Sans Faceted Gupu 13 is a very light, normal width, low contrast, italic, normal x-height font.
Keywords: headlines, posters, logotypes, tech ui, packaging, futuristic, technical, aerodynamic, precision, sci‑fi tone, technical clarity, speed cue, geometric rigor, angular, faceted, monoline, chamfered, geometric.
A very thin, monoline sans with a consistent rightward slant and faceted construction that replaces curves with short straight segments and chamfered corners. Strokes maintain an even weight, with open counters and slightly squared/angled bowls that create a crisp, planar silhouette. Proportions are generally narrow-to-moderate with a clean rhythm; diagonals and join angles are emphasized, and terminals tend to end in sharp, clipped cuts rather than rounded finishes. Numerals follow the same polygonal logic, staying airy and legible through simplified, angular forms.
Best suited for short headlines, titling, and branding where a futuristic, technical flavor is desirable—such as technology campaigns, gaming/film graphics, instrumentation-style UI labels, and product packaging. It can also work for logotypes and wordmarks that benefit from an angular, faceted signature, while extended body text will generally need generous sizing and spacing to preserve clarity.
The overall tone reads sleek and engineered, evoking CAD-like drafting, sci‑fi interfaces, and high-tech product labeling. Its faceted geometry and italic motion add a sense of speed and forward direction, giving text a modern, streamlined energy rather than a humanist warmth.
The design appears intended to translate a geometric sans into a faceted, planar language, keeping forms minimal and lightweight while emphasizing angled joints and clipped corners. The italic stance and streamlined construction suggest a focus on motion, precision, and contemporary tech aesthetics.
The faceting is applied consistently across capitals, lowercase, and figures, creating a cohesive “cut-metal” look. The extreme lightness and sharp joins favor display sizes and clean rendering conditions, where the angular detailing remains distinct.