Sans Superellipse Bomiz 7 is a very light, normal width, low contrast, upright, normal x-height font.
Keywords: ui labels, headlines, posters, tech branding, signage, minimal, futuristic, technical, clinical, sleek, modernity, precision, simplicity, tech aesthetic, geometric coherence, monoline, rounded, superelliptic, geometric, open counters.
A monoline sans built from rounded-rectangle and superellipse forms, pairing long straight stems with softly radiused corners. Curves are squared-off rather than circular, giving bowls and counters a tidy, engineered feel. Terminals are clean and mostly horizontal/vertical, with occasional open apertures and clipped joins that keep shapes airy. Proportions are narrow-to-moderate with generous internal space, and the overall rhythm is even and calm across caps, lowercase, and numerals.
Works best where a clean, modern voice is needed—interface labels, product UI, dashboards, and lightweight titling. The thin, open construction also suits contemporary posters, tech-oriented branding, and wayfinding or signage at larger sizes where the delicate strokes remain visible.
The tone is modern and restrained, with a cool, technical character that reads as futuristic without becoming decorative. Its thin stroke and rounded geometry create a precise, delicate impression suited to clean interfaces and contemporary branding. Overall it feels orderly, lightweight, and quietly high-tech.
The design appears intended to deliver a sleek, geometric sans with a signature rounded-rectangle DNA, balancing strict linear structure with softened corners for a friendly-but-technical look. It prioritizes consistency and a controlled, minimal aesthetic over expressive detailing.
Distinctive superelliptic rounding shows consistently in characters like C, G, O, Q, and the numerals, producing a cohesive “rounded-square” silhouette. Diagonals (A, K, V, W, X, Y, Z) are crisp and linear, contrasting with the softened corners elsewhere. The lowercase maintains a compact, minimalist construction with simplified forms and minimal modulation.