Sans Other Synu 6 is a light, very wide, monoline, italic, normal x-height font.
Keywords: headlines, posters, logos, gaming, tech branding, futuristic, tech, speedy, angular, sleek, sci-fi styling, motion emphasis, tech aesthetic, display impact, geometric consistency, chiseled, geometric, sharp, aerodynamic, high-contrast.
A sharply angled, forward-leaning sans with monoline construction and crisp, cut-off terminals. Forms are built from straight strokes and faceted curves, producing squarish counters (notably in O/0) and wedge-like joins. The overall width is expansive, with a low, fast horizontal rhythm and generous side bearings that keep the shapes airy despite the slanted stance. Numerals echo the same polygonal logic, and the lowercase keeps a clean, simplified structure with minimal curvature and a consistent, engineered cadence.
Best suited to display settings where its angular construction and extended width can read clearly and set a strong tone—headlines, poster titling, esports/gaming identities, technology branding, and UI accents for sci-fi or automotive-themed designs. It can also work for short bursts of text such as labels or splash screens when ample tracking and line spacing are available.
The design reads as futuristic and performance-oriented, evoking motorsport, sci-fi interfaces, and industrial tech branding. Its sharp geometry and persistent slant convey motion and precision rather than warmth or tradition, giving it a confident, synthetic tone.
The likely intent is a stylized, speed-inflected sans that prioritizes a cohesive futuristic silhouette and a sense of motion. By relying on straight strokes, faceted bowls, and uniform line weight, it aims to deliver an engineered, modern look that stands out in branding and titling.
Diagonal cuts and flattened curves create a distinctive "machined" feel, especially in round letters where corners are subtly squared. The sample text shows strong visual continuity across mixed case and numerals, with an emphasis on streamlined silhouettes over calligraphic modulation.