Mmmm...i thought cellular application was a function of chromosomes. Perhaps we imply neural adaptation, and not functionality per se?
We'll be pursuing birectional computing (in the sense of a functionally adaptive architecture) within the next 12 months. ________________________________ From: Steve Richfield <[email protected]> Sent: Friday, 12 July 2019 20:09 To: AGI Subject: Re: [agi] The Hardware problem Xilinx uses transmission gates to switch configuration, and transmission gates can also switch analog. Now, if Xilinx would only think of this. There is an argument that the sorts of bidirectional operation that neurons do might be beyond practical digital simulation, just as some circuits are, because of super sensitive rapid changes in component values. Though AI isn't simulation, it is still up against the same computational challenges. The NN parallel would be things like a need for neurons that suddenly change functionality depending on their effect on downstream neurons. Steve On Thu, Jul 11, 2019, 6:38 PM <[email protected]<mailto:[email protected]>> wrote: Xilinx Ships Heterogeneous Chips for AI, 5G: https://www.eetimes.com/document.asp?doc_id=1334898 Artificial General Intelligence List<https://agi.topicbox.com/latest> / AGI / see discussions<https://agi.topicbox.com/groups/agi> + participants<https://agi.topicbox.com/groups/agi/members> + delivery options<https://agi.topicbox.com/groups/agi/subscription> Permalink<https://agi.topicbox.com/groups/agi/Te56d98b1cab7ca45-Mf0d9eb150229ee2d2e0d2f25> ------------------------------------------ Artificial General Intelligence List: AGI Permalink: https://agi.topicbox.com/groups/agi/Te56d98b1cab7ca45-Me2ad5909a597306425886963 Delivery options: https://agi.topicbox.com/groups/agi/subscription
