I-Structure and Information-Centric Architecture
A photonic computer that computes in three states of light — the physical Scion.
Explore the Vision
Discover this technology through five complementary perspectives — from technical architecture to partnership outcomes. Each layer reveals a different aspect of how this innovation creates value.
A photonic computer that computes in three states of light — the physical Scion.
What It IS
Technical VisionThe architectural essence — what makes this technology work
A photonic crystal lattice where coupled optical resonators hold three discrete states — left-circular, linear, and right-circular polarisation. Computation propagates as harmonic resonance between coupled resonator sites. A computer made entirely of structured light.
Abstract
Information-centric computing architecture where computation follows data flow, enabling efficient resource usage and natural parallelism.
Visual Essence
A photonic crystal lattice where coupled optical resonators hold three discrete states — left-circular, linear, and right-circular polarisation. Computation propagates as harmonic resonance between coupled resonator sites. A computer made entirely of structured light.
Technology Domains
Related Patents
From the light-compute visual family
Photonic Ternary Neural Network Hardware
Neural network weights encoded as light — three phase states in a waveguide.
Waveguide-Based Ternary Matrix Vector Multiplication
Zero weights gate their waveguide shut — photons skip where computation isn't needed.
Zero-Skip Gating for Photonic Networks
Matrix-vector multiplication in light — interference replaces arithmetic.
Integrated Photonic Activation Functions
Electronic and photonic domains fused — the best of both in a single inference pipeline.