Sans Superellipse Wipe 2 is a bold, very wide, monoline, upright, normal x-height font.
Keywords: headlines, posters, branding, logotypes, ui display, futuristic, tech, space-age, industrial, sleek, sci-fi display, tech branding, geometric cohesion, modular styling, rounded, rectilinear, modular, geometric, wide-set.
This typeface is built from rounded-rectangle forms with generous corner radii and consistently even stroke thickness. Curves resolve into flat terminals and long horizontal runs, giving letters a modular, superelliptical construction and a distinctly squared-off roundness. Counters are open and softly rectangular, and the overall spacing feels expansive, with wide-set bowls and extended crossbars contributing to a low, panoramic rhythm. Lowercase forms largely echo the uppercase geometry, with simplified joins and minimal contrast in structure across the set.
It performs best in display contexts such as headlines, posters, titles, and brand marks where its wide, rounded-rect geometry can read as a deliberate stylistic choice. It also suits UI-style graphics, dashboards, and product branding that aim for a sleek, futuristic voice, while extended passages may benefit from larger sizes and ample line spacing to preserve clarity.
The font projects a clean, engineered tone with a distinctly sci‑fi, interface-like flavor. Its wide, rounded geometry feels modern and synthetic rather than humanist, suggesting technology, machinery, and streamlined transportation aesthetics.
The design appears intended to translate a grid-based, superelliptical construction into an approachable display sans, combining hard-edged structure with rounded corners for a polished, contemporary feel. Its simplified shapes and repeated geometry prioritize visual consistency and a strong, tech-forward silhouette.
The numerals and many letters rely on prominent horizontal strokes and rounded corners, producing a strong sense of alignment and grid discipline. The design’s repeated superelliptical motifs create a cohesive texture in text, especially at larger sizes where the rounded-rect geometry is most apparent.