Sans Superellipse Kihe 2 is a regular weight, very wide, medium contrast, upright, normal x-height font.
Keywords: headlines, branding, ui display, posters, signage, futuristic, technical, sleek, digital, utilitarian, systematic design, tech aesthetic, modern display, geometric clarity, rounded corners, octagonal, modular, geometric, monolinear.
A geometric sans with monolinear strokes and a rounded-rectangle construction that produces softly chamfered, octagonal curves. Counters tend to be squarish and open, with clean joins and minimal stroke modulation. Terminals are predominantly flat, and many forms rely on straight segments with rounded corners, creating a consistent, engineered rhythm across caps, lowercase, and figures. Numerals and rounded letters (O, Q, 0, 8, 9) emphasize the superelliptic silhouette, while diagonals (V, W, X, Y, K) stay crisp and evenly weighted.
Best suited to display settings where its wide geometry and rounded-rect forms can be appreciated—headlines, tech branding, product identities, posters, and environmental/signage applications. It can work for short UI labels or interface titling where a futuristic, engineered feel is desired, though the strong geometric character will dominate long passages.
The overall tone is contemporary and tech-forward, evoking interfaces, hardware labeling, and sci‑fi styling without feeling overly decorative. Its wide, open shapes read as confident and streamlined, with a controlled, functional personality.
The design appears intended to translate rounded-rectangle geometry into a coherent alphabet with consistent stroke weight and a clean, modern cadence. Its construction prioritizes a systematic, modular feel—balancing sharp diagonals with softened corners to achieve a polished, digital-friendly voice.
Spacing appears generous and the wide letterforms create a horizontal, panoramic texture in text. Distinctive details include the squarish bowls on B/P/R, the angular, open construction of S, and the octagonal approach to rounded glyphs, which helps maintain uniformity across sizes.