Systems and methods for controlling additive manufacturing systems

What is claimed is: 1. A method of controlling an additive manufacturing system to form a multi-material component, the method comprising: identifying a model of a first material, the model of the first material is configured to output parameter values of the additive manufacturing system based on one or more parameter objectives for a component formed with the first material; identifying a model of a second material, the model of the second material is configured to output parameter values of the additive manufacturing system based on one or more parameter objectives for a component formed with the second material, the first material and the second material are different materials; identifying observed data from a plurality of samples having a gradient of the first material and the second material, wherein for each sample of the plurality of samples, the observed data includes a set of parameter values used by the additive manufacturing system to form the sample and an associated measured value for each of one or more parameter objectives for the multi-material component; establishing operating parameter values for the additive manufacturing system to form, at least in part, the multi-material component using the first material and the second material and having predetermined values of one or more parameters along a graded interface bonding the first material to the second material, the operating parameter values established are based on the model of the first material, the model of the second material, and the observed data, wherein the operating parameter values established change as a material composition of the first material and the second material changes along the graded interface; and outputting a control signal based on the operating parameter values established to cause the additive manufacturing system to form, at least in part, the multi-material component. 2. The method of claim 1 , further comprising: identifying a model of multi-material components having the graded interface of the first material and the second material for determining operating parameter values of the additive manufacturing system based on the one or more parameter objectives for the multi-material component, the model of the multi-material components having the graded interface of the first material and the second material is based on the model of the first material, the model of the second material, and the observed data. 3. The method of claim 2 , wherein the operating parameter values for the additive manufacturing system are output from the model of the multi-material components having the graded interface of the first material and the second material based on the predetermined values of each of the one or more parameter objectives for the multi-material component. 4. The method of claim 1 , wherein the samples of the plurality of samples are formed using the additive manufacturing system. 5. The method of claim 1 , wherein the operating parameter values of the additive manufacturing system include values of a laser hatch and one or both of a laser power or a laser velocity. 6. The method of claim 1 , wherein the one or more parameter objectives for one or more of the component formed with the first material, the component formed with the second material, and the multi-material component include one or both of density and surface roughness. 7. The method of claim 1 , wherein: the one or more parameter objectives for the component formed with the first material is one of: 1) One or more parameter objectives for a component formed with only the first material or 2) One or more parameter objectives for a multi-material component at a location of the multi-material component formed with only the first material; and the one or more parameter objectives for the component formed with the second material is one of: 1) One or more parameter objectives for a component formed with only the second material or 2) One or more parameter objectives for a multi-material component at a location of the multi-material component formed with only the second material. 8. The method of claim 1 , wherein the observed data from the plurality of samples having a graded interface of the first material and the second material and are taken along the graded interface of the first material and the second material in the multi-material component at a same gradient mixture location of each sample of the plurality of samples. 9. The method of claim 8 , wherein the predetermined values of each of the one or more parameter objectives for the multi-material component occur at a gradient mixture location of the multi-material component that is the same as the gradient mixture location at which observed data is taken from the plurality of samples. 10. The method of claim 1 , wherein the plurality of samples includes five (5) or more samples having the graded interface of the first material and the second material. 11. A non-transitory computer readable medium having stored thereon in a non-transitory state a program code for use by a processor, the program code causing the processor to execute a method of operating an additive manufacturing system comprising: receiving a selection of a first material, the first material having a first material composition; receiving a selection of a second material, the second material having a second material composition; developing an algorithm based on the first material, the second material, and observed data from a plurality of sample components formed using the first material and the second material, each sample component of the plurality of sample components having a gradient of the first material and the second material; and wherein the algorithm is configured to output the operating parameter values, in response to receiving the selection of the first material and the second material, based on the algorithm, establishing operating parameter values for the additive manufacturing system based on the first material and the second material, wherein the operating parameter values for the additive manufacturing system are configured to form a component having predetermined values of one or more parameters along a graded interface bonding the first material to the second material, wherein the operating parameter values established change as material composition changes between the first material composition and the second material composition along the graded interface; and outputting a control signal based on the operating parameter values for a location along the graded interface to cause the additive manufacturing system to form, at least in part, the component. 12. The non-transitory computer readable medium of claim 11 , wherein the method further comprises: receiving a selection of one or more objectives for parameters of the component; and wherein the establishing operating parameter values for the additive manufacturing system is based on the first material, the second material, the one or more objectives for parameters of the component, and the location along the graded interface. 13. The non-transitory computer readable medium of claim 11 , wherein each sample component of the plurality of sample components was formed using a set of operating parameter values of the additive manufacturing system that is different than sets of operating parameter values of the additive manufacturing system used to form the other sample components of the plurality of sample components. 14. A controller of an additive manufacturing system comprising: a processor; and memory configured to store in a non-transitory state instructions executable by