Sans Superellipse Lorit 1 is a light, normal width, monoline, upright, short x-height, monospaced font.
Keywords: ui labels, hud displays, code samples, schematics, game ui, tech, retro, utilitarian, digital, modular, systematic, futuristic, interface-first, grid alignment, technical clarity, rounded corners, boxy, geometric, pixel-adjacent, stencil-like.
A modular, rounded-rectangle sans with consistent stroke weight and softly radiused corners. Curves are largely implied through superelliptic geometry, producing boxy bowls (O, Q, 0) and squared-off terminals throughout. Diagonals appear selectively (A, K, V, W, X, Y), while many glyphs favor right angles and open counters (C, G, S), giving the alphabet a constructed, grid-friendly rhythm. The design shows deliberate simplification in several forms—single-storey a and g, a compact e, and a squared, open-bottom u—supporting a tight, technical texture in text.
Well suited to compact UI labeling, dashboards, overlays, and technical diagrams where a controlled, modular look is desired. It can also work for sci-fi themed titles, game interfaces, and short informational text where a monospaced, grid-oriented rhythm helps maintain alignment.
The overall tone reads technical and retro-futurist, like control-panel labeling or early computer/terminal typography softened by rounded corners. Its geometry feels engineered and systematic, projecting clarity and restraint rather than warmth or calligraphy.
The font appears designed to deliver a clean, systematized voice built from rounded-rectilinear primitives, prioritizing uniformity and structured rhythm. Its simplified letterforms suggest an intention to evoke digital/industrial aesthetics while retaining legibility in small, aligned settings.
Distinctive rounded-square shapes in numerals (notably 0) and the angular, open construction of several letters contribute to a strong sci-fi/industrial flavor. The consistent, cell-like spacing impression and uniform stroke behavior make it feel especially at home in ordered layouts and interface contexts.