Sans Superellipse Eflef 7 is a very light, normal width, low contrast, italic, tall x-height font visually similar to 'Absentia Sans' by DR Fonts (names referenced only for comparison).
Keywords: ui labels, product design, tech branding, data display, packaging, modern, clean, technical, friendly, modern italic, soft geometry, ui clarity, brand versatility, monoline, rounded, superelliptic, open apertures, humanist.
A monoline italic sans with soft, superelliptic curves and rounded terminals that keep counters smooth and open. The rhythm is airy and even, with generous apertures (notably in C, G, S, and e) and simplified, geometric joins that avoid sharp corners. Uppercase forms feel streamlined and slightly condensed in gesture, while lowercase shows a tall, legible structure with a single-storey a and g, compact bowls, and a gently hooked f. Numerals are similarly linear and rounded, with straightforward construction and clear differentiation at text sizes.
Well-suited to interface labels, dashboards, and product typography where a clean italic voice is needed for emphasis, captions, or secondary text. The open forms and smooth rounding also work well for contemporary branding, packaging, and lightweight editorial or presentation settings where a crisp, modern tone is desired.
The overall tone is contemporary and efficient, with a light, gliding italic that reads as agile rather than calligraphic. Rounded geometry adds approachability, giving it a friendly, product-oriented voice without losing a precise, engineered feel.
The design appears intended to deliver a sleek italic companion for modern sans typography, combining geometric smoothness with practical readability. Its rounded superellipse construction suggests a focus on contemporary digital aesthetics and consistent rendering in UI and branding contexts.
Slanted strokes and rounded corners produce a consistent “soft tech” texture, especially in sequences of curves (o, c, e, s) where the superelliptic shaping is most evident. The design favors clarity over expression, with restrained eccentricities and minimal stroke modulation.