Sans Superellipse Esniv 2 is a regular weight, normal width, low contrast, italic, normal x-height font visually similar to 'Cybersport' by Anton Kokoshka, 'Bio Sans' by Dharma Type, 'Panton' by Fontfabric, and 'Navine' and 'Revx Neue' by OneSevenPointFive (names referenced only for comparison).
Keywords: sports branding, tech branding, gaming ui, headlines, posters, techy, speedy, futuristic, sporty, clean, dynamic tone, modern geometry, interface clarity, brand distinctiveness, oblique, rounded corners, squared rounds, chiseled, angular.
A slanted sans with a streamlined, geometric construction. Curves are frequently resolved as rounded-rectangle (superelliptic) forms, producing squarish bowls and counters with softened corners rather than fully circular rounds. Strokes stay even and sturdy, with crisp terminals and a slightly compressed, forward-leaning rhythm. The uppercase feels built from simple, engineered shapes, while the lowercase follows the same logic with compact, controlled apertures and consistent curvature.
Works best for branding, headlines, posters, and UI moments where a dynamic, engineered feel is desired—such as sports identities, gaming graphics, and technology-oriented interfaces. It can also support short-to-medium editorial bursts where the slant and squared-round forms add personality without becoming ornamental.
The overall tone is modern and performance-oriented, suggesting motion and precision. Its oblique stance and squared-round geometry evoke contemporary tech interfaces and sporty branding, reading as confident, efficient, and slightly futuristic.
Likely designed to deliver a contemporary oblique voice with a distinctive superelliptic geometry—balancing legibility with a tuned, high-speed aesthetic suited to modern product and performance contexts.
Numerals and rounded letters emphasize rectangular counters and chamfer-like corner softening, which keeps the texture uniform and distinctly geometric. The italic angle is consistent across cases, helping lines of text maintain a fast, cohesive flow at display and short-text sizes.