Sans Superellipse Dabi 4 is a very light, normal width, monoline, upright, normal x-height font.
Keywords: ui labels, tech branding, posters, headlines, wayfinding, futuristic, minimal, technical, clean, playful, systematic design, modernization, ui clarity, distinctive display, rounded corners, geometric, open counters, soft rectilinear, wireframe.
A crisp, geometric sans built from rounded-rectangle and superellipse forms, drawn with a single, consistent stroke. Corners are generously radiused and terminals are clean and open, giving many glyphs a softly squared silhouette rather than a purely circular one. Curves are controlled and symmetrical, with simplified joins and counters that stay open and airy; bowls and arches often read like bent tubing. Proportions lean slightly extended in places, and the overall rhythm is even and deliberate, with clear separation between characters in text.
Well-suited to contemporary UI labels, dashboards, and product surfaces where a clean, geometric tone is desired. It also works effectively for tech branding, event posters, and short headlines that benefit from a distinctive rounded-rect silhouette. For longer text, it will be most comfortable at larger sizes where the fine, single-stroke construction stays prominent.
The design feels modern and engineered, with a sleek, interface-like clarity. Its softened rectangular geometry adds a friendly, retro-futurist note—suggesting sci‑fi control panels, digital instruments, and minimalist product aesthetics rather than traditional print warmth.
The font appears designed to translate a superelliptical, rounded-rectangle construction into a cohesive alphabet with minimal stroke modulation and simplified anatomy. The likely goal is a distinctive, systematized look that stays legible while signaling a modern, technical personality.
Several forms emphasize distinctive geometry over conventional typographic detailing, producing a recognizable voice at display sizes. The numerals and capitals maintain the same rounded-rect logic, reinforcing a consistent system across the set.