Sans Superellipse Dymy 5 is a light, very wide, medium contrast, upright, normal x-height font.
Keywords: ui labels, tech branding, signage, packaging, posters, futuristic, techy, minimal, sleek, clinical, futurism, systematic design, ui clarity, modern branding, industrial labeling, rounded, geometric, monoline, modular, boxy.
A geometric sans built from rounded-rectangle (superellipse) skeletons, with smooth corners and predominantly straight segments. Strokes are clean and near-monoline, with crisp terminals and a slightly squared, modular rhythm across the set. Counters tend to be rectangular with rounded corners (notably in O/0 and similar forms), and curves are restrained, often expressed as radiused turns rather than full bowls. The wide stance and open spacing create an airy texture, while distinctive construction details—like the Q’s short descending tail and the V’s angular inner join—reinforce a designed, system-like consistency.
Best suited to display and short-to-medium text where its geometric personality can carry: UI/UX labels, dashboards, wayfinding and product labeling, tech and gaming identities, and contemporary posters. It also works well for headings and titling where a clean, futuristic voice is desired without heavy stylization.
The overall tone feels contemporary and technological, evoking interfaces, industrial labeling, and sci‑fi UI typography. Its rounded corners soften the geometry, keeping it approachable while still reading as precise and engineered.
The design appears intended to translate a rounded-rectangular geometry into a highly consistent, modern sans suitable for digital and industrial contexts. By prioritizing repeatable radii, straight runs, and simplified joins, it aims for a cohesive, engineered look that stays legible while projecting a forward-looking character.
The lowercase follows the same modular logic as the uppercase, with single-story forms and squared-off apertures that maintain a uniform, grid-friendly feel. Numerals are similarly constructed, emphasizing clarity through simple, rounded-rectilinear shapes.