Sans Faceted Gudi 11 is a very light, normal width, low contrast, italic, normal x-height font.
Keywords: tech branding, ui labels, headlines, posters, game titles, technical, futuristic, schematic, precise, industrial, geometric styling, futurist tone, technical voice, display impact, angular, octagonal, monoline, chamfered, geometric.
A monolinear, italic-leaning sans built from straight segments and small chamfered corners, replacing curves with faceted planes. Rounds like O, C, and G become octagonal forms, while joins are crisp and mechanical, producing a consistent polygonal rhythm across the alphabet. Proportions stay fairly even and open, with a moderate x-height and clear, simplified counters; diagonals in A, K, V, W, X, and Y emphasize the forward slant. Numerals follow the same faceted construction, with 0 as a beveled ring and 2/3/5 showing segmented, angular terminals.
Works well for tech-forward branding, futuristic headlines, and interface-style labeling where a geometric, engineered voice is desired. It can also suit posters, motion graphics, and game/film titling that benefits from a faceted, polygonal texture; in longer text it’s best used at comfortable sizes where the fine strokes and corner details remain crisp.
The overall tone reads engineered and sci‑fi, like lettering derived from drafting geometry or cut vinyl. Its faceted construction feels precise and synthetic, suggesting speed, instrumentation, and contemporary tech aesthetics rather than warmth or tradition.
The font appears designed to translate geometric construction into a readable italic sans, using facets and chamfers to evoke cut metal, plotted lines, or vector paths. The intent seems to be a distinctive, modern display texture that remains systematic and consistent across letters and numerals.
The design’s identity is carried by consistent corner chamfers and straightened bowls, which creates a distinctive texture in running text. The light stroke and angular terminals benefit from generous spacing and clean reproduction, especially where many short segments meet at corners.