Sans Superellipse Onmur 8 is a bold, normal width, low contrast, upright, short x-height font.
Keywords: headlines, branding, posters, ui labels, signage, tech, retro-future, industrial, game ui, utilitarian, distinctive geometry, technical tone, sturdy display, ui friendliness, rounded, squared, geometric, boxy, modular.
A geometric sans built from squared, superelliptical curves and flat terminals, with a strongly rectilinear skeleton softened by consistent corner rounding. Strokes are heavy and uniform, producing a solid, low-contrast texture; counters tend toward rounded-rect shapes (notably in O, 0, 8, 9) and openings are cut cleanly with horizontal and vertical logic. Proportions are compact with tight interior space, and the lowercase shows a low profile with single-storey forms and simplified joins. Overall spacing and rhythm feel engineered and grid-friendly, giving text a dense, blocklike color without sharp points or calligraphic modulation.
Best suited to display sizes where its squared rounding and compact counters remain crisp—headlines, logos, packaging, and tech-oriented branding. It also performs well for short UI labels, dashboards, and signage-style text where a sturdy, engineered texture helps maintain clarity and presence.
The design reads as technological and functional, with a retro digital flavor reminiscent of instrumentation, sci‑fi titling, and UI labeling. Its rounded-square geometry balances friendliness with a mechanical tone, evoking precision and robustness rather than warmth or elegance.
The likely intent is to deliver a modern geometric sans with a distinctive rounded-square construction—prioritizing a technical, modular feel and strong silhouette for contemporary display typography and interface-adjacent uses.
Angular diagonals (A, V, W, X, Y) are restrained and slightly softened at joins, maintaining the font’s rounded-rectangle vocabulary. Numerals are especially sign-like and compact, matching the alphabet’s boxy counters and reinforcing a display-forward personality in headings and interface contexts.