Generating optimized tool paths and machine commands for beam cutting tools

We claim: 1. A computer-readable medium not constituting transitory propagating signals per se, having contents configured to cause a computing system to perform a method in a computing system for generating a tool path to cause a target waterjet cutting tool to perform a cutting project on a workpiece of a distinguished material using at least one designated operating parameter, the method comprising: accessing a cutting model for the distinguished material that, for each of one or more aspects of a waterjet's effect on a workpiece of the distinguished material using the designated operating parameters, specifies a relation adapted to predict the value of the aspect based on the value of one or more independent variables, the relations having been established using a plurality of cutting test observations selected from a multiplicity of cutting test observations, each of the multiplicity of cutting test observations identifying a material and one or more operating parameters for which a corresponding cutting test was performed, the plurality of cutting test observations selected on the basis that their identified material and operating parameters are the same as or similar to the distinguished material and designated operating parameters; and using the accessed cutting model to generate a tool path for the cutting project. 2. The computer-readable medium of claim 1 , the method further comprising: retrieving stored information representing a library of general geometric shapes; retrieving stored information representing derived relations; and applying the derived relations for first aspects to the library of general geometric shapes; so as to further define one or more aspects of the waterjet's effect on a workpiece, deriving a second-level relation predicting a value for the aspect for each of possible geometric shapes stored in the accessed library; and and wherein the derived second-level relation is used in the generation of the tool path for the cutting project. 3. The computer-readable medium of claim 1 , the method further comprising generating a machine commands executable by a waterjet cutting tool from the generated tool path. 4. The computer-readable medium of claim 1 , the method further comprising transmitting the generated machine commands to the target waterjet cutting tool for execution by the target waterjet cutting tool. 5. The computer-readable medium of claim 1 , the method further comprising causing the target waterjet cutting tool to execute the generated machine commands in order to perform the cutting project. 6. The computer-readable medium of claim 1 , the method further comprising: determining a characteristic of the target waterjet cutting tool; determining a characteristic of at least one waterjet cutting tool used to obtain cutting test observations among the selected plurality of cutting test observations that corresponds to the determined characteristic of the target waterjet cutting tool; selecting a correction transformation on the basis of the two determined characteristics; and applying the selected correction transformation to output of the accessed cutting model to obtain transformed output, and wherein the tool path is generated using the transformed output. 7. The computer-readable medium of claim 6 wherein the determined characteristic of the target waterjet cutting tool is a manufacturer of the target waterjet cutting tool. 8. The computer-readable medium of claim 6 wherein the determined characteristic of the target waterjet cutting tool is a target variety of the target waterjet cutting tool. 9. The computer-readable medium of claim 1 wherein the generation of the tool path is performed on behalf of a tool customer, the method further comprising causing the tool customer to be charged for the generation of the tool path. 10. One or more computer memories collectively storing a project control data structure to cause a waterjet cutting tool to perform a cutting project on a workpiece of a distinguished material using at least one designated operating parameter, the data structure comprising: information that specifies that a waterjet cutting tool is to cut particular portions of a routed cutting geometry at particular cutting speeds, the information having been generated using a cutting model for the distinguished material that, for each of one or more aspects of a waterjet's effect on a workpiece of the distinguished material using the designated operating parameters, specifies a relation adapted to predict the value of the aspect based on the value of one or more independent variables, the relations having been established using a plurality of cutting test observations selected from a multiplicity of cutting test observations, each of the multiplicity of cutting test observations identifying a material and one or more operating parameters for which a corresponding cutting test was performed, the plurality of cutting test observations selected on the basis that their identified material and operating parameters are the same as or similar to the distinguished material and designated operating parameters, such that the contents of the data structure are suitable for transmission to a ordered a cutting tool to perform the cutting project.