Outline Mymy 9 is a very light, wide, low contrast, upright, normal x-height font.
Keywords: headlines, posters, logotypes, ui titles, signage, futuristic, technical, neon, retro sci‑fi, minimal, sci‑fi styling, technical display, neon outline, geometric clarity, modern branding, rounded, monoline, geometric, inline, open apertures.
A geometric outline face built from monoline contours with consistent stroke spacing and softly rounded corners. The letterforms favor squared, racetrack-like bowls and smooth arcs, with frequent use of open terminals and notches that keep counters airy and prevent shapes from closing fully. Proportions read generously spaced with a slightly extended feel, and the design maintains a steady, engineered rhythm across capitals, lowercase, and numerals. The overall rendering is clean and precise, emphasizing contour and interior negative space rather than filled mass.
Best suited to display settings where the outline structure can be appreciated—headlines, posters, sci‑fi or tech branding, event graphics, and large UI titles. It can also work for signage-inspired treatments, especially when paired with solid fills, glow effects, or layered color applications.
The tone is sleek and tech-forward, evoking instrument panels, sci‑fi titles, and neon-tube signage. Its open, linear construction feels modern and conceptual, with a subtle retro-futurist flavor reminiscent of early digital or space-age graphics.
The design appears intended to deliver a lightweight, high-tech display voice using pure contour lines, rounded geometry, and strategic openings for a constructed, modernist look. It prioritizes a distinctive silhouette and rhythmic consistency over dense text color, aiming for clarity and style at larger sizes.
The outline construction makes the internal gaps and corner radii a key part of the texture, so the font’s character is driven as much by negative space as by the drawn line. Several glyphs incorporate intentional breaks and angled joins that add a schematic, fabricated feel and increase differentiation at display sizes.