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An optical computer is a device that uses photons to carry out calculations rather than the more common electrons. With the aid of an optical processor, may examine images and modify them in numerous ways. Two equal converging lenses with focal lengths of f and a separation of 2f make up a typical optical processor.
An optical computer, also known as a photonic computer, is a device that performs digital computations using photons in visible light or infrared (IR) beams as opposed to electric current. The speed of an electric current is just some percent of the speed of light.
The ability to process vast amounts of data is optical processing’s main benefit. The low-level aspects of the eyesight problem benefit the most from this advantage.
In terms of the practicality of applications like those outlined here as well as the application of optical techniques to the high-level components of the vision problem, current work on optical computing may drastically alter this picture.
Applications include data collecting, feature extraction, and pattern recognition, as well as potential new fields of optical computing research that could be explored in the future.
The Global optical processing machine market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Nikon Corporation is happy to announce the availability of the new Lasermeister 102A optical processing machine, which can manufacture titanium alloy additively.
The Lasermeister series is a line of original metal processing equipment from Nikon that uses high precision lasers to carry out various metal processing tasks, enabling laser marking and welding in addition to additive manufacturing capabilities similar to those of a 3D printer.
With a small footprint and a multitude of metal processing options, Nikon first introduced the Lasermeister 100A. , the Lasermeister 101A, the successor, was released.
The Lasermeister 102A is a more expensive model that maintains the Lasermeister 101A’s 5-axis control system while adding additional features and a smaller overall size to the device. A new powder type called titanium alloy has been added, and it gives a modelling speed that is about twice as fast.
