Inline Fiko 17 is a light, wide, low contrast, upright, tall x-height font.
Keywords: headlines, posters, branding, ui display, packaging, futuristic, techno, sci‑fi, retro, precise, display impact, tech aesthetic, retro futurism, graphic texture, rounded, monoline, inline, geometric, modular.
A geometric inline sans with rounded-rectangle construction and consistent, monoline outlines. Strokes read as open, hollow forms with a narrow interior line running parallel to the outer contour, creating a double-track effect through most letters and numerals. Corners are broadly radiused, curves are squarish, and joins are clean and schematic, giving the alphabet a modular, engineered rhythm. Counters are generous and shapes stay fairly open, while distinctive notches and segmented terminals appear in several glyphs to maintain the inline logic and keep spacing even across the set.
Best suited to display typography such as headlines, logos/wordmarks, posters, album or event graphics, and tech-forward branding. It can also work for interface titles, dashboards, and packaging callouts where a futuristic, engineered look is desired and sizes are large enough for the inline detailing to remain crisp.
The overall tone feels futuristic and technical, with a retro-digital flavor reminiscent of instrument panels and early computer/arcade graphics. Its clean, schematic drawing projects precision and a cool, synthetic personality rather than warmth or calligraphy.
The design appears intended to deliver a distinctive, high-tech inline aesthetic built from simple geometric modules. By combining rounded-square proportions with a consistent interior stripe, it aims to create a recognizable voice that stands out in short phrases and branded applications.
The inline treatment is prominent enough to act as a texture, especially in longer text, where the doubled strokes create a striped cadence. The rounded-square geometry keeps forms stable at display sizes, but the intricate interior lines can visually busy up at very small sizes or in low-resolution reproduction.