The ultra-fast photonic polarization is making new photonic microprocessors possible.

First, do you know how to make the photonic gate or photon-based logic gate for the microchip? The photonic logic-gate acts as an electricity or electron gateway. But in the point of the electron is a photon or light ray. And in this point, I must tell you that the logic (Boolean) gate in the microprocessor is not the same as a gateway in telecommunication. 

But the fact is that the light can also use to select the gateway also in telecommunication. This is why the gate that controls data in the microprocessor is called a logic gate. And in telecommunication which means communication between devices the gate is called the gateway. 

The energy level or brightness of the (laser) light can determine the address where the data is transported. The idea of the photonic gateway is that. The light will shoot to the sensor that measures the brightness of the light. And then, a certain level of brightness means a certain address where the system must send the information. 

The photonic microprocessors are the extreme hot stuff in computing. The problem with small-size microprocessors is temperature. Photonic processors do not create as much heat as regular processors. That means they can keep the temperature in the computer low. 

And that thing makes them suitable for nanotechnology. The problem with heat is that it affects things like proteins and enzymes. And nanorobots are operating very close to those chemical compounds. 

Half-organic computers made of living neurons and microprocessors can be more intelligent than humans. The photonic processors can help to keep the temperature in that system low so that heat of those processors will not harm those neurons. 

The photonic microprocessors can also be a powerful tool when researchers create the half-organic microprocessors that are connecting living, cloned neurons to computers. The photonic processors can collect the electric signals of the neurons that live in nutrients and then resend data to computers and other ways. 

The two-way communication between organic- and non-organic layers of that type of microchip makes it possible to create effective, small-size microprocessors that can control man-shaped robots. Living neurons make it possible that a computer can learn like a human. But that kind of system is not like a human. The data modules or new skills can be driven to those neurons very fast by using electric impulses that stress those neurons. These kinds of systems can be more intelligent and effective learning than humans. 

Also, ultra-fast computers can use photonic processors. The reason for that is that it keeps the temperature of the system low. Powerful binary computers are needed to calibrate quantum computers and transform binary data to the mode that the quantum computer can drive it to qubits.

But the thing is that the photonic microprocessors are less vulnerable to electromagnetic radiation like EMP pulses. That makes them suitable to use in robots and communication tools that are operating in extremely powerful electromagnetic radiation. 

https://phys.org/news/2022-06-world-ultra-fast-photonic-processor-polarization.html

https://en.wikipedia.org/wiki/Gateway_(telecommunications)

https://en.wikipedia.org/wiki/Logic_gate

https://miraclesofthequantumworld.blogspot.com/