Sans Superellipse Dukam 10 is a regular weight, normal width, low contrast, upright, normal x-height font.
Keywords: ui labels, app design, tech branding, signage, posters, tech, futuristic, modular, clean, industrial, systemic design, modernization, technical tone, geometric clarity, interface utility, rounded corners, squared curves, monoline, geometric, angular.
A geometric sans built from squared-off curves and rounded-rectangle (superellipse-like) counters. Strokes are monoline with crisp terminals and consistently softened corners, creating a rectilinear rhythm without feeling sharp. Many round letters resolve into boxy bowls and squarish apertures, while diagonals (as in A, K, V, W, X, Y) stay straight and clean, balancing the overall geometry. The figures and capitals feel sturdy and slightly technical, with clear interior spaces and compact, efficient shapes.
This design suits interface text, dashboards, and product surfaces where a clean, engineered voice is desired. It can also work well for technology or gaming branding, packaging callouts, and signage—especially when you want a contemporary geometric look that remains legible at a range of sizes.
The overall tone is modern and technical, evoking digital interfaces, industrial labeling, and sci‑fi styling. Rounded corners keep the geometry approachable, while the squared curves and modular construction give it a purposeful, engineered feel. It reads as confident and contemporary rather than expressive or calligraphic.
The font appears intended to translate rounded-rectangle geometry into a practical, readable sans with a distinctly technical flavor. Its consistent corner rounding and monoline construction suggest a focus on system coherence across letters and numerals, aiming for a modern, device-friendly aesthetic.
Distinctive rectangular counters and squared bowls give the alphabet a consistent, system-like personality, especially in O/0, D, P, and Q forms. The lowercase maintains the same squared curvature, producing a cohesive texture in paragraphs, and the numerals follow the same rounded-rectangle logic for a unified alphanumeric set.