In the brain, there is perhaps about 1 terabyte of static neural capacity given 6e10 neurons, 1000 synapses per neuron, and a 0.14 Hopfield information reduction factor. This is the upper limit for the information content of a single aware matter packet, a moment of thought, and that maximal packet would involve the whole brain. Most neural packets carry much less information and a single retinal packet, for example, might carry only as much as 16 mb, and typically far less information.
Unlike linear computers that store and retrieve data packets composed of bytes, aware matter packets carry information as superimposed coherent bilateral aware matter states at 64 independent frequencies or colors. This is like the information content of a modulated 64 color laser with 16 levels of intensities for each color, but with a fundamental color mode of just 1.6 Hz.
The neural EEG of aware matter...can hold a large amount of information with its coherent aware matter zoo, but the neural capacity of the brain, ~1 tb, limits the total thought during a day. This would be about 92,000 eleven mb images per day, for example, as our most intensive information need, roughly one image per delta cycle during 16 hours. This would be the information capacity of the brain before a sleep cycle to dephase the aware matter packet for the next day's experience. One of the two basic functions of sleep are now clear; dephasing aware matter packets back to raw aware matter by disengaging all mimes of sensation and action.
Although aware matter packets can hold a great deal of information, the action of thought limits any information transfer to about 10 Hz, i.e., human response time that is how long it takes us to think. As moments of thought stack up while we are awake, each thought would be coded with 4 modes for a total of 16^4 = 65,000 moments per day, which seems about right. At 10 Hz, it would take about 2 hours of deep sleep to compress and write the typical 65,000 aware matter packets into a permanent memory of the day. Memory is a second very important function for sleep.
For example, aware matter can either excite or inhibit other aware matter and form aware matter accretions or packets. Attractors tend to acrete and repellers tend to separate, but both attractors and repellers are the basic building blocks of neural networks that store static information as both excitations and inhibitions. Essentially aware matter is a adaptive dynamic cognitive neural network that stores information not only as the amplitude of aware matter modes, but also as the phase or timing among those modes.
Aware matter seems to be a very similar quantum fluid and form real, measurable particles that exist as fermions instead of the bosons that are light's photons and so aware matter bonds into packets. When aware matter adapts to the mimes of either or both sensation and realization, we call that a thought or experience or sensation. Aware matter packets can continue to accrete into larger and more complex packets that we associate with experience.
Aware Matter Spectra as EEG WavesEach aware matter packet is a superposition of aware matter modes and its collective electrical activity is an EEG spectrum. Aware matter packets will have certain properties that all scale from its fundamental frequency, 1.6 Hz, which is called the delta or heartbeat EEG wave. Each state of aware matter will be some multiple of this fundamental mode as dimers, trimers, tetramers, etc., of aware matter and a single aware matter packet could involve the entire brain.
It turns out that one particular mode, the alpha EEG mode at 11 Hz, is particularly prominent in the EEG. Evidently this mode is associated with a 7-mer aware matter of the eye. In the figure, the foveal cone is the most sensitive part of the retina and its basic symmetry is the 7-mer and 7 x 1.6 = 11 Hz.
Correspondingly, there are 7 million cones in a retina, but only 1 million neurons to carry that information to the aware matter packet, a 7:1 information reduction. Each retinal image represents about 16 mb of Hopfield information, but the packet only stores features that resonate with mimes.
Aware Matter Packets and Internet PacketsThe packets of internet protocol also have a two way error correcting protocol and ways for routers to direct packets, but packet information does not change in the process. In fact, much effort goes into avoiding any changes or errors in the packet information.
The information in a single packet of aware matter is a dynamic quantum cognitive substance that is limited by a Hopfield neural capacity of about 1 tb. That appears to be able to hold a whole lifetime of information in the phase and intensity of its modes, but this seems to be the limit for a day's worth of experience or about 16 hours. As aware matter mimics its sensory patterns and resonates with its mimes, aware matter is in some sense self aware as well.
Aware Matter as SleepThere are certain characteristics of sleep that appear during both REM and deep sleep called sleep spindles and K complexes. While these EEG pulses are always associated with normal sleep, their exact role is still not well understood. Here are examples of the frequency versus time chirp of two slightly different sleep spindles observed in two different parts of the brain. see sleep spindles
The spectral chirp of the spindle shows the basic mode of free choice, alpha, as well as an overtone of alpha + 1.5 delta. The K complex is a delta dimer pulse bound by the energy of 0.5 delta and so the delta dimer resonates at 1.5 delta. see K complex spectra
Aware Matter as a Quantum FluidFinally, the quantum wave equation for aware matter is particularly simple and so the wavefunction is simple as well. The EEG spectrum will be sinc functions (sin x / x), which is the Fourier transform of the aware matter wavefunction.
Ea = 2.9e-13 J or 1.8 MeV