Registration of separations

What is claimed is: 1. A method of processing images of film stock, the method comprising: accessing a first image of film stock bearing a first photograph; accessing a second image of film stock bearing a second photograph that is different than the first photograph; identifying a particular set of one or more features in (i) a first portion of the first image, and (ii) a second portion of the second image; transforming at least a portion of the second image to generate a transformed version of the second image, wherein the particular set of one or more features are located in a third portion of the transformed version of the second image; aligning the transformed version of the second image and the first image; combining the first image and the transformed version of the second image into a composite image; and storing the composite image and one or more other images on a non-transitory machine-readable medium as a set of images, the set of images representing frames of a motion picture. 2. The method of claim 1 , wherein (I) differences in (i) at least one of size and position of the first portion of the first image with respect to the first image, and (ii) at least one of size and position of the second portion of the second image with respect to the second image, are greater, respectively, than (II) differences in (i) at least one of size and position of the first portion of the first image with respect to the first image, and (ii) at least one of size and position of the third portion of the transformed version of the second image with respect to the transformed version of the second image. 3. The method of claim 1 , wherein: accessing the first image of film stock bearing the first photograph, comprises accessing the first image of film stock bearing a first spectral component photograph of a scene; and accessing the second image of film stock bearing the second photograph, comprises accessing the second image of film stock bearing a second spectral component photograph of the scene that is different than the first spectral component photograph of the scene. 4. The method of claim 3 , wherein the first and second images are component images of at least the scene captured by a same device. 5. The method of claim 1 , wherein aligning the transformed version of the second image and the first image comprises automatically determining an alignment vector for at least the portion of the transformed version of the second image. 6. The method of claim 1 , wherein identifying the particular set of one or more features comprises identifying a particular set of one or more edges, pixel intensities, or contours that occur in the first and second images. 7. The method of claim 1 , further comprising: before transforming at least the portion of the second image, designating the first image as a reference image; and wherein transforming at least the portion of the second image to generate the transformed version of the second image, comprises transforming, based on the reference image, at least the portion of the second image to generate the transformed version of the second image. 8. An apparatus for processing images of film stock, the apparatus comprising at least one processor programmed to perform operations comprising: accessing a first image of film stock bearing a first photograph; accessing a second image of film stock bearing a second photograph that is different than the first photograph; identifying a particular set of one or more features in (i) a first portion of the first image, and (ii) a second portion of the second image; transforming at least a portion of the second image to generate a transformed version of the second image, wherein the particular set of one or more features are located in a third portion of the transformed version of the second image; aligning the transformed version of the second image and the first image; combining the first image and the transformed version of the second image into a composite image; and storing the composite image and one or more other images on a non-transitory machine-readable medium as a set of images, the set of images representing frames of a motion picture. 9. The apparatus of claim 8 , wherein (I) differences in (i) at least one of size and position of the first portion of the first image with respect to the first image, and (ii) at least one of size and position of the second portion of the second image with respect to the second image, are greater, respectively, than (II) differences in (i) at least one of size and position of the first portion of the first image with respect to the first image, and (ii) at least one of size and position of the third portion of the transformed version of the second image with respect to the transformed version of the second image. 10. The apparatus of claim 8 , wherein: accessing the first image of film stock bearing the first photograph, comprises accessing the first image of film stock bearing a first spectral component photograph of a scene; and accessing the second image of film stock bearing the second photograph, comprises accessing the second image of film stock bearing a second spectral component photograph of the scene that is different than the first spectral component photograph of the scene. 11. The apparatus of claim 10 , wherein the first and second images are component images of at least the scene captured by a same device. 12. The apparatus of claim 8 , wherein aligning the transformed version of the second image and the first image comprises automatically determining an alignment vector for at least the portion of the transformed version of the second image. 13. The apparatus of claim 8 , wherein identifying the particular set of one or more features comprises identifying a particular set of one or more edges, pixel intensities, or contours that occur in the first and second images. 14. The apparatus of claim 8 , wherein the operations further comprise: before transforming at least the portion of the second image, designating the first image as a reference image; and wherein transforming at least the portion of the second image to generate the transformed version of the second image, comprises transforming, based on the reference image, at least the portion of the second image to generate the transformed version of the second image. 15. A non-transitory computer-readable medium storing instructions that when executed by one or more computers cause the one or more computers to perform operations comprising: accessing a first image of film stock bearing a first photograph; accessing a second image of film stock bearing a second photograph that is different than the first photograph; identifying a particular set of one or more features in (i) a first portion of the first image, and (ii) a second portion of the second image; transforming at least a portion of the second image to generate a transformed version of the second image, wherein the particular set of one or more features are located in a third portion of the transformed version of the second image; aligning the transformed version of the second image and the first image; combining the first image and the transformed version of the second image into a composite image; and storing the composite image and one or more other images on a non-transitory machine-readable medium as a set of images, the set of images representing frames of a motion picture. 16. The non-transitory computer-readable medium of claim 15 , wherein (I) differences in (i) at least one of size and position of the first portion of the