I was right,m count with structured queues. And friggen if Makov was not right, count the error updates and life is a whole lot friggen simpler. There many fewer error updates, as few as numer of bits of precision. That is a wo bit quantity, hald binary and hal rinary in that error term if I quit trying to dodge the three color problem. Embrace the three color, and the error update bins ave much easier to deal with than quantities. The error bins can be assumed maximum entropy, and you then just have to count updates on our three dimensions, very very smart. It worked from kick in the ass fro the new proof. They were counting message, on the gnerators. Great idea, really got me going, who were those folk.
Once I looked ast that binary bit, I knew the spin queue was always at disequiilbrium. That must be true for charge queue. Then I got cancellation in the queue as light emitting and could see that each charge rollover yielded a magnetic release next and that was why magnetisim cannot have a partictle, no mass. Mass it the disequilibrium, the excess inventory in the error queues.
Plank, that guy was brilliant, lets dig him up. Fucking A, count the error updaets,in disequilibrium, tey will always be a short set.
We can write the five dimensional laws of physics for inside a quasar, what a friggen trip, who wold have thought. Getting to five dimensions is about removing the first five probability moments to match all the queues. Modelling the thing as a five dimensional monte carol will let you approximate a five coloring channel. Years ago I went searching for the next bi Avagadros on my spread sheet collider. All I found was the current system. But if I built five poisson, and screwed around with arrival rates, looked for a natural equilirbium, This is the real stuff, a real continuation of the Hurwitz fractiotnal approximation. Poisson, it estimates all the possible combinations, it is integer. Who would a thunk it, it had to be something simple.
That is why everything is a three color, the compression of the error states, they drop fasttert than 1/3. The 3D system maintain the error strutcutre, it is always the same structure.
The atomic orbitals become a breeze. There are the distribution of errror updates when you put disequillibrum charge,spin and mass near the three color. You end up adding error band to you three color. But the electron updates are so large, you can take then and front run them as a update request generator. This model has a kind of distributed algebra when combining generators. But the error updates accepted from the electron channel feed directly in the quark queues. The current error update to the quarks feeds into the electron. Then find the distribution of erro update after all the cancellation have settled. The disequiblirum state of the electron queues is rotated not an nice xyz and you have them.
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