Sans Superellipse Akso 10 is a bold, normal width, monoline, upright, normal x-height font visually similar to 'Gemsbuck Pro' by Studio Fat Cat (names referenced only for comparison).
Keywords: ui, signage, headlines, branding, posters, technical, futuristic, industrial, digital, utilitarian, ui clarity, systematic, modernize, space efficiency, boxy, compact, crisp, geometric, modular.
A geometric sans built from rounded-rectangle and superellipse-like forms, with crisp, squared terminals and consistent stroke weight. Counters tend to be boxy and compact, corners are uniformly radiused, and curves resolve into flattened arcs rather than fully circular bowls. Proportions feel slightly condensed in places with steady spacing and a tidy rhythm, while the lowercase maintains a clean, simplified construction that reads clearly in display sizes.
Well suited to UI labels, app and dashboard typography, wayfinding systems, and industrial or tech branding where a contemporary, engineered voice is desired. It also works effectively for titles, posters, esports/tech event graphics, and packaging that benefits from a compact, modular look. For long-form reading, it will likely perform best in short passages or at larger sizes where its squarer bowls and tight apertures remain comfortable.
This typeface conveys a technical, engineered tone with a distinctly modern, utilitarian edge. Its rounded-square geometry adds a friendly, approachable softness, but the overall impression stays disciplined and systematic—more device UI than humanist editorial.
The design appears intended to deliver clear, robust letterforms for contemporary interfaces and graphic systems, using a modular rounded-square geometry to stay consistent across glyphs. Its simplified shapes and sturdy construction suggest an emphasis on legibility, uniformity, and a distinctly modern ‘device’ aesthetic.
The font’s identity is strongly driven by squared bowls and rounded corners across both cases, producing a cohesive, system-like texture. Numerals follow the same rounded-rect logic, making them visually consistent for interfaces and data-forward layouts.