A 10 000 fps CMOS sensor with massively parallel image processing

Catégorie

Journal Article

Auteurs

Dubois, J., Ginhac, D., Paindavoine, M., Heyrman, B.

Année

2008

Titre

A 10 000 fps CMOS sensor with massively parallel image processing

Journal / Livre / Conférence

IEEE Journal of Solid-State Circuits

Résumé

A high-speed analog VLSI image acquisition and preprocessing system has been designed and fabricated in a 0.35 mu m standard CMOS process. The chip features a massively parallel architecture enabling the computation of programmable low-level image processing in each pixel. Extraction of spatial gradients and convolutions such as Sobel or Laplacian filters are implemented on the circuit. For this purpose, each 35 pin x 35 mu m pixel includes a photodiode, an amplifier, two storage capacitors, and an analog arithmetic unit based on a four-quadrant multiplier architecture. The retina provides address-event coded output on three asynchronous buses: one output dedicated to the gradient and the other two to the pixel values. A 64 x 64 pixel proof-of-concept chip was fabricated. A dedicated embedded platform including FPGA and ADCs has also been designed to evaluate the vision chip. Measured results show that the proposed sensor successfully captures raw images up to 10 000 frames per second and runs low-level image processing at a frame rate of 2000 to 5000 frames per second.

Issue

3

Volume

43

Pages

706-717

Téléchargement

Télécharger cette publication au format PDF

‹ Retour à la page précédente