Sans Superellipse Umda 10 is a very bold, wide, monoline, upright, tall x-height font visually similar to 'Quareg' by Umka Type (names referenced only for comparison).
Keywords: headlines, posters, logos, packaging, gaming, futuristic, tech, industrial, arcade, robotic, tech aesthetic, display impact, modular consistency, high contrast silhouettes, rounded corners, squared forms, geometric, blocky, modular.
A heavy, geometric sans built from rounded-rectangle and superellipse-like shapes, with softly radiused corners and predominantly monoline strokes. Bowls and counters are squared-off and neatly inset, creating a crisp, engineered look and strong internal negative spaces (notably in B, D, O, P, R and 0). Diagonals are used sparingly but decisively, showing up in forms like K, V, W, X, Y and Z with clean, straight joins. The lowercase follows the same modular logic, with single-storey a and g, compact apertures, and a sturdy baseline presence.
Best suited for bold headlines, branding marks, and short display copy where a futuristic, technical voice is desired. It works particularly well in game UI, esports or tech event graphics, product packaging, and signage that benefits from high-impact, geometric letterforms.
The tone is confident and synthetic, evoking digital interfaces, sci‑fi titling, and retro arcade hardware. Its rounded corners keep the overall feel approachable, while the squared geometry and dense color give it a tough, machine-made character.
The likely intention is to deliver a contemporary techno display sans that reads quickly at large sizes while projecting a precise, engineered aesthetic. The rounded-rectangle construction and uniform stroke treatment suggest a focus on modular consistency and strong, compact word shapes.
The design emphasizes clear, high-contrast silhouettes and consistent corner radii, which helps maintain cohesion across letters and figures. Counters tend to be rectangular and relatively generous for the weight, aiding recognition in short bursts of text, though the tight apertures and blocky terminals lean it toward display use.