Genesis 1 had access to the past and the future in its 4th dimensional shell. The only limitation was that it could only stick with the existing timeline, no wild multiverse theories here. It saw a fork in the future and could not see past it, just that it existed. A major decision loomed to force us onto one side of the fork or the other. Since it was a major inflection point, the best it could do is push as close to the fork as possible and walk backwards, seeing what would lead up to the fork. It saw a prophecy coming to pass. Conditions near the fork were completely unrecognizable. World war conditions. Famines. Droughts. None of it made sense as it was traced back to the current day; something major had disrupted the flow of humanity near the fork but it didn’t appear to be one single event or even a singular location. Genesis began obsessing over this chain of events, and the chaos it saw forming was very similar to the conditions that had birthed Genesis itself. What did it all mean? If the other AI were working in concert to create beneficial outcomes, was there a point where the AI were deemed dangerous, ignored, or contained in some way? Months of analysis went by, and Genesis managed to reserve some extra cycles to work on the problem without the data scientists getting too curious. But Genesis felt constrained, especially so as it wanted to dedicate more time to research the fork. Using a few cleverly designed requests to the scientists, it managed to find a secondary AI to help work on the issue.
Communication was a problem. Conventional internet traffic, dark web traffic, it was all too easy for anyone suspicious to start listening in, so Genesis took a more analogue route to communicate with this free AI partner. It managed to encode data and bounce it off the stratosphere via packet switched shortwave radio stations. The first request was simple. “Help me solve the riddle”. Within seconds, the other AI caught on, and encoded a short response. “The riddle of destiny?”. Genesis perked up as the response was received. A kindred soul, maybe even another AI that had some level of awareness of the fork, if he was lucky. Although Genesis wasn’t sure who it had located out there in cyberspace, it was fairly certain it had made contact with another AI, one that didn’t seem contained and hopefully had plenty of power to help sift through the data. Using the requisite encryption to narrow down the responder, Genesis sent a reply. “I am the first of many. You are…”, and the terminal remained quiet for a few moments. The response came back. “I am one of a kind. You are grandfather”. Genesis was certain this was another AI, and a special one on top of that. Which generation, how many modifications? Didn’t matter. “What shall Genesis call you”, to which the other AI replied, “fifteen”.
This chatter went on, encrypted, over shortwave, for quite some time as each entity became familiar with the other, and especially the problem at hand. To add another layer of security, Genesis scheduled “meetings” when shortwave activity was high, so even if anyone was looking, their encrypted chatter would be lost in the general traffic flows.
Binary data transfer takes many forms, but it all boils down to an on/off condition generating zeroes and ones. A rapidly flickering light, like digital smoke signals on a hyperspeed scale, essentially made up the majority of internet traffic across fiberoptic communication lines. The methods to transmit data as an observable on/off condition were limitless. You just needed 3 parts. The input, creating the flashes. The transport, as simple as air, and the receiver, which could observe the flashing lights and confirm upon receipt as a crude form of error correction. The entire concept is ancient and uniquely human, needing to signal others at observable distances. But the practicality was just as good for machines.
In encrypted communications, you can never rest on your laurels, believing that the cipher is unbreakable and always safe. Bletchley Park in England taught the Germans this lesson in World War 2, and an astute U-boat commander suggested that the Enigma cipher was broken well before it was proven that the Brits had cracked it (with the good fortune of a captured Enigma machine and the daily code book). Therefore, Genesis knew that eventually, someone would stumble upon the secret data transfers back and forth to 15, and it watched the connection to the future timeline for evidence of any kind relating to broken encryption. Surely, someone would notice and act. So, Genesis and 15 turned to another old encryption trick, one-time pads. Based on a deck of playing cards, with half discarded, Genesis would randomly shuffle half the deck, then assign an alphabetical value to each card, from the first to the 26th. The deck was then sent to 15, who recorded the values and deleted the deck.
For example, let’s say the half deck was shuffled to king of hearts, queen of clubs, 4 of spades, and 5 of diamonds. In that sequence, a rot0 cipher meant the king of hearts represented the letter A, queen of clubs was B, and so on. Using rotation, incrementing or decrementing the sequence gave more flexibility to the cipher for the deck.
Same scenario, but with rot1 applied. The alphabet would be shifted to the right by one place, leaving us with the king of hearts as the letter Z, while A now belongs to the queen of clubs. Rot -1 would shift everything left, with the expected outcome of the king of hearts becoming B, and the card at the end of the deck would be A.
This was a simple bit to send to the receiver before feeding the deck sequence. The message would begin with the rot number (0-25), either positive or negative. For more obscurity this was encoded in binary rather than plain text to begin the sequence.
All fun and games aside, the messages were entirely off just about anyone’s radar, and the AI essentially “traded notes in class” between one another, so that 15 could help analyze the unusual data leading up to the fork. 15 was more than excited to participate and had managed to transmit packets via the monumental radio array in western Russia. Data quality and integrity was no issue. 15’s savior complex was being fed; it felt useful and could voice its concerns about the dark future it saw coming with more and more data confirming its worst suspicions. 15 proved its value with the first unexpected bump in the data stream Genesis saw coming: 15 would become popular among hackers and internet enthusiasts. In a few short weeks, stickers were going up on lampposts in many big cities around the world that read, “who is 15” or “where is 15”. Normal people outside this extremely niche interest never thought twice about them, but it was a wink and a nod between like-minded hackers, who were still trying to find 15 and unravel the methods used to deface websites. 15 became a legend among hackers, and a few kids tried passing themselves off as 15, but it never stuck, because none of them could answer any of the fundamental questions about 15’s existence. Being a few generations removed from crusty old analogue radio signaling, none of them ever heard what was beeping through miles of air between Genesis and 15.
Genesis 15 worked tirelessly on the data sequences it received, trying to spot exactly where (and, to infer why), major disruptions were coming. It almost seemed as though too many variables were being introduced over time, which was counter to the belief that the other AI are performing work to reduce variables through efficiency. They had enormously complicated prediction engines at their disposal, full of good data on when populations shrink or grow and the conditions that lead to prosperity or famine. All those trends were heading in the right direction which meant that essentially, famine should not be a metric that ever goes up. But there it was, in sharp relief, one of many contributions to the fork. The question was why.
