Fluorescence image registration method, gene sequencing instrument, and storage medium

What is claimed is: 1. A fluorescence image registration method applied to a biochip, a pixel distance between track lines on the biochip being set according to template parameter, the fluorescence image registration method comprising: obtaining at least one fluorescence image of the biochip; selecting an interior local area of the fluorescence image by: selecting an area of 80% of a width along a first direction and 10% of a length along a second direction of the fluorescence image as the interior local area, the first direction being perpendicular to the second direction; obtaining sums of pixel values in the interior local area of the fluorescence image respectively along the first direction and the second direction, comprising: selecting a plurality of second template lines; moving the plurality of second template lines in the interior local area of the fluorescent image respectively along the first direction and the second direction; and calculating a sum of pixel values in grayscale in the interior local area of the fluorescent image covered by the plurality of second template lines, wherein the sum of pixel values in grayscale is a sum of the gray values of the pixels covered by the plurality of second template lines; selecting a plurality of first template lines according to the template parameter, traversing the sums of pixel values respectively along the first direction and the second direction by the plurality of first template lines, to find a minimum total value of the sums of pixel values corresponding to the plurality of first template lines respectively along the first direction and the second direction, a position of the minimum total value along the first direction or the second direction corresponding to a position of the track line along the first direction or the second direction, a pixel distance between two first template lines being constant, and the pixel distance between each two first template lines is different; performing pixel-level correction on a local area of the track line, and the track cross of the track lines after the pixel-level correction being a pixel-level track cross, comprising: obtaining the sums of pixel values of the local area of the track line along the first direction and the second direction respectively; selecting a plurality of third template lines spaced apart from each other by a predetermined distance, to find the sums of pixel values of the local area of the track line by traversal; obtaining a minimum total value of the sums of pixel values corresponding to the plurality of third template lines; and obtaining the pixel-level position of the track line according to a position corresponding to the minimum total value; obtaining other track crosses on the biochip according to the pixel-level track crosses, and performing the pixel-level correction on the other track crosses; correcting a position of the pixel-level track line by a center-of-gravity method to obtain a subpixel-level position of the track line; and obtaining subpixel-level positions of all sites uniformly distributed on the biochip by equal-size grids dividing method. 2. The fluorescence image registration method of claim 1 , wherein “selecting a plurality of first template lines according to the template parameter, traversing the sums of pixel values respectively along the first direction and the second direction by the plurality of first template lines, to find a minimum total value of the sums of pixel values corresponding to the plurality of first template lines respectively along the first direction and the second direction” comprises: selecting the plurality of first template lines according to the template parameter; calculate a total value of the sums of pixel values respectively along the first direction and the second direction corresponding to the plurality of first template lines; and obtaining the minimum total value among the total value of the sums of pixel values. 3. The fluorescence image registration method of claim 2 , wherein the interior local area of the fluorescence image comprises at least one track line along each of the first direction and the second direction. 4. The fluorescence image registration method of claim 3 , wherein “obtaining the pixel-level position of the track line according to a position corresponding to the minimum total value” comprises: obtaining a pixel-level position of a valley of W-shaped line according to the position of the minimum total value, wherein the sums of pixel values of the local area of the track line comprises the W-shaped line; and obtaining the pixel-level position of the track line according to the pixel-level position of the valley. 5. The fluorescence image registration method of claim 4 , wherein “correcting a position of the pixel-level track line by a center-of-gravity method” comprises: obtaining a local area of the pixel-level track line; obtaining a center of gravity of the local area of the pixel-level track line; and obtaining a subpixel-level position of the track line according to the center of gravity. 6. The fluorescence image registration method of claim 5 , wherein “obtaining subpixel-level positions of all sites uniformly distributed on the biochip by equal-size grids dividing method” comprises: obtaining a block area formed by the track crosses of two adjacent subpixel-level track lines along the first direction and the second direction, wherein the sites are arranged on the block area according to a preset rule; and obtaining the subpixel-level position of all the sites on the block area by the equal-size grids dividing method. 7. A gene sequencing instrument, comprising: a processor; and a memory storing one or more computer programs, which when executed by the processor, cause the processor to: obtaining at least one fluorescence image of the biochip; selecting an interior local area of the fluorescence image by: selecting an area of 80% of a width along a first direction and 10% of a length along a second direction of the fluorescence image as the interior local area, the first direction being perpendicular to the second direction; obtaining sums of pixel values in the interior local area of the fluorescence image respectively along the first direction and the second direction, comprising: selecting a plurality of second template lines; moving the plurality of second template lines in the interior local area of the fluorescent image respectively along the first direction and the second direction; and calculating a sum of pixel values in grayscale in the interior local area of the fluorescent image covered by the plurality of second template lines, the sum of pixel values in grayscale is a sum of the gray values of the pixels covered by the plurality of second template lines; selecting a plurality of first template lines according to the template parameter, traversing the sums of pixel values respectively along the first direction and the second direction by the plurality of first template lines, to find a minimum total value of the sums of pixel values corresponding to the plurality of first template lines respectively along the first direction and the second direction, a position of the minimum total value along the first direction or the second direction a position of the track line along the first direction or the second direction, a pixel distance between two first template lines being constant, and the pixel distance between each two first template lines is different; performing pixel-level correction on a local area of the track line, and the track cross of the track lines after the pixel-level correction being a pixel-level track cross, comprising: obtaining the sums of pixel values of the local area of the track line along the first direction and