Sans Superellipse Rikin 1 is a light, normal width, medium contrast, upright, normal x-height font.
Keywords: ui, signage, headlines, branding, posters, tech, futuristic, minimal, clean, geometric, systematic, modernist, interface-ready, sci-fi styling, geometric consistency, rounded corners, square curves, monoline, open counters, narrow apertures.
A geometric sans with a superelliptical construction: curves resolve into rounded-rectangle bowls and corners, and many terminals finish with crisp, squared ends. Strokes stay largely monoline, with subtle modulation only where curves meet straight segments. Proportions are slightly condensed in the uppercase, while lowercase forms keep a straightforward, utilitarian structure with open, simple counters. The overall rhythm is even and engineered, with tight apertures and a consistent corner radius that reinforces a grid-like, modular feel.
Well suited to UI labels, dashboards, and product surfaces where a technical, modern voice is desired. It also works effectively for short headlines, logos, and poster titling that benefit from its distinctive rounded-rect geometry; for longer text it will read best at comfortable sizes where its tight apertures remain clear.
The tone is modern and technical, leaning toward a sci‑fi or interface aesthetic. Its rounded-square geometry reads precise and controlled rather than friendly, projecting a clean, futuristic neutrality suited to contemporary digital branding.
Likely intended as a contemporary geometric sans that blends strict, grid-based construction with softened corners for a sleek, futuristic look. The consistent superelliptical forms suggest an emphasis on system coherence and a recognizable, technology-forward silhouette.
Several glyphs emphasize the squared/rounded-rectangle theme—particularly bowls and numerals—creating a cohesive ‘soft-rectilinear’ texture in text. The design’s crisp terminals and disciplined curvature make it feel systematic and signage-like, with distinctive angular joins on diagonals adding a slightly mechanical edge.