Sans Faceted Orna 5 is a regular weight, normal width, low contrast, upright, normal x-height font.
Keywords: headlines, posters, gaming ui, tech branding, packaging, techno, industrial, futuristic, arcade, mechanical, digital voice, geometric system, hard-edged clarity, display impact, faceted, angular, octagonal, chamfered, geometric.
A sharply faceted sans with straight strokes and clipped, chamfered corners that replace curves with short planar segments. Letterforms are built from consistent stroke widths and orthogonal geometry, producing octagonal bowls and segmented rounds in characters like C, O, and Q. Proportions are fairly narrow and vertical, with a compact, modular rhythm and clear, open counters; joins and terminals end in crisp angles rather than soft curves. The lowercase mirrors the same construction, with single-storey a and g and a distinctive, angular y; figures follow the same cut-corner logic, giving 0–9 a sign-like, engineered uniformity.
Best suited for headlines, titles, and branding where an angular, engineered aesthetic is desired—such as tech products, sci‑fi or gaming interfaces, posters, and packaging. It can also work for short labels and numerically heavy applications (scores, specs, wayfinding-style callouts) where the faceted digit set reinforces a digital/industrial look.
The overall tone feels technical and machine-made, evoking digital readouts, industrial labeling, and retro arcade interfaces. Its hard edges and repeated chamfers create a futuristic, utilitarian impression with a slightly game-like energy.
The design appears intended to translate a geometric sans skeleton into a faceted, cut-corner system that reads like a digital or machined construction. By swapping curves for planar segments and keeping strokes uniform, it aims for a consistent, futuristic texture and strong silhouette recognition in display contexts.
The font’s identity comes from consistent corner cuts and segmented curves, which keeps textures even across mixed-case settings and numerals. The faceting also increases shape distinctiveness, helping characters read as discrete modules at display sizes while remaining visually strict and geometric.