Method and system for operating a configuration platform

What is claimed is: 1. A method of propagating a configuration setting of a 3D model to other 3D models within a platform for real-time configuration and real-time visualization of said models, the 3D model and the other 3D models being part of a same 3D model category, the 3D model having a first layout and one of the other 3D models having a second layout distinct from the first layout, each layout being associated with a plurality of surfaces, the method comprising: dividing the 3D model into a first plurality of surfaces, the first plurality of surfaces being 3D model surfaces visible upon being rendered by a 3D engine; associating to each one of the first plurality of surfaces, a unique surface identifier; for each one of the other 3D models: dividing the one of the other 3D models into a second plurality of surfaces, a number of the second plurality of surfaces being different from a number of the first plurality of surfaces, a first number of surfaces of the first plurality of surfaces of the 3D model that are visible to the user upon being rendered by the 3D engine being different from a second number of surfaces of the second plurality of surfaces of the one of the other 3D models that are visible to the user upon being rendered by the 3D engine; establishing a correspondence between at least some of the second plurality of surfaces and at least some of the first plurality of surfaces, based on a correspondence between the 3D model and the one of the other 3D models; associating, for each one of the second plurality of surfaces corresponding to one of the first plurality of surfaces, the unique surface identifier associated with the corresponding one of the first plurality of surfaces; selecting the configuration setting of the 3D model; determining the unique identifier of the 3D model to which the configuration setting is to be applied; propagating, based on the unique identifier of the 3D model, the configuration setting to the other 3D models to which the configuration setting is to be applied; and providing a real-time visualization of the propagated configuration setting from the 3D model to the other 3D models within the real-time configuration platform. 2. The method of claim 1 , wherein the 3D model is an aircraft cabin seat. 3. The method of claim 2 , wherein the first plurality of surfaces comprises a plurality of the surfaces of the aircraft cabin seat. 4. The method of claim 3 , wherein selecting the configuration setting comprises selecting a material type of the aircraft cabin seat. 5. The method of claim 4 , wherein propagating the configuration setting comprises propagating a selection of the material type of an aircraft cabin seat to other aircraft cabin seats. 6. A computer-implemented system for propagating a configuration setting of a 3D model to other 3D models within a platform for real-time configuration and real-time visualization of said models, the 3D model and the other 3D models being part of a same 3D model category, the 3D model having a first layout and one of the other 3D models having a second layout distinct from the first layout, each layout being associated with a plurality of surfaces, the system comprising: a processor; a non-transitory computer-readable medium coupled to the processor and storing instructions executable by the processor and configured to cause the processor to perform: dividing the 3D model into a first plurality of surfaces, the first plurality of surfaces being 3D model surfaces visible upon being rendered by a 3D engine; associating to each one of the first plurality of surfaces, a unique surface identifier; for each one of the other 3D models: dividing the one of the other 3D models into a second plurality of surfaces, a number of the second plurality of surfaces being different from a number of the first plurality of surfaces, a first number of surfaces of the first plurality of surfaces of the 3D model that are visible to the user upon being rendered by the 3D engine being different from a second number of surfaces of the second plurality of surfaces of the one of the other 3D models that are visible to the user upon being rendered by the 3D engine; establishing a correspondence between at least some of the second plurality of surfaces and at least some of the first plurality of surfaces, based on a correspondence between the 3D model and the one of the other 3D models; associating, for each one of the second plurality of surfaces corresponding to one of the first plurality of surfaces, the unique surface identifier associated with the corresponding one of the first plurality of surfaces; selecting the configuration setting of the 3D model; determining the unique identifier of the 3D model to which the configuration setting is to be applied; propagating, based on the unique identifier of the 3D model, the configuration setting to the other 3D models to which the configuration setting is to be applied; and providing a real-time visualization of the propagated configuration setting from the 3D model to the other 3D models within the real-time configuration platform. 7. A computer-implemented system configured to perform the method of claim 1 . 8. A non-transitory computer-readable medium comprising computer-executable instructions that cause a system to execute the method according to claim 1 .