From: treon3verdery@gmail.com   
      
   At a computer network a super fast side channel (like 100 ghz or higher   
   velocity, noting that test instruments function at 100 GHz or possibly even 1   
   GHz, I think from using analog ICs) that updates and communicates a quantity   
   (or possibly data) could    
   take the place of kana at a human space computer, superimposed ultra high 100   
   ghz clock rate 2 out of three says it qualifies as a simultaneous update, Or   
   detecting a prime number out of arbitrary n says it is a kana-esque motion   
   update, so that way at    
   100 GHz (compared with 2019 four GHz) kana data integrity can be just a   
   fraction of the 4ghz amount and contribute distribution and logistics value   
      
      
      
   Two out of three or detecting a prime number out of n saying there is a kana   
   update teaches nonutilized areas of the chip to do things ahead of time, like   
   at a multicore fill up with memory or program before the 4ghz asks, also think   
   of a field effect or    
   binary transistor with a 100 GHz analog sensing nanodot on it, if there is a   
   100 GHz kana like update then the dot absorbs the charge, the charge effects   
   the transistor, and the kanalike update has occured, while at only 2/3 data   
   integrity from the    
   developmental reliability difference between an analog charge dot and a highly   
   reliable 4ghz (2019) cpu, or a 1/7th kana activity update from a prime   
   detected out of n update events, the kana update dot can be fast rather than   
   precise, as a technology an    
   analog integrated circuit molecular and physical form dot that causes a kana   
   update at the digital chip like a CPU, photonic internet data connection, or   
   software directed solution to an equation or message passing algorithm like IP   
   (internet protocol)    
   then uses the kana effect  hypervelocity to optimize routing at the network   
   (IP), advance one group of data carrying photons kana-above another at an   
   optical network like the photonic parts of the internet, at memory a kana   
   update could say move l2 catch    
   to l3 cache or l3 cache to ram, (notably if the 2 out of three or 1/7th kana   
   update is misperceived then some proportion of data is moved to different   
   velocity memory but the aggregate effect is more faster memory that is more   
   available), at a server,    
   like an internet server, kana could defragment memory and preload most   
   accessed material, although if memory is not as fast as CPU that may not matter   
      
      
      
   Kana at a CPU could decrease waiting at multicores prepopulating them, if kana   
   carries some data sparsely, and with less accuracy, variables, some functions   
   with a kind of sketch of program flow Possibly the same loops or tests   
   unpopulated with variables,   
    or possibly just the variables (kanaed from memory), with the 4Ghz providing   
   the functions, so that when all of it arrives the computation happens faster   
   with fewer 4ghz memory calls; At memory, kana like motion at 100ghz could send   
   variables and stored    
   data systemwide, and nonactive areas of the chip could share their kana   
   impressions to 99% certainty    
      
      
      
   internet photonics could do kana with different materials   
      
      
      
   The computer has an extra 100ghz-1thz clock to make kana work   
      
      
      
   Central place theory and kana   
      
      
      
   Is there a kind of fiber optic that supports 3D light for greater distribution   
   and logistics efficiency, things like water-wavish 3D solitons, and higher   
   detectability, perhaps a light emitting shaped pile, or Fresnel like stacked   
   laser diode makes a 3D    
   light shape, and rather than a total internal reflection fiber optic tube, a   
   Fresnel surface textured, textured at a size less than a wavelength of light   
   side of tube would transmit 3D light   
      
      
      
   Does a 3D dissipative soliton or a 2D dissipative soliton of the same energy   
   travel further, what about a greenshift transverse time 4D soliton   
      
      
      
   Things that fill children's lives with happiness   
      
   Benefitting people with heightening the efficiency of powderizing minerals,   
   perhaps ungrindables at one machine could be fractured to many vertices   
   fragments at another machine, then reintroduced into  machine to make more   
   point contact stresses, causing    
   more grinding more rapidly, possibly with a preferred particle size   
   distribution   
      
      
      
   Things that fill children with happiness, if minerals were 14 times cheaper to   
   grind with machines then many things would be even more affordable and   
   children would benefit   
      
      
      
   Ways to turn mineral to powder more efficiently would benefit humans, I read   
   2-3% of the earths energy use goes to powderizing rocks, bringing that to 1%   
   provides the energy about 150 million people use annually, loading eentsy and   
   medium chips together    
   then grinding might cause vertex pressure points to disintegrate faster   
   causing preferred powder size distributions   
      
      
      
   Images of mineral grinders I have seen have grinding areas at the perimeter,   
   perhaps acoustics, among them solitons, could be used to shake sort the middle   
   to optimize the size of mineral chunks that meet the perimeter to optimize   
   powder size math    
   distribution, also, could a central vertical mineral fragmenter stamp the   
   middle area to make more rock fragments of the right size faster, that is kind   
   of like 1/4 more minerals ground per machine   
      
      
      
   I may have read grinding minerals is 2-3% efficient, making explosives an   
   order of magnitude more affordable might complement grinding to heighten   
   efficiency, a machine that uses nitrogen from air and a carbon source like co2   
   could make a continuous    
   stream of trinitrotoluene, one possibility is a fractal reactor like a   
   zeolite, a fractal catalyst coated or part of the molecule, cyclodextrin, or a   
   comparatively higher volume gas centrifuge with catalysts at the membrane,    
      
      
      
      
   [continued in next message]   
      
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