ITC Garamond™ famille de polices

Conçue par Tony Stan en 1977
Claude Garamond en 1499-1561
Claude Garamond (ca. 1480-1561) cut types for the Parisian scholar-printer Robert Estienne in the first part of the sixteenth century, basing his romans on the types cut by Francesco Griffo for Venetian printer Aldus Manutius in 1495. Garamond refined his romans in later versions, adding his own concepts as he developed his skills as a punchcutter. After his death in 1561, the Garamond punches made their way to the printing office of Christoph Plantin in Antwerp, where they were used by Plantin for many decades, and still exist in the Plantin-Moretus museum. Other Garamond punches went to the Frankfurt foundry of Egenolff-Berner, who issued a specimen in 1592 that became an important source of information about the Garamond types for later scholars and designers. In 1621, sixty years after Garamond's death, the French printer Jean Jannon (1580-1635) issued a specimen of typefaces that had some characteristics similar to the Garamond designs, though his letters were more asymmetrical and irregular in slope and axis. Jannon's types disappeared from use for about two hundred years, but were re-discovered in the French national printing office in 1825, when they were wrongly attributed to Claude Garamond. Their true origin was not to be revealed until the 1927 research of Beatrice Warde. In the early 1900s, Jannon's types were used to print a history of printing in France, which brought new attention to French typography and the Garamond" types. This sparked the beginning of modern revivals; some based on the mistaken model from Jannon's types, and others on the original Garamond types. Italics for Garamond fonts have sometimes been based on those cut by Robert Granjon (1513-1589), who worked for Plantin and whose types are also on the Egenolff-Berner specimen. Linotype has several versions of the Garamond typefaces. Though they vary in design and model of origin, they are all considered to be distinctive representations of French Renaissance style; easily recognizable by their elegance and readability.

ITC Garamond? was designed in 1977 by Tony Stan. Loosely based on the forms of the original sixteenth-century Garamond, this version has a taller x-height and tighter letterspacing. These modern characteristics make it very suitable for advertising or packaging, and it also works well for manuals and handbooks. Legible and versatile, ITC Garamond? has eight regular weights from light to ultra, plus eight condensed weights. Ed Benguiat designed the four stylish handtooled weights in 1992." In 1993 Ed Benguiat has designed Handtooled versions.

ITC Garamond Bold Narrow

Les fontes d’ordinateurs de bureau sont conçues pour être installées sur un ordinateur et avec des applications. Une licence par ordinateur.
Les fontes Web sont utilisées avec la règle CSS @font-face. Elles bénéficient d’une licence couvrant un nombre déterminé de pages consultées et valable sans limite de temps.
Les polices d’applications sont adaptées à l’intégration dans les applications mobiles. La licence est valide pour respectivement une application et repose sur le nombre d’installations de l’application.
Les fontes pour publications électroniques peuvent être intégrées à un eBook, à un e-magazine ou à un e-journal. Ces fontes sont mises sous licence à chaque numéro.
Les fontes pour serveurs peuvent être installées sur un serveur ou p. ex. être utilisées par des processus automatisés afin de créer des éléments. Chaque serveur possède une licence valable un an.
ITC Garamond

world-map map

Std / OT CFF

supporte au moins

21 langues.

Détails techniques
Données numériques de:
Type de contours OpenType:
CFF - PostScript-Outlines
Noms techniques des fontes:
Nom du fichier: ITCGaramondStd-BdNarrow.otf
Nom du menu Windows: ITC Garamond Std Book Narrow
Nom PostScript: ITCGaramondStd-BdNarrow
Nom PostScript complet: ITC Garamond Std Bold Narrow
Numéro de catalogue:
US$ 35
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Tag: frac

Function: Replaces figures separated by a slash with 'common' (diagonal) fractions. The user enters 3/4 in a recipe and gets the threequarters fraction.

Standard Ligatures

Tag: liga

Function: Replaces a sequence of glyphs with a single glyph which is preferred for typographic purposes. This feature covers the ligatures which the designer/manufacturer judges should be used in normal conditions. The glyph for ffl replaces the sequence of glyphs f f l.


Tag: ordn

Function: Replaces default alphabetic glyphs with the corresponding ordinal forms for use after figures. One exception to the follows-a-figure rule is the numero character (U+2116), which is actually a ligature substitution, but is best accessed through this feature. The user applies this feature to turn 2.o into 2.o (abbreviation for secundo).


Tag: sups

Function: Replaces lining or oldstyle figures with superior figures (primarily for footnote indication), and replaces lowercase letters with superior letters (primarily for abbreviated French titles). The application can use this feature to automatically access the superior figures (more legible than scaled figures) for footnotes, or the user can apply it to Mssr to get the classic form.


Tag: kern

Function: Adjusts amount of space between glyphs, generally to provide optically consistent spacing between glyphs. Although a well-designed typeface has consistent inter-glyph spacing overall, some glyph combinations require adjustment for improved legibility. Besides standard adjustment in the horizontal direction, this feature can supply size-dependent kerning data via device tables, "cross-stream" kerning in the Y text direction, and adjustment of glyph placement independent of the advance adjustment. Note that this feature may apply to runs of more than two glyphs, and would not be used in monospaced fonts. Also note that this feature does not apply to text set vertically. The o is shifted closer to the T in the combination "To."

Optical Size

Tag: size

Function: This feature stores two kinds of information about the optical size of the font: design size (the point size for which the font is optimized) and size range (the range of point sizes which the font can serve well), as well as other information which helps applications use the size range. The design size is useful for determining proper tracking behavior. The size range is useful in families which have fonts covering several ranges. Additional values serve to identify the set of fonts which share related size ranges, and to identify their shared name. Note that sizes refer to nominal final output size, and are independent of viewing magnification or resolution. Required implementation: The Feature table of this GPOS feature contains no lookups; its Feature Parameters field records an offset from the beginning of the Feature table to an array of five 16-bit unsigned integer values. The size feature must be implemented in all fonts in any family which uses the feature. In this usage, a family is a set of fonts which share a Preferred Family name (name ID 16), or Font Family name (name ID 1) if the Preferred Family name is absent.
The first value represents the design size in 720/inch units (decipoints). The design size entry must be non-zero. When there is a design size but no recommended size range, the rest of the array will consist of zeros. The second value has no independent meaning, but serves as an identifier that associates fonts in a subfamily. All fonts which share a Preferred or Font Family name and which differ only by size range shall have the same subfamily value, and no fonts which differ in weight or style shall have the same subfamily value. If this value is zero, the remaining fields in the array will be ignored. The third value enables applications to use a single name for the subfamily identified by the second value. If the preceding value is non-zero, this value must be set in the range 256 - 32767 (inclusive). It records the value of a field in the name table, which must contain English-language strings encoded in Windows Unicode and Macintosh Roman, and may contain additional strings localized to other scripts and languages. Each of these strings is the name an application should use, in combination with the family name, to represent the subfamily in a menu. Applications will choose the appropriate version based on their selection criteria. The fourth and fifth values represent the small end of the recommended usage range (exclusive) and the large end of the recommended usage range (inclusive), stored in 720/inch units (decipoints). Ranges must not overlap, and should generally be contiguous. The size information in Bell Centennial is [60 0 0 0 0]. This tells an application that the fontâs design size is six points, so larger sizes may need proportionate reduction in default inter-glyph spacing. The size information in Minion Pro Semibold Condensed Subhead is [180 3 257 139 240]. These values tell an application that: The font's design size is 18 points; This font is part of a subfamily of fonts that differ only by the size range which each covers, and which share the arbitrary identifier number 3; ID 257 in the name table is the suggested menu name for this subfamily. In this case, the string at name ID 257 is Semibold Condensed; This font is the recommended choice from sizes greater than 13.9-point up through 24-points.

These fonts support the Basic Latin character set. Each font is Unicode™ encoded, and available in d

Tag: Basic Latin

Function: These fonts support the Basic Latin character set. Each font is Unicode™ encoded, and available in different formats. Please review the product information for each font to ensure it will meet your requirements.