Sans Superellipse Dogiw 2 is a light, very narrow, monoline, upright, short x-height font.
Keywords: ui labels, signage, posters, headlines, packaging, futuristic, technical, minimal, clean, retro, space-saving, tech aesthetic, systematic design, modern clarity, display impact, rounded corners, condensed, modular, geometric, open apertures.
A condensed monoline sans built from rounded-rectangle geometry, with consistently softened corners and straight-sided curves that read as superelliptical. Strokes keep an even thickness throughout, producing a clean, schematic rhythm and clear countershapes. Many forms favor open apertures and simplified joins, and several capitals take on a tall, vertical stance with squared-off terminals. Numerals and punctuation follow the same modular logic, giving the set a coherent, engineered feel.
Well suited for display and labeling contexts where space is tight and a crisp, contemporary voice is desired—such as UI/UX headings, dashboards, wayfinding, product labels, and poster headlines. It can also work for short brand statements or section headers, especially when a sleek, tech-forward impression is helpful.
The overall tone feels futuristic and technical, like interface labeling or instrument markings, while the rounded corners keep it approachable rather than austere. Its narrow proportions and orderly spacing evoke retro sci‑fi and mid-century industrial graphics, lending a controlled, modernist calm.
The font appears designed to translate a rounded-rect, superellipse-inspired construction into a practical alphabet with consistent stroke behavior and a compact footprint. The intent seems to balance a futuristic, engineered aesthetic with smooth corners and clear, simplified shapes for easy recognition in display settings.
The design leans on distinctive rounded-rect counters (notably in characters like O, D, and 0) and a consistent corner radius that reinforces the font’s modular construction. The condensed build creates strong vertical emphasis, which can look striking in larger sizes and tight layouts.