Patent Number: 
Section: claims

1. A method for controlling critical dimension (CD) in a process system, the method comprising: computing an exposure dose error based on at least one output of the process system,  normalizing the computed exposure dose error based on a target exposure dose, and,  providing an exposure dose to the process system based on at least one normalized exposure dose error. 2. A method according to  claim 1 , where normalizing includes at least one of: claim 1 querying a normalization table, where the normalization table includes target doses, and,  retrieving the target exposure dose from the normalization table. 3. A method according to  claim 1 , where normalizing includes retrieving the target exposure dose based on at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 1 4. A method according to  claim 1 , where the target exposure dose is associated with at least one of a photomask, an exposure tool, and a process level. claim 1 5. A method according to  claim 1 , further comprising associating the computed exposure dose error with at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 1 6. A method according to  claim 1 , further comprising associating the computed exposure dose error with at least one of a photomask, an exposure tool, and a process level. claim 1 7. A method according to  claim 1 , where computing an exposure dose error includes measuring a critical dimension based on at least one output of the process system. claim 1 8. A method according to  claim 1 , where computing an exposure dose error includes: claim 1 providing a target critical dimension, and,  generating a comparison between the target critical dimension and a measured critical dimension based on at least one output of the process system. 9. A method according to  claim 1 , where computing an exposure dose error includes computing a critical dimension error. claim 1 10. A method according to  claim 9 , where computing an exposure dose error includes converting the critical dimension error to an exposure dose error based on an exposure dose sensitivity. claim 9 11. A method according to  claim 1 , where providing an exposure dose includes combining at least two normalized exposure dose errors. claim 1 12. A method according to  claim 1 , where providing an exposure dose includes: claim 1 computing a weighted moving average of normalized exposure dose errors, and,  converting the weighted moving average to an exposure dose, where the converting is based on a target exposure dose. 13. A method according to  claim 12 , where converting includes converting based on the target exposure dose employed to normalize the exposure dose error. claim 12 14. A method according to  claim 1 , further comprising associating the measured normalized exposure dose error with a target exposure dose. claim 1 15. A method according to  claim 1 , further comprising using the measured normalized exposure dose error to update at least one target exposure dose. claim 1 16. A method according to  claim 1 , where providing an exposure dose includes: claim 1 generating an ideal exposure dose error based on the normalized exposure dose error and an exposure dose previously provided to the process system, and,  computing an exposure dose based on at least one ideal exposure dose error. 17. A method according to  claim 16 , where generating includes normalizing the exposure dose previously provided to the process system, where the normalization is based on a target exposure dose. claim 16 18. A method according to  claim 17 , further comprising retrieving the target exposure dose based on a query, where the query is based on the at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 17 19. A method according to  claim 16 , where computing includes combining at least one ideal exposure dose error. claim 16 20. A method according to  claim 16 , where computing includes computing a weighted moving average of at least two ideal exposure dose errors. claim 16 21. A method according to  claim 1 , further including providing a normalization table to associate the target exposure dose with at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 1 22. A method according to  claim 1 , where the normalization table is associated with at least one of: at least one learning module, at least one filter, and at least one averaging module. claim 1 23. A method according to  claim 1 , further comprising updating the target exposure dose based on at least one normalized exposure dose error. claim 1 24. A method according to  claim 1 , where the target exposure dose is an updated target exposure dose based on at least one of: at least one normalized exposure dose error, at least one initial target exposure dose, and at least one default target dose. claim 1 25. A method according to  claim 1 , where the target exposure dose is based on at least one of: claim 1 a target critical dimension,  a manually entered exposure dose,  a focus and exposure matrix (FEM) associated with the process system, and  at least one normalized exposure dose error. 26. A method according to  claim 1 , where providing an exposure dose includes: claim 1 querying a normalization table based on at least one of: at least one process system characteristic and at least one characteristic of a measurement system, and,  based on the query results and at least one normalized exposure dose error, computing an exposure dose. 27. A method according to  claim 1 , where normalizing includes employing at least one default target exposure dose. claim 1 28. A method according to  claim 1 , where normalizing includes associating at least one default target exposure dose with at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 1 29. A method according to  claim 1 , where the process system includes at least one of a lithography system and a microlithography system. claim 1 30. A method according to  claim 1 , where measuring a measured exposure dose error includes providing at least one least square regression model associated with the process system. claim 1 31. A system for controlling critical dimension (CD) in a process system, the system comprising: a measurement system to provide at least one measurement associated with at least one process system error, and,  a control system to provide an exposure dose to the process system, where the exposure dose is based on at least one normalized exposure dose error, where the normalized exposure dose error is based on a target exposure dose associated with at least one of: at least one process system characteristic and at least one measurement system characteristic. 32. A system according to  claim 31 , further comprising a normalization table to associate the target exposure dose with at least one of: at least one process system characteristic and at least one measurement system characteristic. claim 31 33. A system according to  claim 31 , where the at least one process system characteristic and the at least one measurement system characteristic includes at least one of a photomask, an exposure tool, and a process level. claim 31 34. A system according to  claim 31 , where the control system includes instructions to cause a processor to compute a critical dimension (CD) error based on at least one output of the process system. claim 31 35. A system according to  claim 34 , where the CD error is based on a comparison of a measured CD and a target CD, where the measured CD is based on the at least one output, of the process system. claim 34 36. A system according to  claim 31 , where the control system includes instructions to cause a processor to normalize a computed critical dimension (CD) error based on a target exposure dose. claim 31 37. A system according to  claim 31 , where the control system includes instructions to provide a target exposure dose based on at least one of: at least one manual entry, at least one normalized exposure dose error, and data based on at least one focus and exposure matrix (FEM). claim 31 38. A system according to  claim 31 , where the control system includes instructions to cause a processor to retrieve the target exposure dose based on a query of a normalization table, where the normalization table associates the target exposure dose with at least one of: at least one process system characteristic and at least one characteristic of a measurement system. claim 31 39. A system according to  claim 31 , where the measurement system includes at least one of an exposure tool and a critical dimension measurement tool. claim 31 40. A system according to  claim 31 , where the process system is at least one of a lithography system and a microlithography system. claim 31 41. A system according to  claim 31 , where the process system is at least one of: a lithography, a chemical mechanical polish (CMP), a diffusion, thin film, a metal deposition, an ion implantation, and an etching system. claim 31 42. A system according to  claim 31 , where the control system includes instructions to cause a processor to update a target exposure dose using at least one normalized exposure dose error and at least one: at least one learning module, at least one filter, and at least one averaging module. claim 31 43. A system according to  claim 41 , where the updated target exposure dose is stored in a normalization table. claim 41