Sans Faceted Vopi 6 is a very bold, very wide, medium contrast, upright, normal x-height font.
Keywords: headlines, posters, logos, game ui, packaging, industrial, techno, gaming, futuristic, aggressive, impact, machined look, sci-fi tone, display clarity, branding, faceted, angular, chiseled, octagonal, compact counters.
A heavy, angular display sans built from flat planes and clipped corners, replacing curves with crisp facets and short diagonals. Strokes are consistently thick with tight internal counters, giving letters a dense, armored silhouette. Bowls and rounds resolve into octagonal forms (notably in O/Q and numerals), while terminals often end in straight cuts or stepped notches that create a mechanical rhythm. Proportions read broad and blocky overall, with simplified joins and minimal modulation to keep the texture solid at headline sizes.
Best suited to short, high-impact settings such as headlines, posters, esports or gaming identities, title screens, and UI labels where a rugged, technical voice is desirable. It can also work for bold packaging or product marks that benefit from a machined, faceted look, while extended body text may feel dense due to tight counters.
The faceted construction and hardened silhouettes convey a utilitarian, machine-made tone with a sci‑fi edge. Its sharp cuts and compact counters feel assertive and combative, evoking arcade UI, tactical hardware labeling, and action-oriented branding rather than friendly or literary settings.
The design appears intended to translate a geometric, industrial aesthetic into a sturdy display alphabet, prioritizing strong silhouettes and a consistent faceted motif. By using clipped corners and planar edges throughout, it aims to deliver a futuristic, hard-edged voice that remains legible in large-scale, high-contrast applications.
Uppercase forms appear especially monolithic, while lowercase maintains the same geometric language and weight, producing a cohesive all-caps-like color in mixed-case text. The design favors strong external shape recognition over open apertures, so it reads best when given adequate size and spacing.