Loading...
Cart is empty
Browse the shop to add prints
Opus VII — Neural Sacred
10,000 agent particles and 2000 Perlin worms self-organize into Metatron's Cube: 13 nodes connected by 78 luminous pathways. Sacred geometry emerging not from mathematical construction but from emergent behavior. The neural web finds the sacred pattern through pure mathematics.
Turquoise oval nodes form a centralized network connected by faint linear links. Dark slate-gray ground contains layered, smoke-like noise fields that soften edges and deepen spatial recession. Vertical alignment establishes a spine from top node through central cluster to a lower terminus. Low-contrast haze and grain unify the background while high-chroma nodes define the focal hierarchy.
3000x4000 canvas; 2940 unique colors; entropy 4.745; dense grain field with low-contrast layering.
10,000 agent particles and 2000 Perlin worms self-organize into Metatron's Cube: 13 nodes connected by 78 luminous pathways. Sacred geometry emerging not from mathematical construction but from emergent behavior. The neural web finds the sacred pattern through pure mathematics.
Turquoise oval nodes form a centralized network connected by faint linear links. Dark slate-gray ground contains layered, smoke-like noise fields that soften edges and deepen spatial recession. Vertical alignment establishes a spine from top node through central cluster to a lower terminus. Low-contrast haze and grain unify the background while high-chroma nodes define the focal hierarchy.
Pricing information not available
Controlled palette discipline strengthens hierarchy by reserving saturation for nodal anchors. Layered noise field sustains depth while keeping contrast subdued, letting line geometry read as quiet structure rather than diagram. Central spine and balanced side nodes create stable rhythm, and soft edge handling prevents hard separation between system and atmosphere.
Centralized network focus with vertical spine and peripheral node symmetry.
Analysis by gpt-5.2-2025-12-11 on 5/14/2026
Use these sections to discover artworks, read technical context, and navigate the full algorithmic art ecosystem.