Sans Superellipse Finoz 3 is a very bold, very wide, low contrast, italic, normal x-height font.
Keywords: headlines, sports branding, posters, gaming ui, tech packaging, futuristic, sporty, techy, assertive, speed, impact, modernity, branding, display, rounded, superelliptic, oblique, extended, streamlined.
A heavy, oblique sans with wide proportions and rounded-rectangle (superellipse) construction. Corners are generously radiused and terminals tend to be blunt, producing a smooth, aerodynamic silhouette. Counters are compact and often rectangular, with consistent stroke weight and minimal modulation. Many forms use horizontal cuts and notches (notably in E, S, 2, and 5), reinforcing a constructed, engineered feel; the lowercase is similarly geometric with single-storey a and g, a compact t, and an open, angled r.
Best suited to large sizes where its rounded-square details and cut-in terminals can be appreciated—headlines, logos, event graphics, product marks, and interface titling. It can work for short bursts of text in tech or sports contexts, but its dense counters and stylized apertures make it less ideal for long-form reading at small sizes.
The overall tone is fast, modern, and performance-oriented, evoking motorsport graphics, sci‑fi interfaces, and late‑20th/early‑21st century tech branding. Its slanted stance and squared curves project momentum and confidence, reading as bold and energetic rather than neutral or literary.
Likely designed to deliver a high-impact, speed-forward sans that feels engineered and contemporary, using superelliptic geometry and an oblique stance to suggest motion. The consistent stroke weight and modular cuts appear intended to create a cohesive display voice across letters and numerals for branding and titling.
The design leans on tight apertures and narrow internal space in letters like e, a, s, and 8, which increases density in text. Numerals are strongly stylized with flat segments and rounded corners, matching the caps’ industrial rhythm. The oblique angle is integral to the shapes rather than a simple shear, with many joins and terminals optimized to keep forms crisp and stable.