Pixel Other Abgo 6 is a very light, normal width, medium contrast, italic, normal x-height, monospaced font.
Keywords: hud ui, instrument panels, tech posters, scoreboards, sci-fi titles, digital, technical, retro, instrumental, austere, segment mimicry, grid alignment, digital signage, system labeling, segmented, angular, octagonal, skeletal, modular.
A segmented, modular design built from short diagonal and orthogonal strokes, producing octagonal curves and sharply clipped terminals. The italic slant is consistent across letters and figures, with uniform stroke weight and deliberate gaps where segments meet, creating a skeletal rhythm. Counters are open and geometric, and the monospaced spacing gives the alphabet a regular grid cadence. Round forms like C, O, and 0 resolve into faceted outlines, while diagonals in K, V, W, X and the figures are rendered as discrete slanted segments rather than continuous strokes.
Best suited to interface mockups, heads-up displays, electronic instrument graphics, and themed branding where a segmented readout aesthetic is desired. It works well for short headlines, labels, and numeric-heavy information such as timers, counters, and system status indicators, especially when the monospaced alignment is an advantage.
The overall tone reads as digital and utilitarian, reminiscent of instrument readouts and technical labeling. Its precise segmentation and slanted stance create a forward-leaning, engineered feel with a lightly retro electronic character.
The design appears intended to emulate a slanted segmented display using a consistent modular stroke system, balancing recognizability with a clearly quantized construction. The goal seems to be a clean, technical voice that aligns naturally in grids while retaining the unmistakable look of electronic readouts.
At text sizes the broken joins remain visible, emphasizing the constructed, display-like logic. Distinctive segment choices give some glyphs a schematic quality, which adds character but can introduce ambiguity in dense settings where similar angular shapes cluster.