What is claimed is:1. A welding quality processing method, comprising:obtaining warpage data of each circuit board layer in a multi-layer circuit board under a preset welding temperature change curve;performing simulation according to a stacked state of the multi-layer circuit board and the warpage data to generate a warpage level of each region in the multi-layer circuit board in the stacked state; andprocessing the multi-layer circuit board according to the warpage level.2. The method according to claim 1, wherein the welding temperature change curve comprises one or more of a heating stage curve, a heat preservation stage curve, a welding stage curve, and a cooling stage curve, and the method further comprises:acquiring warpage data corresponding to temperature characteristic points of the welding temperature change curve,wherein the number of the temperature characteristic points acquired in the welding stage curve is greater than that of the temperature characteristic points acquired in the heat preservation stage curve.3. The method according to claim 1, wherein obtaining the warpage data of each circuit board layer in the multi-layer circuit board comprises:obtaining a shadow moire distribution diagram of the multi-layer circuit board under a grating through a shadow moire technique, and calculating a relative vertical displacement of the multi-layer circuit board during a welding process according to the shadow moire distribution diagram.4. The method according to claim 3, further comprising:fitting warpage data of object points matched in the stacked state, comprising:determining warpage data of corresponding object points of two circuit board layers in a vertical direction in the stacked state; andfitting and superimposing relative vertical displacements in the warpage data to form a fitting surface.5. The method according to claim 4, further comprising:obtaining a relative value by comparing the relative vertical displacement of the fitting surface with a reference value;generating the warpage level of each region of the multi-layer circuit board in the stacked state according to a correspondence between the relative value and a first threshold interval.6. The method according to claim 1, wherein the multi-layer circuit board comprises a bottom board, an adapter board, and a top board; wherein the multi-layer circuit board is stacked in a sequence of attaching an upper surface of the adapter board to the top board, and attaching a lower surface of the adapter plate to the bottom board.7. The method according to claim 1, further comprising:obtaining the warpage data by inputting welding simulation parameters and mapping,wherein the welding simulation parameters comprise one or more of a thickness of each circuit board layer, a distance between circuit board layers of the multi-layer circuit board, a material of the multi-layer circuit board, an area of the multi-layer circuit board, and a coverage area of a copper foil.8. The method according to claim 1, wherein obtaining the warpage data of each circuit board layer of the multi-layer circuit board further comprises:obtaining a preliminarily screened region where the warpage data of each circuit board layer is greater than a preset second threshold, andsimulating the preliminarily screened region.9. The method according to claim 1, wherein processing the multi-layer circuit board according to the warpage level comprises adjusting design parameters of the multi-layer circuit board,wherein the design parameters of the multi-layer circuit board comprise one or more of:a residual copper rate of the multi-layer circuit board;a relative position of the multi-layer circuit board;a material of the multi-layer circuit board; anda welding position of a component of the multi-layer circuit board.10. The method according to claim 1, further comprising:equally dividing the multi-layer circuit board into a plurality of square regions; andobtaining warpage data at a center point of each square region.