Sans Superellipse Hakiz 7 is a bold, wide, low contrast, upright, normal x-height font visually similar to 'Black Square' and 'Kabyta' by Agny Hasya Studio, 'FX Ambasans' by Differentialtype, and 'Lustra Text' by Grype (names referenced only for comparison).
Keywords: headlines, posters, logos, signage, packaging, techy, industrial, futuristic, assertive, clean, display impact, tech aesthetic, geometric consistency, signage clarity, rounded, squared, blocky, compact, geometric.
A heavy, geometric sans built from squarish, rounded-rectangle forms. Corners are broadly radiused and curves tend to resolve into superellipse-like bowls, giving counters a soft-square feel rather than true circles. Strokes are uniform with blunt terminals, producing a sturdy, high-impact silhouette and consistent rhythm across caps, lowercase, and numerals. The overall construction is straight-edged and modular, with simplified joins and minimal stroke modulation for crisp, graphic lettershapes.
Best suited to display roles where strong geometry and presence are desirable: headlines, branding, product marks, labels, and wayfinding. It also fits interface or tech-themed graphics where rounded-rectangular forms echo digital components and industrial design cues.
The tone is modern and tech-forward, with an engineered, UI-like clarity. Its chunky geometry and softened corners feel confident and utilitarian, balancing a futuristic flavor with approachable roundness. The result reads as bold signage-friendly typography rather than delicate editorial type.
The design appears intended to translate a rounded-rectangular, superellipse-inspired shape language into a robust sans for contemporary display use. It prioritizes uniform stroke weight, simplified geometry, and soft-square counters to deliver a distinctive, modern voice with high visual impact.
Round forms such as C, G, O, and 0 emphasize squarish bowls, while characters like S and 2 use flattened curves that reinforce the font’s rectangular logic. The lowercase appears sturdy and compact, and the numerals share the same rounded-rectangle geometry for a cohesive alphanumeric set.