Sans Superellipse Asnut 7 is a very light, normal width, monoline, upright, normal x-height, monospaced font.
Keywords: ui labels, code snippets, tables, dashboards, captions, clean, technical, minimal, calm, precise, clarity, neutrality, systematic, modernity, approachability, geometric, rounded, open, airy, rational.
This typeface uses a spare, geometric construction with consistently thin strokes and rounded corners throughout. Curves tend toward superelliptic, rounded-rectangle forms, giving bowls and counters a smooth, squared-off roundness rather than purely circular shapes. Letterforms are built with generous internal space and open apertures, producing an airy texture and a tidy, evenly paced rhythm. Straight strokes are clean and vertical, terminals are plain, and joints are simplified, with minimal contrast and a restrained overall profile.
It suits interface labeling, settings screens, dashboards, and other contexts where consistent alignment and a steady typographic rhythm are helpful. The light stroke and open counters can work well for short to medium passages such as captions, metadata, and structured text, and it also fits code-like or tabular presentations where regular spacing aids scanning.
The overall tone feels modern and understated, with a quiet, technical neutrality. Its rounded geometry softens the strictness of a grid-like structure, creating a friendly but still precise voice that reads as contemporary and utilitarian rather than expressive or decorative.
The design appears intended to provide a streamlined, contemporary sans with a systematic, grid-friendly feel, while using rounded-rectangle geometry to keep the tone approachable. Its restrained detailing prioritizes clarity, consistency, and a calm typographic presence in functional settings.
Round forms like O and 0 are smoothly rounded with a subtly squarish feel, and curved letters maintain consistent radii that reinforce a systematic, constructed look. The sample text shows steady spacing and a uniform cadence that supports structured layouts and data-like reading patterns.