Sans Superellipse Ukdid 3 is a bold, normal width, monoline, upright, short x-height font.
Keywords: display headlines, branding, logos, posters, ui titles, futuristic, techy, industrial, digital, assertive, tech aesthetic, modular system, sci-fi display, branding impact, rounded corners, rectilinear, geometric, modular, stencil-like.
A geometric display sans built from rectilinear strokes with softened, superellipse-style corners. The forms emphasize squared bowls and rounded-rectangle counters, producing a modular rhythm with frequent open apertures and strategic cut-ins that can read as stencil-like notches. Curves are minimized in favor of straight segments, while diagonals appear selectively (notably in K, M, N, V, W, X, Y) to keep the texture crisp and angular. Overall spacing feels even and deliberate, with distinctive, highly designed letterforms that prioritize silhouette and structure over conventional grotesk proportions.
Best suited to display settings where its modular shapes and distinctive insets can be appreciated: headlines, tech branding, logotypes, posters, game titles, and interface/menu titling. It can also work for short labels or packaging where a controlled, industrial voice is desired, but it is most effective at larger sizes.
The font communicates a futuristic, engineered tone—clean, controlled, and slightly game/UI coded. Its squared geometry and inset details give it a digital hardware feel, suggesting interfaces, machinery labels, and sci‑fi titling rather than casual editorial use.
The design appears intended to translate superellipse and rounded-rectangle geometry into a cohesive alphabet with a contemporary, tech-forward voice. The consistent corner rounding and deliberate cut-in details suggest a goal of creating a recognizable, system-built identity that stays legible while remaining strongly stylized.
Several glyphs rely on internal breaks and corner insets that add character and help differentiate similar shapes, while also increasing the sense of systematized construction. The numerals follow the same rounded-rectangle logic, with compact counters and firm terminals that keep them visually consistent with the caps.