Sans Superellipse Dumig 6 is a regular weight, wide, monoline, upright, tall x-height font.
Keywords: ui labels, headlines, posters, tech branding, signage, tech, futuristic, clean, modular, industrial, geometric clarity, modern ui, sci-fi tone, systemic consistency, rounded corners, squared curves, geometric, softened, stencil-like.
A geometric sans built from rounded-rectangle (superellipse) forms with a consistent monoline stroke. Corners are generously radiused, counters tend to be squarish, and many joins read as crisp, engineered turns rather than calligraphic curves. Proportions feel wide and open with a tall x-height, producing strong presence and steady rhythm in text. Several letters use deliberate cut-ins and simplified terminals that give the shapes a slightly modular, constructed look while maintaining smooth outer contours.
Works best for interface typography, dashboards, product labeling, and tech-oriented identities where clean geometry and quick recognition matter. It also suits headings and short blocks of text in posters or packaging, especially when a futuristic but friendly voice is desired.
The overall tone is contemporary and technical, with a sci‑fi/industrial flavor driven by squared curves and controlled geometry. Its softened corners keep it approachable, but the segmented details add a purposeful, machine-made character that feels suited to digital interfaces and modern branding.
The design appears intended to translate rounded-rectangle geometry into an efficient, modern sans with strong legibility and a distinctive, system-like personality. By keeping strokes uniform and shaping counters as soft squares, it aims for consistency across letters and numbers while signaling a contemporary, engineered aesthetic.
Distinctive structural choices—like the squared, open bowls and occasional notch-like apertures—create a recognizable silhouette at display sizes. Numerals follow the same rounded-rectangular logic, with the 0 and 8 especially emphasizing the superellipse theme, and the set maintains clear differentiation across similar forms.