Radiation tolerance experiment for a dynamically reconfigurable vision architecture

MINORU, WATANABE and SHOJI, KAWAHITO (2014) Radiation tolerance experiment for a dynamically reconfigurable vision architecture. In: Second International Conference on Advances in Computing, Electronics and Electrical Technology - CEET 2014, 20 - 21 December, 2014, Kuala Lumpur, Malaysia.

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Recently, autonomous vehicles and robots demand high-speed image recognition capability that is superior to that of the human eye, in addition to capability of recognizing various natural images just like humans can. However, to realize both, the bus bandwidth of current memories is insufficient. Such an embedded system necessitates the use of numerous highresolution template images on a memory. Although the amount of memory is always sufficient, the transfer speed of template images is insufficient. To increase the number of recognition images, the number of template images must be increased. In addition to realizing rapid recognition, numerous template images must be transferred to a processor. Then a matching operation must be executed within an extremely short period. However, achieving such high-speed real-time image recognition operation is difficult because of the bottleneck of the bus bandwidth between the memory and processor. A dynamically reconfigurable vision architecture is suitable to alleviate that bottleneck. This paper presents radiation tolerance analysis of configuration contexts on a holographic memory used for the dynamically reconfigurable vision architecture.

Item Type: Conference or Workshop Item (Paper)
Uncontrolled Keywords: Field programmable gate arrays, Optically reconfigurable gate arrays
Depositing User: Mr. John Steve
Date Deposited: 26 Apr 2019 04:36
Last Modified: 26 Apr 2019 04:36
URI: http://publications.theired.org/id/eprint/1481

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