Sans Other Urli 4 is a light, wide, monoline, upright, normal x-height font.
Keywords: ui labels, tech branding, signage, posters, headlines, tech, futuristic, geometric, minimal, interface styling, sci-fi display, systematic geometry, modern labeling, squared, angular, rectilinear, cornered, modular.
A squared, rectilinear sans built from monoline strokes with rounded outer corners and mostly flat terminals. Curves are largely replaced by chamfered angles and boxy bowls, giving letters like O, C, and D a squarish, modular silhouette. Counters are open and clean, horizontal and vertical strokes dominate, and diagonals appear sparingly with crisp joins (notably in K, M, N, V, W, X, and Y). The overall rhythm feels engineered and systematic, with consistent stroke behavior and generous interior space that keeps the design airy despite its rigid geometry.
Best suited to display and short-to-medium text where a clean, technical voice is desirable—such as UI/UX labels, dashboards, device or product branding, wayfinding, packaging, and poster headlines. The open counters and uniform stroke treatment help it stay legible at moderate sizes, while the strong geometric styling makes it especially effective for titles and identity work.
The font reads as digital and forward-leaning, evoking sci‑fi interfaces, technical labeling, and retro-futurist display aesthetics. Its squared forms and restrained detailing create a cool, precise tone that feels modern and utilitarian rather than expressive or handwritten.
The design appears intended to translate a modular, screen-native geometry into a readable sans, prioritizing crisp structure, consistency, and a futuristic presence. It aims to balance a strict squared construction with softened corners to keep the texture approachable and clear.
Distinctive letterforms include a squared, open G with an interior bar, a boxy Q with a short diagonal tail, and simplified lowercase shapes that echo the caps for a cohesive, system-like feel. Numerals follow the same squared construction, maintaining clear differentiation through angular cuts and open counters.