Sans Superellipse Dumuv 9 is a regular weight, wide, low contrast, italic, normal x-height font.
Keywords: technology, automotive, sportswear, ui labeling, branding, futuristic, technical, sleek, sporty, sci‑fi, modernize, add motion, signal tech, create distinctiveness, improve cohesion, superelliptic, rounded corners, squared bowls, oblique stress, aerodynamic.
A clean, oblique sans with a distinctive superelliptic construction: curves resolve into rounded-rectangle bowls and softly squared counters rather than true circles. Strokes are monolinear with smooth joins and consistently rounded terminals, producing a crisp, engineered rhythm. Proportions read slightly expanded with generous horizontal space in round letters, while straight-sided forms (like E, F, L, T) keep a taut, forward-leaning stance. Numerals and capitals follow the same rounded-corner geometry, reinforcing a unified, modular look.
Best suited for technology branding, transportation/automotive themes, sports or performance-oriented graphics, and concise interface labeling where a sleek, engineered feel is desirable. It also works well for headlines, posters, and short passages that benefit from a streamlined, futuristic texture.
The overall tone is modern and kinetic, leaning toward a sci‑fi/tech aesthetic without feeling decorative. Its oblique slant and squared-round shapes suggest speed, precision, and contemporary product design, giving it a confident, forward-looking voice.
The design appears intended to merge a neutral sans foundation with a recognizable superellipse motif, creating a contemporary voice that reads quickly while signaling modernity. The consistent oblique posture and rounded-rectangle geometry aim for a sense of motion and precision across letters and numerals.
Several glyphs emphasize the theme through squared bowls and rounded corners (notably O/Q/0), while diagonal strokes in letters like K, V, W, X, and Y feel sharply cut and aerodynamic. The italic angle is consistent across cases, helping lines of text maintain a smooth, continuous flow.