Sans Superellipse Ofnul 2 is a bold, narrow, low contrast, upright, normal x-height font visually similar to 'Core Sans D' and 'Core Sans DS' by S-Core, 'Artico' by cretype, and 'Pulse JP' and 'Pulse JP Arabic' by jpFonts (names referenced only for comparison).
Keywords: headlines, posters, signage, packaging, branding, industrial, playful, compact, friendly, retro, space saving, high impact, friendly utility, signage clarity, rounded, condensed, blocky, soft corners, monoline.
A compact sans with rounded-rectangle construction and softened corners throughout. Strokes stay largely monolinear, producing an even, solid texture, while counters are tight and often squarish, reinforcing a sturdy, engineered feel. Terminals are blunt and rounded rather than sharply cut, and curves resolve into superelliptical shapes instead of true circles. Overall spacing and proportions create a dense rhythm that reads cleanly at display sizes and remains orderly in longer lines.
Well suited for headlines, posters, packaging, and branding where a compact, high-impact sans is needed. The sturdy shapes and softened corners also make it a strong choice for signage and labels, especially when you want an industrial flavor without an aggressive tone.
The tone is utilitarian yet approachable: solid, no-nonsense letterforms with a warm, slightly playful softness from the rounded corners. Its compactness and blocky curves suggest mid-century signage and industrial labeling, while still feeling contemporary and friendly rather than harsh.
The design appears intended to deliver a space-efficient, strongly graphic sans built from rounded-rectangle geometry. It aims for consistent stroke weight and a cohesive, modernized retro texture that stays legible while projecting a confident, utilitarian personality.
Round letters (like O/Q) are more capsule-like than circular, and joins in forms like n/m/h are smoothly radiused, which keeps the texture consistent. Numerals follow the same rounded, condensed logic, with simple silhouettes suited to clear, high-impact settings.