Sans Superellipse Jibis 7 is a very bold, normal width, low contrast, upright, normal x-height font visually similar to 'QB One' by BoxTube Labs (names referenced only for comparison).
Keywords: headlines, posters, logos, sports branding, esports graphics, industrial, athletic, arcade, tough, mechanical, impact, ruggedness, modularity, display clarity, branding, geometric, octagonal, beveled, blocky, compact.
A heavy, geometric sans with a rounded-rectangle skeleton and frequent chamfered corners that give many strokes an octagonal feel. Strokes are consistently thick and low-contrast, with squared terminals and minimal curvature except at outer corners, which are softened or clipped. Counters tend to be squarish and tight, and joins are sturdy and compact, producing a dense texture in words. The lowercase mirrors the same constructed logic as the uppercase, with single-storey forms and simplified bowls; numerals follow the same clipped, modular geometry for a cohesive set.
Best suited to headlines, posters, and branding where a compact, powerful word shape is desirable. It works well for sports and esports identities, event graphics, packaging callouts, and bold UI labels where a mechanical, constructed look supports the message.
The overall tone is bold and utilitarian, with a sporty, game-like energy that reads as engineered rather than calligraphic. The chamfered, armor-like silhouettes evoke signage, equipment markings, and retro-digital styling, projecting strength and impact.
The design appears intended to deliver maximum visual impact through a modular, chamfered geometry—combining rounded-rectangle foundations with clipped corners to create a tough, industrial display voice while keeping letterforms straightforward and highly repeatable across the set.
Because the forms are dense with small counters and many near-right angles, the font’s strongest presence is at display sizes where the chamfers and inner shapes stay open. The rhythm is punchy and uniform, with distinctive corners doing much of the personality work rather than stroke modulation.