Imaging multiple chemical reactions in a flow cell array

What is claimed is: 1. A method comprising: placing multiple reaction site openings in a set of surface channels, within a physical element flow cell array, aligned to a first direction, wherein placing comprises positioning the multiple physical reaction site openings within the set of surface channels aligned to a first direction such that a distance between each of the multiple physical reaction site openings is smaller than an optical resolution perpendicular to the optical path of an imaging system, and wherein the distance is less than one micron; connecting at least a portion of the set of surface channels aligned to the first direction to at least a portion of a set of surface channels aligned to a second direction using one or more vias; establishing a designation wherein pairs of the surface channels aligned to the second direction are designated for use with (i) a distinct one of multiple chemical matters, (ii) one or more reaction site openings, among the multiple reaction site openings, designated for use with the distinct one of the multiple chemical matters, and (iii) one or more surface channels of the surface channels aligned to the first direction connected to the one or more reaction site openings designated for use with the distinct one of the multiple chemical matters; delivering, within at least a portion of the physical element flow cell array, the multiple chemical matters to at least a portion of the multiple reaction site openings; imaging, subsequent to said placing, multiple parallel chemical reactions using the imaging system, wherein the multiple parallel chemical reactions comprise multiple instances of biological sequencing, and wherein the distance between two or more of the multiple parallel chemical reactions being imaged simultaneously is greater than the optical resolution of imaging system while the distance between two or more of the other multiple parallel chemical reactions is less than the optical resolution of the imaging system and less than one micron; and securing a cover to seal the multiple reaction site openings.