Sans Superellipse Derut 2 is a regular weight, very narrow, monoline, italic, normal x-height font.
Keywords: headlines, posters, branding, sports, interfaces, technical, futuristic, sporty, streamlined, industrial, speed emphasis, space saving, modernization, systematic geometry, tech tone, condensed, oblique, rounded corners, squared curves, soft terminals.
A condensed, oblique sans with monoline strokes and a rounded-rectangle construction throughout. Curves are expressed as softened corners and superelliptic bowls rather than fully circular forms, giving letters a squared-yet-smooth silhouette. Terminals are generally rounded, joins are clean, and counters are compact, producing a tight rhythm and a strong forward-leaning flow. The proportions are tall and narrow, with open apertures kept controlled and consistent across uppercase, lowercase, and numerals.
Works well for headlines, short promotional copy, and branding where a sleek, forward-leaning voice is desired. It suits sports and automotive-style graphics, tech product pages, UI labels, and packaging accents—especially when space is limited and a condensed presence is helpful.
The overall tone feels fast, engineered, and contemporary—like a typeface tuned for motion, interfaces, and performance contexts. Its slanted stance and compact geometry read as efficient and purposeful, while the softened corners keep it approachable rather than harsh.
The design appears intended to deliver a compact, speed-oriented sans that stays consistent through a rounded-rectangular geometry. By pairing an oblique stance with softened corners and uniform stroke weight, it aims for a modern, technical look that remains legible and cohesive across letters and numbers.
Capitals and numerals share a unified, modular feel, with many forms built from straight segments and rounded corners that reinforce the same geometric logic. The narrow set width and tight counters increase visual density in longer lines, which can read energetic and space-saving but may prefer moderate tracking at smaller sizes.