Sans Superellipse Eslid 3 is a bold, normal width, monoline, italic, normal x-height font.
Keywords: branding, headlines, posters, packaging, app ui, sporty, futuristic, dynamic, tech, confident, convey motion, modernize tone, soften geometry, brand distinctiveness, tech aesthetic, rounded, superelliptic, oblique, soft-cornered, geometric.
This typeface is a slanted, monoline sans with heavily rounded, superellipse-like curves and squared-off terminals softened by generous corner radii. Strokes keep an even weight while letterforms lean forward with a consistent oblique angle, creating a fast, aerodynamic rhythm. Counters are compact and rounded, and many joins and bends resolve into smooth, continuous arcs rather than sharp corners. Figures and capitals follow the same rounded-rectangle logic, giving the overall set a cohesive, engineered look.
It works best for branding and display settings where the slanted, rounded geometry can signal motion and modernity—such as sports identity, tech products, packaging, and poster headlines. In UI contexts it can serve for short labels, navigation, or feature callouts where a distinctive, friendly-tech voice is desired.
The overall tone feels energetic and contemporary, combining friendly softness from the rounded geometry with a purposeful, forward-leaning motion. It reads as sporty and tech-adjacent rather than casual, with a confident, streamlined voice suited to modern interfaces and branded messaging.
The font appears designed to merge geometric efficiency with approachable roundness, using a consistent oblique stance to communicate speed and progress. Its superellipse-based construction suggests an intention to feel engineered and modern while avoiding sharp, aggressive edges.
The design emphasizes smooth curvature and uniform stroke behavior, so forms remain visually consistent across uppercase, lowercase, and numerals. The italic construction is integral to the shapes (not merely a skew), and the rounded terminals help keep dense text from feeling harsh while still projecting speed and precision.