Sans Superellipse Asran 12 is a light, narrow, low contrast, upright, tall x-height font.
Keywords: ui labels, branding, posters, headlines, packaging, futuristic, minimal, technical, clean, playful, modernize, systemize, soften geometry, differentiate, monoline, rounded, geometric, condensed, modular.
A monoline geometric sans built from rounded-rectangle and superellipse-like curves, with soft corners and straight, vertical sides. The forms are condensed and vertically oriented, giving the alphabet a tall, streamlined profile. Strokes are even throughout, terminals are rounded, and curves tend to resolve into flat-ish tops and bottoms rather than fully circular bowls. Counters are narrow and controlled, creating a consistent, modular rhythm across uppercase, lowercase, and numerals.
Works best in display and short-text settings where its condensed, rounded-rect geometry can act as a recognizable graphic signature—such as UI labels, app or product branding, posters, and packaging. It can also serve for contemporary editorial headings and pull quotes, especially when a clean, technical aesthetic is desired.
The overall tone feels futuristic and tech-forward, with a sleek, engineered calm. Its rounded corners keep the voice friendly and approachable, while the condensed geometry adds a modern, space-age edge. The result reads as minimalist and contemporary, suited to clean, design-led messaging.
The design appears intended to merge a modern, constructed sans sensibility with softened superellipse curves, creating a distinctive yet orderly voice. Its simplified, monoline structure suggests an emphasis on consistency and a strong silhouette for contemporary digital and brand environments.
Distinctive superelliptical bowls and arched shoulders give letters a subtly squared softness, especially in rounded characters and in multi-stem shapes like m and w. Lowercase shows single-storey constructions (notably a) and a simplified, geometric approach to joins and curves, reinforcing the font’s constructed, system-like consistency. Numerals follow the same rounded-rect geometry, maintaining uniform stroke weight and compact internal space.