Diffuser plate for an exhaust aftertreatment module

What is claimed is: 1. An aftertreatment module for treating exhaust of an engine, the aftertreatment module comprising: a housing including an inlet port and an outlet port; a selective catalytic reduction catalyst being disposed between the inlet port and the outlet port; and a diffuser plate disposed downstream of the inlet port and upstream of the selective catalytic reduction catalyst, the diffuser plate including a first section at a center portion of the diffuser plate and a second section that surrounds the first section, wherein the first section includes a first group of first apertures, each of the first apertures having a same configuration with a first unrestricted cross-sectional area aligned with a surface of the diffuser plate to provide a first unrestricted flow passage through the surface, where the first section is configured to have a first degree of porosity, wherein the second section includes a second group of second apertures, each of the second apertures having a same configuration, different from the same configuration of the first apertures, with a second unrestricted cross-sectional area, different from the first unrestricted cross-sectional area, to provide a second unrestricted flow passage through the surface, where the second section is configured to have a second degree of porosity, and wherein the first degree of porosity is greater than the second degree of porosity such that the second section provides a greater flow restriction than the first section such that exhaust passing through the diffuser plate is evenly distributed at an output side of the diffuser plate. 2. The aftertreatment module of claim 1 , wherein the diffuser plate includes a plurality of intersecting ribs forming a grid pattern. 3. The aftertreatment module of claim 1 , wherein the diffuser plate is disposed equidistant from the inlet port and the selective catalytic reduction catalyst. 4. The aftertreatment module of claim 1 , wherein the selective catalytic reduction catalyst includes first, second, and third independently distinct stages of selective catalytic reduction catalysts, the second stage of selective catalytic reduction catalysts being modularly disposed downstream of the first stage of selective catalytic reduction catalysts. 5. The aftertreatment module of claim 1 , wherein the diffuser plate is corrugated to provide robust rigidity. 6. The aftertreatment module of claim 5 , wherein the diffuser plate is arranged horizontally in the housing. 7. The aftertreatment module of claim 6 , wherein the second unrestricted cross-sectional area is less than the first unrestricted cross-sectional area. 8. The aftertreatment module of claim 1 , wherein a total number of the first apertures of the first group of apertures is less than a total number of second apertures of the second group of apertures. 9. The aftertreatment module of claim 1 , wherein each of the first apertures of the first group of apertures is rectangular, and wherein each of the second apertures of the second group of apertures is one of circular or oval. 10. The aftertreatment module of claim 1 , wherein each of the first apertures of the first group of apertures is circular, and wherein each of the second apertures of the second group of apertures is circular. 11. The aftertreatment module of claim 1 , wherein a first total area of the first apertures of the first group of apertures is less than a second total area of the second apertures of the second group of apertures. 12. The aftertreatment module of claim 1 , wherein an entire perimeter of the diffuser plate in a top plan view is solid and free of any apertures. 13. The aftertreatment module of claim 1 , wherein a central axis of the aftertreatment module passes through respective center portions of the inlet port, the outlet port, the selective catalytic reduction catalyst, and the diffuser plate. 14. The aftertreatment module of claim 1 , wherein the first group of first apertures and the second group of second apertures are disposed inward and away from a perimeter of the diffuser plate. 15. The aftertreatment module of claim 1 , wherein the first apertures are uniformly spaced relative to each other, and the second apertures are uniformly spaced relative to each other.