (MS Fr. 19093), consists of 33 sheets of parchment containing about 250 drawings.

Villard's portfolio ". . . appears to be a model-book, with a wide range of religious and secular figures suitable for sculpture, and architectural plans, elevations and details, ecclesiastical objects and mechanical devices, with copious annotations. Other subjects such as animals and human figures also appear.

"Among the devices Villard sketched is a perpetual-motion machine, a mill-driven saw, a number of automata, one of which depicts a simple escapement mechanism, the first known in the west, lifting devices, war engines as well as a number of anatomical, architectural and geometric sketches for portraiture and architecture.

"Villard apparently traveled through many of the cathedral building-sites in 13th century France and recorded in his sketchbook in great detail work in construction. Of particular interest are drawings of the Laon cathedral bell towers and the Reims cathedral nave being built, which provide a valuable clue for building techniques of High Gothic architecture" (Wikipedia article on Villard de Honnecourt, accessed 08-20-2009).

"Who Villard was, and what he did, must be postulated from his drawings and the textual addenda to them on 26 of the 66 surfaces of the 33 leaves remaining in his portfolio. In these sometimes enigmatic inscriptions Villard gave his name twice (Wilars dehonecort [fol. 1v]; Vilars dehoncort [fol. 15r]), but said nothing of his occupation and claimed not a single artistic creation or monument of any type. He addressed his portfolio, which he termed a 'book,' to no one in particular, saying (fol. 1v) that it contained 'sound advice on the techniques of masonry and on the devices of carpentry . . . and the techniques of representation, its features as the discipline of geometry commands and instructs it.' . . . .

"During a period of perhaps five to fifteen years, Villard made sketches of things he found interesting. At some unknown time in his life, he decided to make his drawings available to an unspecified audience. He arranged them in the sequence he wished, and then inscribed certain of them, or had them inscribed. These inscriptions are all by one professional scribal hand, and fit around the drawings with some care. The language is the basically the Picard dialect of Old French, with some Central French forms rather than Picard forms used consistently, for example, ces and ceus rather than ches and cheus. Occasionally, the different dialects exist side by side: on fol. 32r both the Picard chapieles and Central French capieles, 'chapels,' are found. The inscriptions vary in nature, some being explanations (e.g., fol. 6r: "Of such appearance was the sepulchre of a Saracen I saw one time"), others being instructions (e.g., fol. 30r: 'If you wish to make the strong device one calls a trebuchet, pay attention here').

"The Villard portfolio was rediscovered and first published in the mid-19th century during the height of the Gothic Revival movement in France and England. For this reason, Villard's architectural drawings, which comprise only about 16% of the total, attracted the greatest attention. This led writers to conclude that he was an architect, an assumption based on a fundamental error: the practical, stereotomical formulas on fols.20r and 20v were taken as proof that Villard was a trained mason, and it was not discovered until 1901 that these drawings and their inscriptions are by a later hand.

"Since the 1970s there has been growing suspicion that Villard was not an architect or mason. It has been proposed that he may have been 'a lodge clerk with a flair for drawing' or that his training may have been in metalworking rather than in masonry. The question is not yet resolved, but it may no longer be automatically assumed that he was a mason. It may be that Villard was not a professional craftsman of any type, but simply an inquisitive layman who had an opportunity to travel widely and took the seemingly unusual step of recording some of the things he saw during his travels" (Carl F. Barnes, Jr., "Villard de Honecourt," MacMillian Dictionary of Art, 32 (1996),  569-571).

Printer Eucharius Silber issues the editio princeps of Vitruvius, De architectura in Rome between 1486 and August 16, 1490. It was edited by  the Italian Renaissance humanist and rhetorician Fra Giovanni Sulpizio da Veroli (Johannes Sulpitius Verulanus). 

"In 1486 Sulpizio prepared the first printed edition of Vitruvius' De Architectura for the press; the work had long circulated in manuscripts, some of them corrupt. The volume, which also includes the text of Frontinus' De aquaeductu describing the aqueducts of Rome, was dedicated to Cardinal Riario, an enthusiastic supporter of the ideals of the Pomponian sodalitas; the dedicatory epistle urges Riario to complete the recovery of classical Roman buildings with a theatre. In his preface Sulpizio urges readers to send him emendations of the notoriously crabbed and difficult text. With Vitruvius' text in hand, Sulpizio directed the erection of a reproduction open-air Roman theater in front of Palazzo Riario in Campo dei Fiori, Rome; there, in 1486 or 1488 his students mounted the first production of a Roman tragedy that had been seen since Antiquity, in the presence of Pope Innocent VIII. The play they chose was Seneca's Phaedra, which they knew as Hippolytus" (Wikipedia article on Giovanni Sulpizio da Veroli, accessed 01-04-2010).

Regarding Vitruvius's text and its manuscript transmission, see the entry in this database for Vitruvius circa 800 CE. For the earliest illustrated editions see the Vitruvius entries for 1511 and 1521.

Carter & Muir, Printing and the Mind of Man (1967) no. 26.  ISTC no.  iv00306000

Veronese architect, antiquary, archaeologist, and classical scholar, Fra Giovanni Giocondo publishes the first illustrated edition of Marcus Vitruvius Pollio's De architectura in Venice at the press of Giovanni Tacuino. The edition contains 136 woodcut text illustrations, woodcut initials and a woodcut title-border. The title-border, a continuous design in four parts incorporating dolphins, leaves and flowers, may be the original of one of the most influential and widely copied pieces of printed ornamentation in the 16th century. Geofroy Tory copied the border (without the shading) to use on his 1525 Horace, and variations of the floreated dolphin design appear in books from all the major European centers of printing.

 This fourth printed edition, the first to be illustrated with more than diagrams, was prepared by Fra Giovanni Giocondo, the Veronese architect who took over the construction of St. Peter's in Rome after Donato Bramante's death. The illustrations probably date from around the time of printing, as those that might have accompanied Vitruvius's original text on papyrus scrolls or early parchment codices had been lost for centuries.

Mortimer, Harvard College Library, Department of Printing and Graphic Arts, Italian 16th Century Books (1974) no. 543. Hook & Norman, The Haskell F. Norman Library of Science and Medicine (1991) no. 2157.

♦ Regarding Vitruvius's text and its manuscript transmission, see the entry in this timeline for Vitruvius circa 800 CE.

Architect and architectural theorist Cesare Cesariano, humanist Benedetto Giovio and and Bono Mauro da Bergamo edit and publish the first edition in Italian of Marcus Vitruvius Pollio's De Architectura Libri Dece, translated by Cesare Cesariano, in Como, Italy at the press of Gottardo da Ponte.

This was the first translation of Vitruvius into a modern language.  The edition may have been 1300 copies. The translation and commentary were largely the work of Cesare Cesariano, a pupil of Donato Bramante and Leonardo da Vinci; however, the address to the reader on leaf Z8r, by Gallo and Aloisio Pirovano, states that Cesariano left the work unfinished, and that it was completed by Giovio and Mauro. 

"Vitruvius' technical language is fraught with difficulties. Leone Battista Alberti was of the mind that the Latins thought Vitruvius was writing Greek and the Greeks, Latin. The impenetrable Latin and the lack of illustrations gave freedom to the Renaissance designers, who were able to interpret antique architecture in their own image, all' antica. Cesariano's Vitruvius gives us a clear picture of the Renaissance perception of the architecture of Classical Antiquity. Indeed the spirit of Milan's Late Gothic Duomo can be recognized in some of Cesariano's woodcuts. Among his illustrations is an attempt at rendering Vitruvius' precepts on the ideally proportioned man, successfully rendered by Leonardo, but attempted by many 15th century theorists" (Wikipedia article on Cesare Cesariano, accessed 01-21-2009).

This edition is known for its striking illustrations: "Some subjects follow the 1511 edition, but the execution is highly original and the illustration is much more detailed than that provided by Tacuino. . . . Blocks have black backgrounds and strong black lines. Aloisio Pirovano's `Oratio' to the people of Milan on leaf [-]8r refers to the collaboration of `molti excelle[n]ti pictori.' On leaves B6r, B7r, B7v are full-page plans and elevations of Milan cathedral. Cesariano's introduction of a gothic building into a classical text, apparently the first such illustration of gothic architecture, is typical of his individual approach to Vitruvius. . . . The influence of Leonardo on these illustrations has been generally noted" (Mortimer, Harvard College Library Department of Printing and Graphic Arts, 16th Century Italian Books, no. 544).

Hook & Norman, The Haskell F. Norman Library of Science and Medicine (1991) no. 2158.

The Biblioteca Medicea Laurenziana (The Laurentian Library of the Medici) in Florence, Italy, designed by Michelangelo, is opened to the public.

Italian Architect Domenico Fontana publishes Della transportatione dell'obelisco Vaticano. . . . in Rome at the press of Domenico Basa. The folio volume contains 2 engraved titles, both signed by Natal Bonifacio, 35 full-page and 3 double-page engravings. It describes one of the greatest engineering feats of the Renaissance -- the removal of the Vatican obelisk from its old location behind the sacristy of St. Peter's, where it had been since the reign of Caligula, to its present location in the center of the Piazza of St. Peter. The problem of transporting this 327 ton and fragile stone tower had occupied Italian engineers for many years, so that when Pope Sixtus V appointed a council to consider ways and means of moving the obelisk, nearly 500 men came to submit their plans.

The honor went to Domenico Fontana, the pope's official architect, who proved to the council the feasibility of his proposal by making a scale model in lead. Fontana erected a framed tower of timbers surrounding the obelisk and then by means of ropes attached to the tower raised the obelisk from its pedestal, and afterward lowered it so that it should rest on a wooden platform. This platform he had had drawn on rollers to the new site, where the tower was re-erected and the great stone raised from its horizontal position on the platform to the vertical and set on the new base.  The project required 900 men, 75 horses and untold numbers of pulleys and lengths of rope.

The plates also illustrate many of the buildings and designs that Fontana executed for Pope Sixtus V; they constitute the only record of his work that Fontana left. 

Hook & Norman, The Haskell F. Norman Library of Science and Medicine (1991) no. 812.

The British astronomer and photographer, Sir John Herschel, invents the cyanotype, a photographic process that results in a cyan-blue print.

"The photosensitive compound, a solution of ferric ammonium citrate and potassium ferricyanide, is coated onto paper. Areas of the compound exposed to strong light are converted to insoluble blue ferric ferrocyanide, or Prussian blue. The soluble chemicals are washed off with water leaving a light-stable print."

The process was used through the 20th century by architects and engineers for the production of blueprints.

American real estate developer J. C. Nichols builds the Country Club Plaza in Kansas City, Missouri.

Designed architectually after Seville, Spain, it was the first suburban shopping center in the world designed to accommodate shoppers arriving by automobile, and the Country Club District, which Nichols developed around the shopping center, is the largest contiguous master-planned community in the United States.

Nichols "called his method 'planning for permanence,' for his objective was to 'develop whole residential neighborhoods that would attract an element of people who desired a better way of life, a nicer place to live and would be willing to work in order to keep it better.' Nichols invented the percentage lease, where rents are based tenants' gross receipts. The percentage lease is now a standard practice in commercial leasing across the United States" (Wikipedia article on J C Nichols, accessed 04-05-2009).

Architect and computer scientist Nicholas Negroponte of MIT publishes The Architecture Machine.

Negroponte's pioneering and forward-looking book described early research on computer-aided design, and in so doing covered early work on human-computer interaction, artificial intelligence, and computer graphics. It contained a large number of illustrations.

"Most of the machines that I will be discussing do not exist at this time. The chapters are primarily extrapolations into the future derived from experiences with various computer-aided design systems. . . .

"There are three possible ways in which machines can assist the design process: (1) current procedures can be automated, thus speeding up and reducing the cost of existing practices; (2) existing methods can be altered to fit within the specifications and constitution of a machine, where only those issues are considered that are supposedly machine-compatible; (3) the design process, considered as evolutionary, can be presented to a machine, also considered as evolutionary, and a mutal training, resilience, and growth can be developed" (From Negroponte's "Preface to a Preface," p. [6]).

This book has been called the first book on the personal computer. On that I do not agree. The book contains only vague discussions of the possiblity of eventual personal computers. Most specifically it says, as caption to its second illustration, a cartoon relating to a home computer, "The computer at home is not a fanciful concept. As the cost of computation lowers, the computer utility will become a consumer item, and every child should have one." Instead The Architecture Machine may be the first book on human-computer interaction, and on the possibilities of computer-aided design.