Sans Faceted Itdy 8 is a light, very wide, monoline, upright, normal x-height font.
Keywords: display titles, posters, logos, gaming ui, tech branding, futuristic, technical, geometric, sci‑fi, angular, sci‑fi aesthetic, geometric system, constructed forms, tech voice, faceted, polygonal, sharp, edgy, modular.
This typeface is built from straight strokes and crisp corners, replacing curves with planar facets and chamfer-like joins. The outlines maintain a consistent stroke weight, creating a clean, schematic rhythm, while many bowls and rounds resolve into hexagon-like or multi-sided forms. Letterforms feel constructed from segments, with pointed terminals and frequent diagonal cuts that produce a taut, engineered texture. Spacing appears open and the overall fit is generous, letting the angular geometry read clearly at display sizes.
It suits display typography where sharp geometry is an asset: futuristic headlines, game titles, film or event posters, and technology-forward brand marks. It can also work for UI theming, interface labels, and packaging or signage that benefits from a constructed, industrial look, especially at medium-to-large sizes.
The faceted construction and hard angles give the font a futuristic, technical tone—suggestive of digital interfaces, industrial labeling, and science-fiction worldbuilding. Its geometric reductions and polygonal rounds feel intentionally synthetic rather than handwritten or organic, projecting precision and cool detachment.
The design intention appears to be a clean, constructed sans that translates round shapes into faceted planes for a distinctly modern, synthetic voice. By keeping strokes consistent and emphasizing angular joins, it aims for a cohesive geometric system that reads as technical and forward-looking rather than neutral text-oriented.
Distinctive polygonal counters are especially evident in rounded glyphs (such as C, G, O, Q, and numerals like 0/6/8/9), which helps unify the system. The design leans on diagonals for character, and the simplified, segmented construction can reduce differentiation at smaller sizes, making it best suited where its geometry can breathe.