Window variability correction in additive manufacturing

We claim: 1. A method of making an object on a bottom-up stereolithography apparatus, the apparatus including a light source, a drive assembly, and a controller operatively associated with said light source and said drive assembly, with the light source and/or the drive assembly having at least one adjustable parameter that is adjustable by said controller, the method comprising: (a) installing a removable window cassette on said apparatus in a configuration through which said light source projects, said window cassette comprising an optically transparent member having a build surface on which an object can be produced, and with said optically transparent member having and at least one variable property therein, said at least one variable property comprising regional optical distortions comprising at least one region of said optically transparent member that distorts an optical image; and then (b) modifying said at least one adjustable parameter by said controller based on said at least one variable optical property comprising regional optical distortions of said optically transparent member; and then (c) producing the object on said build surface from a light-polymerizable liquid by bottom-up stereolithography. 2. A method of making an object on a bottom-up stereolithography apparatus, the apparatus including a light source, a drive assembly, and a controller operatively associated with said light source and said drive assembly, with the light source and/or the drive assembly having at least one adjustable parameter that is adjustable by said controller, the method comprising: (a) installing a removable window cassette on said apparatus in a configuration through which said light source projects, said window cassette comprising an optically transparent member having a build surface on which an object can be produced, and with said optically transparent member having and at least one variable property therein, said at least one variable property comprising regional optical distortions comprising at least one region of said optically transparent member that distorts an optical image; and then (b) modifying said at least one adjustable parameter by said controller based on said at least one variable optical property comprising regional optical distortions of said optically transparent member; and then (c) producing the object on said build surface from a light-polymerizable liquid by bottom-up stereolithography, wherein said adjustable parameter comprises regional optical corrections of a projected light image that are mapped to said regional optical distortions. 3. A method of making an object on a bottom-up stereolithography apparatus, the apparatus including a light source, a drive assembly, and a controller operatively associated with said light source and said drive assembly, with the light source and/or the drive assembly having at least one adjustable parameter that is adjustable by said controller, the method comprising: (a) installing a removable window cassette on said apparatus in a configuration through which said light source projects, said window cassette comprising an optically transparent member having a build surface on which an object can be produced, and with said optically transparent member having and at least one variable property therein, said at least one variable property comprising regional optical distortions comprising at least one region of said optically transparent member that distorts an optical image; and then (b) modifying said at least one adjustable parameter by said controller based on said at least one variable optical property comprising regional optical distortions of said optically transparent member; and then (c) producing the object on said build surface from a light-polymerizable liquid by bottom-up stereolithography, wherein modifying said at least one adjustable parameter comprises defining an exclusion region of said optically transparent member in which light is not projected from said light source. 4. The method of claim 1 , wherein modifying said at least one adjustable parameter comprises defining an exclusion region of said optically transparent member and modifying a projected light image of said light source to project light through said optically transparent member outside of said exclusion region. 5. The method of claim 1 , wherein: said window cassette includes a unique identifier operatively associated therewith, and said adjustable parameter comprises at least one variable optical property, and said modifying step is carried out by: (i) detecting said unique identifier, and then (ii) transferring optical correction instructions for said at least one variable optical property and corresponding to said unique identifier from a data storage media to said controller. 6. The method of claim 1 , wherein said adjustable parameter comprises at least one variable optical property and said window cassette includes a data storage media thereon, said data storage media containing optical correction instructions for said at least one variable optical property; and said modifying step is carried out by: (i) operatively associating said storage media with said controller and then (ii) transferring said optical correction instructions from said data storage media to said controller. 7. The method of claim 1 , wherein said variable property comprises an optical property, a physical property, or a combination thereof. 8. The method of claim 1 , wherein said variable property comprises window thickness or window height, and said adjustable parameter comprises projected image magnification and/or light source focal plane. 9. The method of claim 1 , wherein each said adjustable parameter is independently applied to one or more minor portions of said window, a major portion of said window, or the entirety of said window, or a combination thereof. 10. The method of claim 1 , wherein said optically transparent member comprises a plurality of distinct layers. 11. The method of claim 1 , wherein said optically transparent member comprises: (i) a rigid or flexible, semi-permeable or impermeable, support member; (ii) either a semipermeable member on said support member or an immiscible layer on said support member; (iii) an inhibitor of polymerization in said semipermeable member when present; (iv) optionally a cushioning member between said impermeable support member and said semipermeable member; and (v) optionally feed space between said impermeable support member and said semipermeable member, said feed space configured for supplying additional inhibitor of polymerization into said semipermeable member. 12. The method of claim 1 , wherein said modifying step enhances at least one performance characteristic of said apparatus. 13. The method of claim 1 , wherein said producing step is carried out by continuous liquid interface production (CLIP).