Charbon, EdoardoBruschini, ClaudioLee, Myung-Jae2019-06-182019-06-182019-06-182018-01-0110.1109/ICECS.2018.8617983https://infoscience.epfl.ch/handle/20.500.14299/156946WOS:0004589651000013Dstacked CMOS SPAD based image sensors hold the promise for better sensitivity and more functionality per pixel. The technology enables to separate detection from computation onto different chips, or tiers, that are stacked onto one another. One advantage is to be able to independently optimize detection and processing in dedicated processes. Another is to achieve extremely low skews across large chips, thus enabling accurate timing over multi-megapixel image sensors. A further advantage is the potential of implementing advanced functionality requiring large arrays of computational units directly connected with the detectors, thus paving the way to onchip convolutional neural networks and deep learning engines. In this paper we review several technologies enabling this interesting evolution and examples of possible implementations in the context of actual applications.Engineering, Electrical & ElectronicEngineeringbackside illuminationbiomedical sensorcmosgeiger-mode avalanche photodiode (g-apd)image sensorlight detection and ranging (lidar)optical sensorphoton countingsensorsiliconsingle-photon avalanche diode (spad)single photon detectorsingle-photon imagingsingle-photon sensorthree-dimensional integrated circuitstime-of-flight imagingtime to-digital converter (tdc)text::conference output::conference proceedings::conference paper