Outline Liza 3 is a regular weight, normal width, high contrast, upright, tall x-height font.
Keywords: game ui, arcade titles, posters, logos, tech branding, retro, arcade, glitchy, techy, playful, arcade feel, digital texture, display impact, geometric branding, angular, beveled, pixel-like, geometric, stencil-like.
This is an angular outline display face built from squared, modular forms with beveled corners and an inner contour that creates a hollow, double-line look. Strokes feel intentionally segmented, with frequent step-like turns and occasional small cut-ins that read as pixel artifacts. Counters are generally rectangular, and many glyphs show a subtle pseudo-3D or inset effect from the parallel inner outline. Spacing appears fairly even and mechanical, and the overall construction favors rigid geometry over calligraphic modulation.
It works best at larger sizes where the outline structure and inner contour remain legible, making it suitable for game UI headings, arcade-inspired titles, posters, and logo marks. The geometric construction also fits tech or synth-themed branding, packaging, and event graphics where a digital, retro tone is desired.
The font conveys a retro arcade and early-computer aesthetic, mixing clean geometric outlining with intermittent “glitch” breaks that add energy and attitude. It feels game-like and tech-forward, with a playful, slightly gritty edge reminiscent of pixel graphics and CRT-era interfaces.
The design appears intended to deliver a bold, screen-native outline style that reads as pixel-informed and arcade-era, while adding controlled “glitch” details to keep the texture lively. The goal seems to be high-impact display typography with strong geometric identity rather than quiet text readability.
The design maintains a consistent square-grid logic across uppercase, lowercase, and numerals, with distinctive chamfers that help corners read crisply at display sizes. The occasional jagged intrusions in certain letters (notably diagonals and joins) introduce deliberate irregularity while staying within the same blocky system.