Hooking NanoCells Together

The point of using a voltage in - voltage out model with bistable latches for restoring logic is to eventually hook multiple NanoCells together to work in unison. This has been a very difficult problem and we are still trying to 

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In this section, various areas of future research are discussed. First improvements in training individual NanoCells are covered, and then strategies for hooking NanoCells together are addressed. This is followed by a section on dropping the assumption of omnipotence for more realistic mortal training. The section concludes with the subject of proofs concerning trainability. 

Although, the problem of omnipotently training a NanoCell has been thoroughly explored in this chapter, there are still some potential improvements that should be explored. In the next section the issue of hooking NanoCells together is addressed. 

Another potentially advantageous addition to training a NanoCell is connectability . In other words, train a NanoCell so that it is easily connected to other NanoCells. One strategy for doing this is to pick some target such as the overall resistance of a NanoCell. When two NanoCells are hooked together, one looks simply like a resistor to the other. Therefore, if a NanoCell were trained with some resistor hooked to each output and trained for some target resistance, then that NanoCell should be easily wired to another NanoCell with similar overall resistance. 

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