Sans Superellipse Hakag 2 is a very bold, narrow, medium contrast, upright, short x-height font.
Keywords: headlines, logos, posters, gaming ui, packaging, techno, futuristic, industrial, compact, assertive, sci-fi display, geometric system, impact titling, brand voice, modular styling, modular, rounded-square, monolinear, geometric, angular terminals.
A compact display sans built from rounded-rectangle geometry, with squared counters softened by consistent corner rounding. Strokes are heavy and largely monolinear, producing dense, high-impact silhouettes and tight internal apertures. Many joins and terminals are cut with straight, mechanical edges, while curved letters resolve into superellipse-like bowls rather than true circles, creating a modular rhythm across the alphabet. The overall spacing feels engineered for economy, with a blocky texture and distinctive, stylized letterforms that favor strong verticals and simplified diagonals.
Best suited to short, prominent settings where its distinctive geometry can be appreciated—headlines, branding marks, poster titling, and tech-leaning packaging. It can also work for interface labels in games or futuristic UI themes when set with adequate size and spacing to preserve clarity.
The font projects a sci‑fi, techno attitude—clean, mechanical, and deliberately stylized. Its chunky forms and squared curves feel industrial and digital, giving text an assertive, constructed tone suited to modern, technology-forward messaging.
The design appears intended to translate rounded-rectangular, superellipse forms into a bold display voice that feels engineered and contemporary. Its letterforms prioritize a coherent modular system and a strong, compact texture over neutral readability, suggesting use as a recognizable stylistic identifier.
Several glyphs employ unconventional constructions (notably in diagonals and interior cut-ins), which strengthens the display personality but can increase the need for generous sizing and careful tracking in longer text. Numerals share the same rounded-square logic, reading as sturdy and device-like.