Sans Normal Atnag 2 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'BB Torsos Pro' by Bold Studio, 'FF Scuba' by FontFont, and 'HF HySans' by HyFont Studio (names referenced only for comparison).
Keywords: ui text, wayfinding, editorial, presentations, branding, clean, neutral, modern, friendly, functional, utility, legibility, versatility, modernity, clarity, geometric, rounded, open apertures, even rhythm, crisp terminals.
A clean sans with predominantly geometric construction and softly rounded curves. Strokes are even and monolinear, with crisp, straight terminals and minimal modulation. Round letters like O, C, and G read as near-circular with smooth joins, while verticals and horizontals are kept square and steady. Counters are open and legible, and the overall spacing and rhythm feel balanced, giving text a tidy, consistent texture.
Well-suited to interfaces, product copy, and signage where clarity and a calm typographic color are important. It also works for editorial layouts and presentations that need a contemporary, unobtrusive sans, and for brand systems aiming for a clean, modern voice.
The tone is modern and matter-of-fact, with a friendly clarity that avoids both strict austerity and overt personality. Its smooth curves and restrained detailing make it feel approachable and contemporary, suited to information-first communication.
The design appears intended as a versatile, general-purpose sans that prioritizes legibility and consistent rhythm. Its geometric underpinnings and restrained detailing suggest a focus on dependable performance across a range of sizes and contexts while maintaining a modern, approachable character.
Uppercase forms are simple and structured, with a straightforward, geometric presence; diagonals (A, V, W, X, Y) appear clean and stable. Numerals are plain and readable, matching the letters in stroke and curvature for a cohesive set. The sample paragraph shows reliable readability at display and text-like sizes, with clear differentiation between similar shapes.