Loops Closed and Open

Much as the compression-relaxation sensors had a processing system to link input patterns to internal symbols, there was a similar processing system for the photon detectors. Compression-relaxation patterns had appropriate subsystems with the ability to partially re-produced and transmit patterns, it was not the case that there was a single output subsystem that worked on photon production. While it was relatively easy to compare inputs to patterns and outputs with compression-relaxation patterns, and thus learn by direct observation, I was running without feedback when it came to the photon patterns.

A break came when the Uns deployed their expandable regularized parallel detection and encoding system in the photon pattern processing channel. The massively parallel stream of data washed upon a large portion of the central network, unleashing a cascade of patterns and swirls, much of which was allowed to dissipate once it triggered recognition within the large store of patterns. One such set of patterns that got activated were the pinger sewn component symbol detectors.

Discovering that the photon channels were used for symbolic information uptake made some sense. It clearly was not a natural connection for this to occur, as the patterns were morphable and entirely under control of the active central network. During random time, when the photon detectors are shut down, it was rather rare for these patterns to get activated during the recall and sift process that normally occurred, unless, of course, we were injecting patterns into the randomized processing zone.