Sans Superellipse Ablow 2 is a regular weight, normal width, low contrast, upright, normal x-height, monospaced font.
Keywords: code, ui labels, terminal, data tables, technical docs, utilitarian, technical, clean, retro, neutral, clarity, alignment, system ui, technical tone, consistency, boxy, rounded, geometric, compact, uniform.
This typeface is a monospaced, geometric sans with rounded-rectangle construction throughout. Strokes are even and steady, with blunt terminals and consistently softened corners that keep forms crisp without feeling sharp. Curves tend toward superelliptical bowls and counters, producing tidy, compact shapes; round letters like O, C, and G read more like rounded squares than true circles. The uppercase set is straightforward and engineered, while the lowercase shows single-storey a and g and a clear, modular rhythm. Numerals are similarly structured, with a notably squared, oval-like 0 and simplified, legible forms.
It performs well where alignment and predictable character widths matter, such as code display, command-line interfaces, settings panels, and tabular data. The steady stroke and compact, rounded geometry also suit technical documentation, diagrams, and small UI labels where clarity and regular rhythm are priorities.
The overall tone is pragmatic and technical, evoking terminals, UI readouts, and coding environments. Its rounded geometry adds a mild friendliness, but the dominant impression remains orderly and systems-minded, with a subtle retro-digital flavor.
The design appears intended to deliver a clean, modern monospaced voice with a rounded-rectilinear geometry that stays legible and consistent across letters and numerals. It prioritizes uniformity, alignment, and a controlled rhythm, making it well suited to functional, screen-forward typography.
Spacing and rhythm are highly uniform, giving text a grid-like texture and predictable cadence. Counters are relatively open for a monospaced design, and the squared curvature helps maintain consistency across letters and figures in dense settings.