It is offered concept of the building high-performance linear- algebraic optoelectronic spatial processor for parallel processing the matrixes in system of the analysis of the scenes. The Processor realizes the arithmetic-logical operations of the parallel processing the matrixes, day set bit plane, as well as on their base scaling, tumbling, separation sidebar images. Happen to the results of the basic researches of the parallel mathematical models to organizations of the computing processes, algorithm and structures for algebraic adding, multiplying, division, matrix inversion. Their particularity there is removing the restrictions on dimensionality of the processed matrixes. They are evaluated main parameters proposed optoelectronic processor marketed on SEED-instrument. The Supposed level to capacity under digital accuracy of the calculations is found at a rate of 103 MFLOP.
In present time the problem ofcreation ofsystems with an artificial intelligence is most actual. The devices of technical sight are one from making such systems. A method reception of images, preprocessing of images and image analysis concern to these problems. Optoelectronic element base is optimally to use for fi.ilfilment of such algorithms. The selection of necessary methods for preprocessing images is a task ofthis activity. Also circuitry for the optical integral circuit (OIC) needs to be offered. It should realize these methods. Also knowhowfis needed to be offered for such OIC.
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