Sans Superellipse Wiby 13 is a bold, very wide, monoline, upright, normal x-height font.
Keywords: headlines, branding, posters, ui, signage, futuristic, tech, sleek, clean, geometric, futurism, modernization, clarity, display impact, systematization, rounded, superelliptic, modular, squared, smooth.
A wide, monoline sans built from rounded-rectangle and superellipse geometry. Strokes maintain near-uniform thickness with soft, generous corner radii and flattened curves that keep counters open and stable. Many forms lean on horizontal terminals and squared-off bowls (notably in letters like C, D, O, and S), creating a smooth, modular rhythm. Diagonals are crisp and straight, while joins and apertures are simplified for a clean, engineered silhouette.
Best suited to short, high-impact settings where width and strong geometry can be showcased—headlines, logotypes, posters, and product/tech branding. It can also work for UI titles, dashboards, and signage where a modern, rounded-industrial voice is desired, while longer text will benefit from comfortable size and spacing due to the wide set and distinctive squarish curves.
The overall tone feels futuristic and technical, with a streamlined, interface-like polish. Its rounded-square construction reads modern and controlled rather than playful, suggesting precision and speed. The broad proportions and softened corners give it a friendly edge while still feeling distinctly sci‑fi and digital.
The design appears intended to deliver a contemporary, techno-forward sans with a consistent superelliptic construction and a smooth, monoline stroke. By prioritizing rounded-rect counters, simplified terminals, and broad proportions, it aims for a distinctive display presence that still remains clean and legible in interface and branding contexts.
Round letters tend to appear slightly squarer than traditional geometric sans designs, with counters that resemble rounded rectangles. The lowercase keeps a straightforward, single-storey approach where applicable (e.g., a), and the numerals follow the same superelliptic logic with prominent horizontals and smooth corners for consistency across the set.