Sans Superellipse Alnas 4 is a light, normal width, low contrast, upright, normal x-height font.
Keywords: ui labels, app design, wayfinding, tech branding, dashboards, tech, minimal, clinical, futuristic, efficient, geometric system, digital-first, modernist clarity, distinctive neutrality, rounded corners, squared curves, monoline, geometric, open apertures.
A monoline geometric sans built from squared-off curves and rounded-rectangle (superellipse-like) bowls. Corners are consistently softened, producing rounded terminals and gently radiused joins rather than sharp points. Proportions are fairly compact with tall capitals, a moderate x-height, and mostly closed, boxy counters in letters like O, D, and P. The lowercase shows single-storey forms (notably a and g) with open, simplified construction; stems are straight and vertical, and the overall rhythm is steady with even spacing and minimal modulation.
Well-suited to interface typography, product UI, and dashboard labeling where a crisp, systematic appearance is helpful. It can also support tech-forward branding, packaging, and wayfinding graphics that benefit from a geometric, rounded-square aesthetic and consistent lettershape logic.
The overall tone feels technical and modern, with a clean, utilitarian voice. Its rounded-square geometry reads as contemporary and slightly futuristic, giving it an engineered, interface-friendly personality rather than a humanist or editorial one.
The design appears intended to translate a rounded-rectangle geometry into a practical sans for contemporary digital contexts. By keeping stroke weight even and relying on softened corners and squared bowls, it aims for a distinctive, modern signature without sacrificing clarity in short text and labeling.
Several glyphs emphasize the squared-curve theme: circular characters resolve into rounded rectangles, and curves tend to flatten slightly at extremes, reinforcing a modular, grid-based feel. Diagonals (A, V, W, Y, X) are crisp and stable, while punctuation and numerals maintain the same rounded-corner logic for a cohesive system.