Guided flash LiDAR

What is claimed is: 1 . A method of generating a lidar image comprising: receiving a distance value for one or more pixels in a lidar system; in the one or more pixels, accumulating photon counts over a number of cycles for bins in a range, where the range is determined by the distance value; and using the accumulated photon counts to generate an image. 2 . The method of claim 1 wherein the distance value is provided by a stereo camera. 3 . An electronic system comprising: a stereo camera; and a lidar system coupled to the stereo camera, wherein the stereo camera is configured to provide time intervals to the lidar system. 4 . The electronic system of claim 3 wherein the lidar system uses the provided time intervals to determine which bins to accumulate photon counts for. 5 . A method of generating a lidar image, the method comprising: acquiring images using a stereo camera; generating stereo depth estimates; mapping the stereo depth estimates to lidar sensor pixels; converting the stereo depth estimates to coarse time intervals; providing the coarse time intervals to a lidar system; and acquiring lidar data with the lidar system. 6 . The method of claim 1 wherein the distance value is provided using previously accumulated photon counts. 7 . The method of claim 6 wherein the previously accumulated photon counts are generated for a wider distance and the range is a narrower distance than the wider distance. 8 . The method of claim 7 wherein the distance value is provided by binning the previously accumulated photon counts. 9 . The method of claim 8 wherein the range is determined by: generating a narrowed window centered at least approximately on a peak; and using the narrowed window as the range. 10 . The method of claim 2 further comprising: using the stereo camera to determine a coarse depth estimate; and using the coarse depth estimate to determine the range. 11 . The electronic system of claim 4 wherein the stereo camera is configured to determine coarse depth estimates and to use the coarse depth estimates to provide the time intervals to the lidar system. 12 . The electronic system of claim 11 wherein the stereo camera is configured to: acquire camera images; use the acquired camera images to generate stereo depth estimates; and map the stereo depth estimates to lidar sensor pixels. 13 . The electronic system of claim 12 wherein the stereo camera is further configured to: convert the stereo depth estimates to time intervals; and provide the time intervals to the lidar system. 14 . The electronic system of claim 13 wherein the lidar system is configured to acquire lidar data over the time intervals. 15 . The method of claim 5 wherein the stereo depth estimates are generated using the acquired camera images. 16 . The method of claim 15 wherein the lidar data is acquired by the lidar system for the coarse time intervals.