Sans Faceted Jifo 13 is a light, wide, monoline, upright, normal x-height font.
Keywords: headlines, posters, branding, packaging, ui labels, futuristic, technical, industrial, digital, geometric, tech aesthetic, display impact, systematic geometry, sci-fi flavor, octagonal, chamfered, angular, modular, clean.
A geometric sans with chamfered, faceted contours that replace most curves with short straight segments, producing an octagonal, engineered silhouette. Strokes are consistently thin and even, with crisp joins and a steady rhythm across the alphabet. Counters tend to be squared-off and open, and terminals are typically angled rather than rounded, giving letters like O/C/G/S a cut-corner profile. The lowercase keeps simple, single-storey constructions with compact bowls and a straightforward, schematic feel; figures follow the same faceted logic, with an octagonal 0 and similarly angular 2/3/5/8/9.
Best suited to display contexts—headlines, posters, titles, and brand marks—where the faceted geometry can be appreciated. It also works well for short UI labels, product naming, and tech-oriented packaging where a crisp, engineered voice is desirable, especially at medium-to-large sizes.
The overall tone reads precise and forward-looking, evoking interface graphics, hardware markings, and sci‑fi display typography. Its faceted geometry feels mechanical and systematic, while the light stroke adds an airy, high-tech cleanliness rather than heaviness or aggression.
The design appears intended to translate a sans-serif skeleton into a polygonal, machined aesthetic, prioritizing sharp planar facets and consistent stroke behavior to suggest technical precision. It aims for a distinctive sci‑fi/industrial flavor while keeping letterforms familiar enough for straightforward reading in short passages.
In text, the consistent chamfers create a distinctive texture that is most apparent at larger sizes, where the planar cuts and polygonal counters become a key identifying feature. Diagonals (V/W/X/Y) are clean and sharp, while round-derived forms maintain recognizable shapes through repeated angled segments.