Sans Normal Pumaz 6 is a very bold, wide, low contrast, upright, normal x-height font visually similar to 'Panton Rust' by Fontfabric, 'Oktah Round' by Groteskly Yours, 'Core Sans AR' by S-Core, 'Hartwell' by W Type Foundry, and 'Artico Soft' by cretype (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, friendly, playful, chunky, retro, approachable, impact, approachability, cheerfulness, simplicity, rounded, soft, blunt, bubbly, compact.
A heavy, rounded sans with soft corners and bulbous terminals that keep forms smooth and continuous. Strokes are thick and even, with minimal modulation and generous rounding at joins, producing a cushioned silhouette. Counters are relatively small for the weight, and openings are somewhat tightened (notably in letters like C, S, and e), giving the face a compact, punchy texture. Proportions lean broad with sturdy verticals; curves are full and circular, and diagonals in letters like V, W, X, and Y are thick and stable rather than sharp.
Best suited to large-scale typography where its rounded weight and compact counters can project clearly—such as headlines, posters, logos, packaging, and storefront or wayfinding signage. It can also work for short, emphatic UI labels or social graphics, but long text may feel heavy due to the dense texture.
The overall tone is warm and humorous, with a toy-like softness that feels welcoming rather than technical. Its bold, rounded shapes suggest an upbeat, casual voice with a slight retro sign-painting or confectionery feel, optimized for attention and charm.
The design appears intended to deliver maximum impact with a soft, approachable personality—combining stout, rounded construction with simplified details for instant readability and a cheerful, informal presence.
Spacing appears comfortable at display sizes, with dense black shapes that create strong word silhouettes. Distinguishing details include a single-storey a, a simple r with a rounded shoulder, and numerals that read as compact, friendly blocks rather than geometric precision forms.