Sans Superellipse Wipa 4 is a regular weight, very wide, monoline, upright, normal x-height font.
Keywords: headlines, logos, branding, ui display, posters, futuristic, tech, digital, modular, sleek, sci‑fi display, system geometry, modern branding, interface style, rounded corners, squared curves, geometric, extended, open counters.
A geometric sans built from rounded-rectangle geometry, with softly radiused corners and largely squared curves. Strokes are even and monoline, producing a crisp, engineered texture. Many joins and terminals resolve into flat horizontal or vertical cuts, while bowls and corners follow superelliptical arcs, giving letters like O/C/D and numerals a streamlined, squared-off roundness. Spacing and rhythm emphasize long horizontals and broad proportions, with simplified, slightly modular construction in several glyphs that keeps counters open and shapes highly consistent.
Best suited for headlines, branding, logos, packaging, and interface/display typography where a futuristic, geometric voice is desired. It can work in short-to-medium text settings at comfortable sizes, but its distinctive modular shapes and broad proportions will be most effective when given space and used for emphasis.
The overall tone is futuristic and technical, evoking digital interfaces, sci‑fi titling, and modern product aesthetics. Its rounded-rect form language feels clean and controlled rather than playful, projecting precision and a synthetic, system-like character.
The design appears intended to translate superelliptical, rounded-rectangle forms into a coherent alphabet optimized for modern, tech-oriented visuals. It prioritizes a consistent geometric system and a clean monoline skeleton to achieve a contemporary, sci‑fi display presence.
Several forms lean toward schematic simplification (e.g., squared bowls, compact apertures, and angular diagonals), which enhances a display-forward personality. The design maintains strong consistency across caps, lowercase, and figures, with distinctive numeral styling that matches the same rounded-rectangle logic.