Sans Superellipse Erly 8 is a regular weight, normal width, low contrast, italic, normal x-height font.
Keywords: ui labels, tech branding, sports graphics, posters, headlines, futuristic, technical, sleek, sporty, digital, convey speed, signal technology, modernize identity, enhance clarity, create distinctiveness, rounded corners, squared curves, oblique slant, geometric, monoline.
A slanted geometric sans with a monoline stroke and a distinctly squared-yet-rounded construction. Curves resolve into rounded-rectangle corners and superellipse-like bowls, producing compact counters and crisp terminals. The oblique angle is consistent across capitals, lowercase, and figures, with a slightly extended, forward-leaning rhythm. Letterforms favor straight segments and chamfered turns over fully circular arcs, giving the alphabet a taut, engineered feel while keeping edges softened for readability.
Best suited to technology-forward branding, product UI labels, dashboards, esports or motorsport-style graphics, and headline typography where a sleek italic voice helps imply motion. It can also work for short passages in applications or packaging when set with comfortable spacing and sufficient size.
The overall tone reads modern and performance-oriented, evoking interface typography, motorsport graphics, and sci‑fi design language. Its rounded-square geometry feels precise and technical rather than friendly, projecting speed, efficiency, and a controlled, contemporary cool.
The design appears intended to merge geometric clarity with a fast, streamlined italic stance, using rounded-square forms to create a distinctive, contemporary identity. Its construction emphasizes consistent angles and softened corners to balance a technical aesthetic with practical legibility.
Figures and capitals appear designed for clear silhouette recognition, with open shapes and firm horizontal/vertical logic despite the slant. The punctuation and spacing in the sample text suggest it’s most comfortable when given moderate tracking and used at display-to-subhead sizes where the squared curvature can be appreciated.