Sans Faceted Ihvi 5 is a very light, wide, monoline, upright, normal x-height, monospaced font.
Keywords: ui labels, terminal styling, data tables, technical diagrams, posters, technical, retro, digital, precise, utilitarian, precision, systematic layout, tech aesthetic, retro computing, octagonal, chamfered, angular, geometric, wireframe.
This typeface is built from thin, consistent strokes with a geometric skeleton and chamfered, faceted corners that replace most curves. Bowls and rounds read as octagonal outlines, giving letters and numerals a crisp, engineered feel. Proportions are generous horizontally with ample internal counters, and spacing is even and grid-friendly, producing a steady rhythm in text. Terminals are mostly blunt and squared, and the overall drawing keeps a clean, schematic clarity across uppercase, lowercase, and figures.
It suits interface labels, dashboards, terminals, and tabular or code-adjacent layouts where consistent alignment and a measured rhythm are beneficial. The faceted geometry also works well for technical diagrams, sci‑fi themed graphics, and display headlines where the angular outline character can be a defining visual motif.
The faceted outlines and restrained stroke weight convey a cool, technical tone reminiscent of instrument labeling, CAD drawings, and early digital display aesthetics. It feels orderly and systematized rather than expressive, with a subtly futuristic, industrial flavor.
The design appears intended to merge a neutral sans structure with a faceted, chamfered outline language to evoke engineered precision. Its regular spacing and uniform construction suggest a focus on systematic layouts and digital or technical contexts where a crisp, geometric voice is desired.
At smaller sizes the very thin strokes and corner facets can shift emphasis from curves to angles, making the design feel more like a plotted or vector-outline style than a conventional text face. The uniform spacing and consistent construction help maintain legibility in settings where alignment and regularity matter.