Sans Superellipse Enlup 9 is a regular weight, wide, monoline, italic, normal x-height, monospaced font.
Keywords: ui labels, dashboards, code samples, product branding, posters, techy, sporty, utilitarian, retro-futurist, industrial, system clarity, modernization, speed cue, technical friendliness, consistency, rounded, oblique, squared, geometric, compact.
A rounded, squared-off sans with a consistent stroke and an oblique stance. Curves resolve into superellipse-like corners and rounded-rectangle counters, giving letters such as O, C, and D a soft-rectangular silhouette rather than a true circle. Terminals are clean and cut without flaring, with occasional angled joins that emphasize forward motion. Lowercase forms lean toward single-storey constructions and simplified geometry, and the numerals mirror the same rounded-rectangular logic for strong cross-set consistency.
Well-suited to interface labeling, dashboards, and data-forward layouts where consistent character widths and a steady rhythm help scanning. The oblique, rounded-square construction also fits contemporary product branding, tech/event graphics, and bold headline work where a streamlined, engineered look is desirable.
The overall tone feels functional and engineered, with a crisp, forward-leaning rhythm that reads as modern and slightly sporty. The softened corners temper the technical feel, adding approachability while keeping a disciplined, system-like voice.
The design appears intended to blend a modular, system-oriented structure with softened superellipse geometry, producing a clear, contemporary sans that feels technical without becoming harsh. Its oblique posture and consistent proportions suggest an emphasis on momentum and clarity in compact, information-heavy settings.
The design maintains a tight, modular cadence across uppercase, lowercase, and figures, with counters that stay open and rectangular. The oblique angle and squared rounds create a distinctive “soft tech” texture that remains clear at display sizes and holds together well in dense settings.