Image sensor alignment in a multi-camera system accelerator architecture
First Claim
1. A camera system, comprising:
- a first image sensor chip configured to produce first image data representative of light incident upon the first image sensor chip;
an image capture accelerator chip (“
ICA”
) comprising;
a compression engine configured to decimate the first image data into a plurality of first image sub-band components; and
one or more outputs configured to output the first image data and a first image sub-band component; and
an image signal processor chip (“
ISP”
), the ICA coupled between the first image sensor chip and the ISP, the ISP comprising;
one or more inputs configured to received the first image data, the first image sub-band component, and a second image sub-band component representative of second image data from a second camera system, the second image data representative of light incident upon a second image sensor chip of the second camera system; and
an alignment engine configured to adjust a first field of view of the first image sensor chip or a second field of view of the second image sensor chip based on the first image sub-band component and the second image sub-band component.
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Accused Products
Abstract
An image capture accelerator performs accelerated processing of image data. In one embodiment, the image capture accelerator includes accelerator circuitry including a pre-processing engine and a compression engine. The pre-processing engine is configured to perform accelerated processing on received image data, and the compression engine is configured to compress processed image data received from the pre-processing engine. In one embodiment, the image capture accelerator further includes a demultiplexer configured to receive image data captured by an image sensor array implemented within, for example, an image sensor chip. The demultiplexer may output the received image data to an image signal processor when the image data is captured by the image sensor array in a standard capture mode, and may output the received image data to the accelerator circuitry when the image data is captured by the image sensor array in an accelerated capture mode.
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Citations
20 Claims
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1. A camera system, comprising:
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a first image sensor chip configured to produce first image data representative of light incident upon the first image sensor chip; an image capture accelerator chip (“
ICA”
) comprising;a compression engine configured to decimate the first image data into a plurality of first image sub-band components; and one or more outputs configured to output the first image data and a first image sub-band component; and an image signal processor chip (“
ISP”
), the ICA coupled between the first image sensor chip and the ISP, the ISP comprising;one or more inputs configured to received the first image data, the first image sub-band component, and a second image sub-band component representative of second image data from a second camera system, the second image data representative of light incident upon a second image sensor chip of the second camera system; and an alignment engine configured to adjust a first field of view of the first image sensor chip or a second field of view of the second image sensor chip based on the first image sub-band component and the second image sub-band component. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for aligning image sensors in a multi-camera system, comprising:
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capturing, by a first image sensor chip, light incident upon the first image sensor chip to produce first image data representative of the captured light; receiving, by an image capture accelerator chip (“
ICA”
), the first image data from the first image sensor chip;outputting, by the ICA, the first image data to an image signal processor chip (“
ISP”
);decimating, by the ICA, the first image data into a plurality of image sub-band components; outputting, by the ICA, a first image sub-band components of the plurality of image sub-band components to the ISP; accessing, by the ISP, a second image sub-band component representative of second image data from a second camera system, the second image data representative of light incident upon a second image sensor chip of the second camera system; and adjusting, by the ISP, a first field of view of the first image sensor chip and a second field of view of the second image sensor chip based on the first image sub-band component and the second image sub-band component. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A multi-camera system comprising, comprising:
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a first camera comprising; a first image sensor chip corresponding to a first field of view, the first camera configured to produce first image data representative of light incident upon the first image sensor chip; a first image capture accelerator chip (“
ICA”
) configured to output the first image data for processing and to decimate the first image data to produce a first image sub-band component; anda first image signal processing chip (“
ISP”
) configured to process the first image data;a second camera comprising; a second image sensor chip corresponding to a second field of view, the second camera configured to produce second image data representative of light incident upon the second image sensor chip; a second image capture accelerator chip (“
ICA”
) configured to output the second image data for processing and to decimate the second image data to produce a second image sub-band component; anda second image signal processing chip (“
ISP”
) configured to process the second image data; andan alignment engine configured to adjust the first field of view of the first image sensor chip or the second field of view of the second image sensor chip based on the first image sub-band component and the second image sub-band component. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification