Sans Superellipse Argiy 3 is a very light, very wide, low contrast, upright, normal x-height font.
Keywords: ui labels, tech branding, posters, headlines, wayfinding, futuristic, technical, minimal, sleek, precise, modernization, geometric system, clean legibility, tech aesthetic, rounded corners, monoline, geometric, modular, open apertures.
A monoline, geometric sans with forms built from rounded-rectangle and superellipse structures. Strokes are consistently thin with clean, even terminals and softly radiused corners, creating a modular, engineered rhythm across the set. Curved letters tend to resolve into squared-off bowls (notably in O/Q and many lowercase counters), while diagonals are used sparingly and crisply in A, K, V, W, X, and Y. Spacing reads airy and controlled, and the overall construction favors simple, continuous outlines over calligraphic modulation.
Best suited to display and interface contexts where a clean, futuristic geometry is desirable—such as UI labels, product branding, dashboards, posters, and short headlines. The light stroke and open, rounded forms can work well at larger sizes where the distinctive superelliptical construction is most apparent.
The design communicates a contemporary, tech-forward tone—cool, streamlined, and slightly sci‑fi. Its rounded geometry keeps it friendly and approachable, while the restrained stroke and modular construction give it a precise, instrument-like feel.
The font appears designed to translate a rounded-rectangular, system-like geometry into an alphabet that feels modern and efficient. Its consistent monoline drawing and simplified structures suggest an intention toward clarity, modular consistency, and a contemporary technological aesthetic.
Distinctive glyph decisions include a triangular, outlined A with a crossbar, a squared, rounded O and Q with a short tail, and numerals that echo the same rounded-rectangular logic (notably 0 and 8). The lowercase maintains the same schematic approach, with simplified shoulders and bowls and a consistent reliance on rounded corners rather than full circular curves.