Activation Function Approximation for Ternary Domains
Multiple chips think as one — ternary models spanning beyond a single die.
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.
Multiple chips think as one — ternary models spanning beyond a single die.
What It IS
Technical VisionThe architectural essence — what makes this technology work
A constellation of processing chips arranged in formation, connected by streams of ternary data flowing between them. A model too large for any single chip lives across all of them, each chip holding a piece of the mind. Distributed cognition in silicon.
Abstract
Efficient computation of ReLU, GELU, and other activation functions within ternary constraints, including lookup-table and polynomial approximations.
Visual Essence
A constellation of processing chips arranged in formation, connected by streams of ternary data flowing between them. A model too large for any single chip lives across all of them, each chip holding a piece of the mind. Distributed cognition in silicon.
Technology Domains
Related Patents
From the silicon-constellation visual family
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.
Quantum Error Correction for Ternary Systems
Swarm inference — edge devices collaborating to run models larger than any one of them.