Photonic-Electronic Interface for Hybrid Systems
Spiking neuromorphic hardware runs ternary — excite, inhibit, or stay silent.
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.
Spiking neuromorphic hardware runs ternary — excite, inhibit, or stay silent.
What It IS
Technical VisionThe architectural essence — what makes this technology work
A neuromorphic chip where biological-style spikes carry ternary meaning: excitatory synapses fire for +1, inhibitory synapses fire for -1, and silent synapses carry zero. The chip's native biology-inspired architecture perfectly matches the three-valued weight space.
Abstract
Efficient photodetector and modulator arrays for converting data between electronic and photonic domains in hybrid neural network systems.
Visual Essence
A neuromorphic chip where biological-style spikes carry ternary meaning: excitatory synapses fire for +1, inhibitory synapses fire for -1, and silent synapses carry zero. The chip's native biology-inspired architecture perfectly matches the three-valued weight space.
Technology Domains
Related Patents
From the bio-silicon visual family
Ternary Sparse Tensor Operations
The nervous system mapped into silicon — biology's architecture in ternary.
Ternary Power Integrity and Noise Analysis
Ternary power meets living tissue — implantable medical electronics with a safe neutral state.
Ternary Dead Reckoning and Odometry
On-device continual learning with biological memory consolidation — the AI that grows.
Ternary State Machine Synthesis and Verification
Temporal reasoning and causal inference — AI that understands time and causality.