Serif Contrasted Ipme 10 is a regular weight, wide, very high contrast, upright, normal x-height font.
Keywords: headlines, editorial, magazine, branding, packaging, luxury, classical, dramatic, refined, display impact, editorial tone, premium branding, classic revival, refined contrast, hairline, crisp, formal, statuesque, calligraphic.
A sharply contrasted serif with tall proportions, crisp hairlines, and strong verticals. Serifs are fine and clean with minimal bracketing, giving terminals a precise, engraved feel rather than a soft, oldstyle softness. Rounds (C, O, Q, o) show pronounced thick–thin modulation and a vertical, modern stress; joins and transitions are tight, producing a sleek, high-definition rhythm. Lowercase features include a two-storey a and g, a slender f with a delicate crossbar, and a compact, upright italic-free structure; figures follow the same contrast logic with pointed, tapered details.
Best suited to display contexts such as magazine headlines, pull quotes, cultural/editorial typography, and premium branding. It can work for short blocks of text when set large with ample leading and comfortable tracking, especially in high-quality print or high-resolution digital environments.
The overall tone is elegant and assertive, projecting a high-end editorial voice with a distinctly classical, fashion-forward edge. Its dramatic contrast and sharp finishing create a sense of ceremony and sophistication, while the restrained construction keeps it professional and controlled.
The design appears intended to deliver a modern-classic, high-contrast serif voice optimized for impactful display typography. It prioritizes elegance, sharpness, and a refined vertical rhythm to create a distinctive, upscale presence in editorial and brand-led applications.
In the text sample, the type shows strong headline presence and striking word-shapes, with hairline details that reward generous sizing and good reproduction. The wide capitals and prominent verticals produce a stately texture, while the tight joins and thin serifs can become visually delicate in dense settings or low-resolution output.