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A new microchip is suitable for AI.




Image 1) 

A new microchip with AI optimization can increase the power of AI. The diagram above this text shows how a two-layer structure can turn to emulate the human brain. In that model, the computer sends signals between those two layers as human brains do. At first, the first or primary layer of that microchip will preprocess dataflow and then the other or secondary layer will check that result. If the processor has the third layer. 

It can emulate the diencephalon that makes the decision would the thing stored in memory. And also the third layer can select from decisions. In the cases where the decisions of the main cores have differences. That denies the stuck of the computer if those processor's two main cores are used for the same operand same time. If those two cores make a different decision the system must select the better one. And if that system is installed on robots, there is required the possibility make forced decisions by using probably two non-perfect options. 

The system must sometimes make fast decisions. In those cases, the system has no time to retake the calculations. So the robot must select the decisions that the two main cores of the processor process. But that thing where the system must select fast by using maybe two bad choices is important only if the system must make fast decisions. 

There is also the possibility that the system will use both layers at the same time. And then there is the third, one-layer processor that checks if those layers will get the same result. If the results are the same, the third processor can send the result forward. And if those two main layers will get a different result. The third processor will select the better one. 

In virtual quantum computers, the regular computer shares the data flow between processors. And then those bites of dataflow must just be reconnected back to one entirety. That thing can increase the power of the regular processors. In virtual quantum computers, the gate processor will share the data flow in bites. Those bites will send to the different microchips. 

And when those microchips made their job. The system will just put those bites of data flow into one entirety. If the dataflow bites are marked with serial numbers. The computer must not wait until all processors are ready in a certain order. In this case, where the order of those processors is wrong the system can store the data in memory (hard disk etc.), and wait until all processors are ready. Then the computer can sort those data bites by using the serial numbers. This thing makes it possible that the computer can be more flexible. 


https://techxplore.com/news/2022-10-chip-ideal-ai.html


Image 1) https://techxplore.com/news/2022-10-chip-ideal-ai.html

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