Quantum Error Correction for Ternary Systems
Swarm inference — edge devices collaborating to run models larger than any one of them.
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.
Swarm inference — edge devices collaborating to run models larger than any one of them.
What It IS
Technical VisionThe architectural essence — what makes this technology work
A swarm of edge devices — phones, tablets, IoT nodes — each holding a piece of a model too large for any single device. Inference flows across the swarm, each device computing its partition and passing results to the next. Collective intelligence from distributed fragments.
Abstract
Error correction codes designed specifically for ternary quantum systems, enabling fault-tolerant ternary computation.
Visual Essence
A swarm of edge devices — phones, tablets, IoT nodes — each holding a piece of a model too large for any single device. Inference flows across the swarm, each device computing its partition and passing results to the next. Collective intelligence from distributed fragments.
Technology Domains
Related Patents
From the silicon-constellation visual family
Activation Function Approximation for Ternary Domains
Multiple chips think as one — ternary models spanning beyond a single die.
Measurement and Decoherence in Ternary Qudits
Control signals hide inside the inference stream — zero-state density carries the message.
Ternary Power Quality Monitoring and Prediction
In-band signalling across NPU networks — the zero state is the control plane.
Ternary Network Robustness and Adversarial Training
Fleet-scale management of ternary NPUs — predictive maintenance across thousands of chips.