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sbc
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Fast-UXGA Frame Grabber Series
The Fast-UXGA frame grabber series is for users who anticipate a demand for extreme I/O requirements or higher bandwidth, complex image processing and real-time fast storage in a cost effective platform.
The base Fast-UXGA, is a raw-length PCI board with two (four-mixed) UXGA analog conversion channels using Analog Device's AD9888.
The front end data is formatted and preprocessed by a FPGA before being sent to the memory subsection, processor, GigE interfaces or other outputs.
Finally, the Fast-UXGA interfaces to the host computer through a PCI-X or 4x PCIe interface for state-of-the-art data acquisition.
Options include the addition of multiple (8) Serial ATA (SATA) 150 MB/sec interfaces for continuous high-speed data storage without the usual OS or host bus transfer delays.
preview:
http://www.alacron.com
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sbc
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Fast-X-PCIe PCI Express Boards
The base Fast-X, is a one-half raw-length PCI board with four GigE ports and/or three basic 85 MHz Camera Link Channels and more which provide input for the newest cameras as well as a header for adaptation of other high speed interfaces.
The Fast-Xe frame grabber series is for users who anticipate a demand for extreme I/O requirements or higher bandwidth, complex image processing and real-time fast storage in a cost effective platform.
The base Fast-X, is a one-half raw-length PCI board with four GigE ports and/or three basic 85 MHz Camera Link Channels and more which provide input for the newest cameras as well as a header for adaptation of other high speed interfaces.
preview:
http://www.alacron.com
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sbc
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FastImage 1303 PCI Board
FastImage1303 is an Autonomous Imaging System (AIS) that offers a balanced architecture of flexible I/O and processing power with computational and memory bandwidth, typically required by demanding, real-time imaging, vision, and DSP applications.
And FastImage1303 is based on the TriMedia TM1302 microprocessor from Philips Semiconductors.
preview:
http://www.alacron.com
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overview
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Digital image processing @ Wikipedia
Digital image processing is the use of computer algorithms to perform image processing on digital images.
As a subfield of digital signal processing, digital image processing has many advantages over analog image processing; it allows a much wider range of algorithms to be applied to the input data, and can avoid problems such as the build-up of noise and signal distortion during processing.
Contents [hide] 1 History 2 Tasks 3...
preview:
http://en.wikipedia.org
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overview
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Image Processing @ Wikipedia
In electrical engineering and computer science, Image processing is any form of signal processing for which the input is an image, such as photographs or frames of video; the output of image processing can be either an image or a set of characteristics or parameters related to the image.
Most image-processing techniques involve treating the image as a two-dimensional signal and applying standard signal-processing techniques to it. Image...
preview:
http://en.wikipedia.org
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paper
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Image Quality Issues When Using Modern Graphics Technology in Embedded Displays
Embedded displays are used for presenting mission or safety critical information to vehicle and weapons systems operators.
They must be displayable on different display media types at varying resolutions, and must be readable in different conditions, from night-dimmed through direct sunlight and cloud deck whiteout.
Legacy display symbology, especially in military systems, can be cluttered and difficult to use, and exhibits poor image...
preview:
http://www.quantum3d.com
date: 1/1/2003
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paper
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Video and Image Processing Design Using FPGAs
In this paper, we will look at the trends in video and image processing that are forcing developers to re-examine the architectures they have used in the past.
This paper will discuss the tradeoffs of different architectures and conclude with details and benchmarks for Altera's new solutions in this area.
With low-cost FPGAs and structured ASICs, high-definition solutions can now be implemented for less than US$1.00 per 1,000 logic...
preview:
http://www.altera.com
date: 3/1/2007
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