Sans Normal Ofnuz 11 is a very bold, narrow, low contrast, upright, normal x-height font visually similar to 'Gothic No.13' by Bitstream, 'Avita' by Bykineks, 'Peridot Latin' by Foundry5, 'Neusa Neu' by Inhouse Type, 'Gothic 13' by Linotype, and 'Franie' by That That Creative (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, assertive, industrial, sporty, compact, posterish, impact, space saving, clarity, modernity, blocky, rounded, clean, dense, sturdy.
A heavy, compact sans with broad strokes and smooth, rounded joins. Curves are built from simple circular and elliptical forms, giving counters a soft, uniform feel even at extreme weight. Terminals are mostly straight and squared-off, and the overall rhythm is tight and dense, with minimal interior space in letters like B, P, and R. Lowercase forms are straightforward and sturdy, with a single-storey a and g and short ascenders/descenders that keep lines visually packed.
Best suited for short, high-impact settings such as headlines, posters, labels, and bold brand marks where its dense texture and compact width help maximize presence in limited space. It can also work for signage and large display copy where the rounded forms stay clear and consistent.
The tone is bold and utilitarian, reading as confident and no-nonsense. Its compact build and dense color create an energetic, sporty feel, while the rounded construction keeps it approachable rather than harsh.
The design appears aimed at delivering maximum visual impact with minimal stylistic distraction: a straightforward, geometric sans optimized for bold display use. The rounded construction and tight spacing suggest an intention to stay friendly and contemporary while remaining highly emphatic.
At text sizes the heavy strokes and tight counters can reduce internal clarity, especially in multi-line settings, while larger sizes emphasize its strong silhouette and simple geometry. Numerals share the same compact, weighty construction, presenting a consistent, sign-like presence.