Sans Other Yony 3 is a bold, very narrow, medium contrast, upright, tall x-height font.
Keywords: display, headlines, posters, logotypes, game ui, futuristic, techno, arcade, industrial, mechanical, sci-fi interface, digital signage, modular system, retro tech, modular, angular, geometric, stencil-like, square apertures.
A tightly constructed, modular sans built from straight strokes and squared-off curves, with a strong vertical emphasis and compact letterforms. Corners are crisp and often chamfered, and many counters read as rectangular cutouts, giving several glyphs a stencil-like, segmented feel. Strokes alternate between thick blocks and thinner connector lines, creating a built-up, engineered rhythm across the alphabet. Spacing appears relatively tight and the forms stay rigidly geometric, with simplified diagonals and squared terminals reinforcing the font’s grid-based logic.
Best suited for display settings such as headlines, posters, product marks, game/UI titles, and tech-themed graphics where a geometric, system-like aesthetic is desired. It can work for short blocks of text in controlled contexts, but its segmented construction suggests using it primarily for prominent, large-scale typography.
The overall tone is futuristic and machine-coded, evoking control panels, arcade cabinets, and sci-fi interfaces. Its hard angles and slot-like counters feel utilitarian and technical rather than friendly, producing a cool, synthetic voice with a slightly retro-digital edge.
The design appears intended to translate a rigid grid and modular construction into an attention-grabbing techno sans, using rectangular counters and segmented strokes to signal a digital/industrial theme while maintaining a consistent, repeatable shape system across letters and numerals.
Distinctive internal cutouts and occasional split strokes make several letters highly stylized, prioritizing motif consistency over traditional proportions. The design reads most clearly when given enough size and breathing room, where its interior openings and segmented structure can resolve cleanly.