This blog provides information about the doctoral research of Frank E. Blokland at Leiden University, usually presented as ‘notes on’. The subtitle of this research, which lasted from October 2006 to October 2016 and resulted in this dissertation, is Renaissance Standardization, Systematization, and Unitization of Textura and Roman Type.
Prof.dr. Adriaan van der Weel and Prof. Frans de Ruiter were the supervisors of Blokland.
In the practice of the current font designer there seems to be quite a bit of emphasis on technical matters, especially on (the standardization of) fonts and related data storage formats. Perhaps this was also the case more than 500 years ago. Blokland’s ongoing research is being conducted to test the hypothesis that Gutenberg and his collaborators have developed a standardized and even uniform system for ‘designing’ and casting textura types, and that this system was in fact extrapolated for the production of roman type in Renaissance Italy. For this, the humanist handwriting was literally cast in intrinsic predetermined standardized proportions. This research proves that technical aspects of Renaissance font production had a direct inﬂuence on the proportions of roman and italic type, and with it the related conditioning that forms the basis of our perception.
Blokland’s research not only provides more insight into the origin of Latin (movable) type, but the results can also be used for the production of current digital type, and even for the parametrization of type-design processes. This blog provides practical information and software for applying customizable patterns based on the ones distilled from the archetypal models for roman and italic type.
The acknowledgement of the central place of the pen in the historical development of type and hence the importance of (knowledge of) writing for the designing of type has been always shared by many in the ﬁeld. There is not much discussion possible about the fact that written letters were initially standardized and eventually formalized by the Renaissance invention of movable type. Berthold Louis Ullman notes in Ancient writing and its inﬂuence (New York, 1932) that the early printers based their fonts on the writing that was current in books of their day. According to Ullman they imitated it as closely as possible so that their product might not suffer by comparison.
This mimicking may have been the case for books printed in Textura types like for instance the ones by Gutenberg, and Fust and Schöffer. After all, the written Textura Quadrata was a perfect model for justifying and casting, because it made the equal distribution of space between the letters when placed on rectangles quite simple. Also the number of character widths can be limited, which makes for instance casting with ﬁxed-width moulds possible. Standardizations and systematizations could have been relatively easy applied on different levels: on punches, matrices, and the casting of Textura type.
The transition from the handwritten Humanistic minuscule to roman type, and later from Humanistic cursive to italic type, must have been more complex than the transition from Textura writing to Textura type if writing was taken literally as basis. But it is actually hard to trace a literal interpretation of Renaissance handwriting in early roman type. Some standardizations in the roman type by for instance the Da Spira brothers and Jenson actually look like the ones in Textura type. Producing roman type with the same scheme in mind as was used for casting the morphologically related Textura type deﬁnitely would have helped to simplify matters.
The hypothesis for this research is that such an approach requires a standardization of the proportions of type, not only in horizontal direction for the characters and their widths, but also in vertical direction for x-height, ascenders and descenders, and capital height. The horizontal and vertical dimensions in type are inextricably related. Basically this could imply that Renaissance type was made on prediﬁned proportional system, which not only made the design part, i.e., the cutting of punches, easier, but also the justiﬁcation of the matrices, the casting of type, and the justiﬁcation of text.
If the existence of systematizations can be proven, this would also help to explain the transition of a profession practiced initially by only one person, i.e., the punch cutter, who manufactured the punches, matrices, and cast the type, into basically three parts: punch cutting, matrix manufacturer/justiﬁer, and caster. The distribution of type all over Europe must have been easier in case spacing-intelligence (an extrapolation of the standardization of character-proportions) was included in the matrices.
The regularity of the written Textura Quadrata made it relatively easy for Gutenberg and consorts to standardize and systematize their movable Gothic type, which was directly based on its written precursor. This standardization and systematization resulted in a calculable horizontal structure, and a translation of this into fixed vertical dimensions (in handwriting vertical boundaries are not very strict). When this was accomplished, it was obvious to apply the same system to the new roman type (and decades later to italic type).
In contrast to the generally embraced theory that ‘the mythical eye’ of the Renaissance punch cutters interpreted handwritten Humanistic models, are roman and (and to a lesser extent) italic type the result of this standardized process. What we find optically appealing in Latin type is actually partly the result of standardizations applied during the fifteenth-century font production. Our ‘eyes’ are conditioned with the outcomes, and due to this we consider the roman and italic types from the early days of typography amongst the very best still.
This culminates into the following research questions:
– How were the structures of textura type translated to roman and later italic type?
– How were the handwritten models standardized for roman and italic type?
– To what extent was the Renaissance font production systematized? Did the punchcutters for instance apply relatively sophisticated forms of unitization?
– Did such standardization and systematization preserve optical preferences for form, rhythm, and harmony (distilled from the handwritten origins), or did they create newones due to the forced grid fitting of the written letters, transforming a new basis for the conditioning of ‘the eye’?
– How does this theory relate to the generally embraced one, in which the eye of the punchcutter seems to have been the deciding factor, and calligraphic models the templates, and in which Jenson, Griffo, and Garamont, of whom the first was an engraver and the other two were goldsmiths, are subsequently more or less considered type designers?
– Why is it that seventeenth and eighteenth-century descriptions of the type founders’ practice by for instance Moxon and Fournier do not mention the aforementioned extrapolation of the textura model, and subsequent standardization of proportions and widths of characters?
– Could there be a direct relation to different ﬁtting methods for type, such as the appliance of ‘set patterns’, and the deviations of Renaissance proportions in later roman types, such as due to the ‘goût Hollandais’?
– If proportions and structures of Renaissance textura, roman, and italic type are the result of standardization, is it –after mapping this standardization– possible to analyze and reproduce related parts of the type design process artificially? If so, what does this tell us about the creative part of the type design process, in which –as mentioned– many believe that the eye rules?
The central argument of Blokland’s dissertation is that the harmonic and rhythmic rules for grapheme systems and subsequently for typography, and the related conditioning, which forms the basis for the ‘mythical eye’ of the type designer (or ‘the supreme judge’, as Pierre Simon Fournier named it in his Manuel Typographique [1764–1766]), always are relative to the applied models. The underlying patterns of these models are the result of evolution, changes in taste, and (the moments in history of) technical innovations. What is considered to be harmonic, rhythmic, and esthetical in type is merely the result of conditioning, i.e., cultural habituation, of their creators, i.e., type designers, their appliers, i.e., typographers, and their users, i.e., readers. If harmony and rhythm would be absolute matters, there wouldn’t be so many differences between scripts.
In case of the Latin script, graphemes were formalized and ﬁxed by the Italian Renaissance punch cutters Nicolas Jenson and Francesco Griffo. Their archetypes were, and still are –directly or indirectly– the prototypes for later variants, such as made by for instance by the 16th-century punch cutter Claude Garamont, the 17th-century punch cutter Christoffel van Dijck, and the 20th-century type designer Jan van Krimpen, just to name a few. The way type designers, typographers, and readers look at type is subsequently also ﬁxed by forenamed Italian Renaissance punch cutters.
Note: the Garamont model is still preferred ‘today as the most natural and invisible of typefaces’, as Prof.dr. Vervliet wrote in the Journal of the PrintingHistorical Society in1965. As such this is perhaps a bit curious, because one would expect that over time the model would become more crystallized and sophisticated, and therefore more preferred. This is clearly not the case with the models from Garamont and his Italian precursors, which we, as mentioned, are so much familiar with.
In the dissertation all facets of harmony in formal representations of the Latin script are described. This is basically unexplored territory. The underlying structures of type in use since the moment that the invention of movable type was introduced in Italy in the ﬁfteenth century have not been coherently mapped so far. Attempts have been made to capture letter forms into geometric models, like the reconstructions of the Roman imperial capitals by for instance Felice Feliciano, Luca de Paciolli, Albrecht Dürer, Giovan Francesco Cresci, and many other Renaissance artists, calligraphers, and scholars. There were also the geometric patterns by the Académie des Sciences for the construction of roman type during the passage from the seventeenth to the eighteenth century.
However, these Renaissance and Baroque pattern-descriptions were absolute, i.e. they were meant to describe and deﬁne certain letter forms via outlines created with ruler and compass. The mutually different patterns for basically the same capital letter forms from Feliciano and consorts, and later the ones by Jaugeon’s committee for roman type, did not serve as generic models for describing the underlying structures, but their purpose was to provide speciﬁc construction methods for speciﬁc letter forms. So, the structure of these letter forms were ﬁxed and the patterns were not meant for further modiﬁcation.
By contrast the present research comprises the development of software for parametrized type design, and for measuring and analyzing (digital) type and typography. As mentioned, this site provides some more insight into Blokland’s research, and it reveals a couple of the models and patterns he developed over the years.
Some of the models that also can be found on this site are purely theoretical, and others are the result of empirical research. For distilling information from historical type, like proportional and rhythmic systems, Blokland measured punches, matrices, prints, and even digital revivals. For measuring standardizations of width and possible unitizations of matrices and type, only the research of this metal material makes sense, of course. For measuring the proportions within the body, i.e. the relation between the x-height of the lowercase, the capital-height and the length of the ascenders and descenders, punches, matrices, prints and also meticulously made revivals can be used.
To prove the application of standardized widths in Renaissance type Blokland started measuring type by Claude Garamont and Hendrik van den Keere in the collection of the Museum Plantin-Moretus. Although this type is attributed to the 16th-, or at latest the 17th-century, it is not possible to be completely sure about the age. For dating the C14 technique can’t be applied, because there is simply not enough carbon in the alloys. Basically this problem was of limited importance for Blokland’s research, because the idea is that the standardization of the matrices determines the widths of the cast type, but to circumvent it completely type was cast from the original 16th-century matrices.
For those who consider Blokland’s research to be primarily focused more on the technical fundamentals of type design than on the artistic aspects, it is perhaps good to know that he is by origin a calligrapher, lettering artist, and type designer. The small –relatively arbitrary– selection from Blokland’s œuvre presented in his biography , proves his work never suffered from dogmatically applied patterns and grids, although sometimes the use of these was unavoidable.
It should be noted that although Blokland has formal permission from his Dean and his supervisor to publish material from his research here, the information provided is not in any way ofﬁcially approved or endorsed by Leiden University.
Some of the (in the meantime updated) information provided here has been published earlier on for instance the Typophile forum, and on the ATypI members list. Also some of the theories and images were presented by Blokland during talks at conferences on type and typography, such as the ATypI conferences in St. Petersburg (2008), Dublin (2010), and Reykjavik (2011), and at the Type[&]Design 2009 conference in The Hague.