Technology Development Projects

Optical Computing – Focal Point and Distance for Processing

 

The central processing unit for optical computing could simply be a tunnel, in which light sources are directed around focal points and distances on a long cylindrical tube, which computes for different values based on the input of light along the vertex(es) or focal point(s) that are targeted with the light. An example would be to add two numbers, you would simply send the light to one focal point on the adder focal point center, and then the light would come back into the adder from the focal point, and you could then add it to another focal point of light that would vary based on its angle and distance to the focal point that it terminates, based on the value of the number.

 

The actual cylindrical tube could be used to compute numbers on very minimal amounts, such as binary numbers, or 0’s and 1’s, however the combination of different light sources at the same time would determine which binary numbers were lit up along the focal point(s) or vertex(es) of the light paths inside the central processing unit.

 

This idea has been festering for a long time, but it’s true realization occurred yesterday, in COMP 530, in which Assembly Language was explained, in addition to how the Arithmetic Logic Unit works in a CPU, and how Registers and Main Memory works with the CPU.

 

The optical computer could essentially replace the electronic CPU, while it would still require electronic parts, but its timing cycles would be much faster – at the rate that light can be generated and realized inside the central processing unit of the optical computer.

 

Previous invention documentation supports this development, such as the multi-focal point optical cabling, which has points of exit along the cable, which can re-route to different places based on the multi-mode cabling – in addition to the multi-focal point emitter.

 

Geospatial Optical Conveyor

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This technology pertains to a conveyor that is made of a flexible clear optical circuitry that lights up a three-dimensional geospatial grid based on the locations / calibrations of manufacturing, and the technology is able to sense where the components are installed, the precision of the manufacturing, and the quality of the optical components on the optical circuitry board on the optical circuitry manufacturing line. This conveyor may use a secondary system to move the optical circuitry, such as a mechanical robotic movement process and/or a pneumatic movement process.

Optical Condenser

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This technology uses one-way mirrors that are insulated for light and heat in one direction, in addition to the combination of light sources inside the optical condenser, such that the light reaction takes place inside the optical condenser, the light reaction can be duplicated multiple times to build up the energy inside the optical condenser, and then the total build-up of energy can be released all at once.

 

Optical Sound

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This technology may pertain to the use of various types of mirrors and optical membranes that create sound when certain types of light are passed in ways through and/or on the mirrors / membranes.

 

Optical Tunnel Light Scanning Sensor

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This sensor works through using a light to scan the light that passes through the optical tunnel, such as converging the light inwards into the center of the optical tunnel, or a light spread of the length of the light tunnel, to determine what types of light are in the light tunnel. This type of light scanning sensor can also be used in particle stream conduits and test instruments.


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