Patent Number: 
Section: claims

1. A method for reviewing defects of patterns in a large number of chips formed on each of semiconductor wafers, the method comprising:a cell comparison step including ofa first acquisition step of acquiring an electron beam defect image of a low magnification with moving a stage on which the wafer is mounted in accordance with position coordinate of a review defect on the wafer obtained from an inspection apparatus, and then imaging the review defect at the low magnification by using an electron beam optical system,a step of selecting a review sequence of either a cell comparison scheme or a die comparison scheme on the basis of a defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer,a step of, if the cell comparison scheme is selected in the sequence selection step, judging whether detection of the review defect is possible by executing the selected cell comparison scheme based on the electron beam defect image acquired from the review defect at the low magnification in the first acquisition step, anda first calculation step of, if judgment result in the detection possibility judgment step indicates that the detection of the review defect is possible, calculating position coordinate of the detected review defect in a coordinate system of a defect-reviewing apparatus;a die comparison step including ofa second acquisition step of, if the judgment result in the detection possibility judgment step indicates that the detection of the review defect is impossible, or if the die comparison scheme is selected in the sequence selection step, acquiring an electron beam reference image at a low magnification for a normal part to perform the selected die comparison scheme by using the electron beam optical system with moving the stage, anda second calculation step of detecting the review defect by performing the selected die comparison scheme between the electron beam defect image of the review defect at the low magnification acquired in the first acquisition step and the electron beam reference image of the low magnification acquired in the second acquisition step, and calculating the position coordinate of the detected review defect in the coordinate system of the defect-reviewing apparatus; anda defect image acquisition step of acquiring electron beam defect images of a high magnification by imaging the review defects at the high magnification by using the electron beam optical system in accordance with the position coordinates of the review defects calculated in the coordinate system of the defect-reviewing apparatus in the first and second calculation steps. 2. The method for reviewing defects of patterns according to claim 1, wherein, in the selection step, the selection of either the cell comparison scheme or the die comparison scheme is performed for each wafer or for each defect that is to be reviewed. 3. The method for reviewing defects of patterns according to claim 1, wherein the cell comparison uses a previously provided electron beam reference image of a low magnification or an electron beam reference image made at a low magnification based on the electron beam defect image imaged the review defect at the low magnification. 4. A method for reviewing defects of patterns in a large number of chips formed on each of semiconductor wafers, the method comprising:a cell comparison step including ofa first acquisition step of acquiring an electron beam defect image of a low magnification by moving a stage on which the wafer is mounted in accordance with position coordinate of a review defect on the wafer obtained from an inspection apparatus, and then imaging the review defect at the low magnification by using an electron beam optical system,a step of previously providing a defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer,a step of selecting a review sequence of either the cell comparison scheme or a die comparison scheme on the basis of the defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer previously provided in the provision step,a step of, if the cell comparison scheme is selected in the sequence selection step, judging whether detection of the review defect is possible by executing the cell comparison scheme based on the electron beam defect image acquired from the review defect at the low magnification in the acquisition step, anda first calculation step of, if judgment result in the detection possibility judgment step indicates that the detection of the review defect is possible, calculating position coordinate of the detected review defect in a coordinate system of a defect-reviewing apparatus;a die comparison step including ofa second acquisition step of, if the judgment result in the detection possibility judgment step indicates that the detection of the review defect is impossible, or if the die comparison scheme is selected in the sequence selection step, acquiring an electron beam reference image at a low magnification for a normal part to perform the die comparison scheme by using the electron beam optical system with moving the stage, anda second calculation step of detecting the review defect by performing the die comparison scheme between the electron beam defect image of the review defect at the low magnification acquired in the first acquisition step and the electron beam reference image of the low magnification acquired in the second acquisition step, and calculating the position coordinate of the detected review defect in the coordinate system of the defect-reviewing apparatus; anda defect image acquisition step of acquiring an electron beam defect images of a high magnification by imaging the review defects at the high magnification by using the electron beam optical system in accordance with the defect position coordinates calculated in the coordinate system of the defect-reviewing apparatus in the first and second calculation steps. 5. The method for reviewing defects of patterns according to claim 4, wherein, in the provision step, the defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer, is calculated by performing the cell comparison scheme based on an electron beam defect image of the low magnification acquired from a sample of a review defect by using the sample of the review defect present on the wafer mounted on the stage. 6. The method for reviewing defects of patterns according to claim 5, wherein, in the provision step, the calculated defect detection success ratio or defect detection success map due to at least the cell comparisons scheme is displayed on a GUI unit. 7. The method for reviewing defects of patterns according to claim 4, wherein, in the provision step, the defect detection success ratio or defect detection success map due to at least the cell comparisons scheme for each wafer or each chip, is calculated based on historical information due to the cell comparison scheme for a wafer of the same kind as that of the wafer mounted on the stage. 8. The method for reviewing defects of patterns according to claim 4, wherein, in the provision step, whether the defect detection due to the cell comparison succeeds or fails is judged based on the electron beam defect image of the low magnification, acquired at the review defect position, and the defect detection success map due to at least the cell comparison scheme for each chip is calculated by summing up the judgment result for the each chip. 9. The method for reviewing defects of patterns according to claim 8, wherein, when the calculation of the defect detection success map due to at least the cell comparison scheme for the each chip, is calculated, regions in which the defect detection due to the cell comparison scheme is possible are integrated on the basis of a distance between the review defects for which the defect detection has been performed by using the cell comparison scheme. 10. The method for reviewing defects of patterns according to claim 4, wherein, in the selection step, the selection of either the cell comparison scheme or the die comparison scheme is performed for each wafer or for each defect that is to be reviewed. 11. The method for reviewing defects of patterns according to claim 4, wherein the cell comparison scheme uses a previously provided electron beam reference image of a low magnification or an electron beam reference image of a low magnification made based on the electron beam defect image imaged the review defect at the low magnification. 12. A SEM-type defect-reviewing apparatus, comprising:a cell comparator including ofa first acquisition unit which acquires an electron beam defect image of a low magnification with moving a stage on which a wafer is mounted in accordance with position coordinate of a review defect on the wafer obtained from an inspection apparatus, and then images the review defect at the low magnification by using an electron beam optical system,a review sequence selector which selects a review sequence of either a cell comparison scheme or a die comparison scheme on the basis of a defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer,a detection possibility judgment unit which, if the cell comparison scheme is selected in the review sequence selector, judges whether detection of the review defect is possible by executing the selected cell comparison scheme based on the electron beam defect image acquired from the review defect at the low magnification in the first acquisition unit, anda first calculator which, if judgment result in the detection possibility judgment unit indicates that the detection of the review defect is possible, calculates position coordinate of the detected review defect in a coordinate system of a defect-reviewing apparatus;a die comparator including ofa second acquisition unit which, if the judgment result in the detection possibility judgment unit indicates that the detection of the review defect is impossible, or if the die comparison scheme is selected in the review sequence selector, acquires an electron beam reference image at a low magnification for a normal part to perform the selected die comparison scheme by using the electron beam optical system with moving the stage, anda second calculator which detects the review defect by performing the selected die comparison scheme between the electron beam defect image of the review defect at the low magnification acquired in the first acquisition unit and the electron beam reference image of the low magnification acquired in the second acquisition unit, and calculates the position coordinate of the detected review defect in the coordinate system of the defect-reviewing apparatus; anda high-magnification defect image acquisition unit which acquires electron beam defect images of a high magnification by imaging the review defects at the high magnification by using the electron beam optical system in accordance with the position coordinates of the review defects calculated in the coordinate system of the defect-reviewing apparatus in the first and second calculators. 13. The SEM-type defect-reviewing apparatus according to claim 12, further comprising a detail analyzer which calculates at least feature quantities of electron beam image by performing detailed analyses with using the electron beam defect image of the high magnification acquired from the defect image acquisition unit. 14. The SEM-type defect-reviewing apparatus according to claim 12, further comprising a provision unit which comprises so as to calculate the defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer by performing the cell comparison scheme based on an electron beam defect image of the low magnification acquired from a sample of a review defect by using the sample of the review defect present on the wafer mounted on the stage. 15. The SEM-type defect-reviewing apparatus according to claim 12, wherein in the selector, the selection of either the cell comparison scheme or the die comparison scheme is performed for each wafer or for each defect that is to be reviewed. 16. A SEM-type defect-reviewing apparatus, comprising:a cell comparator including ofa first acquisition unit which acquires an electron beam defect image of a low magnification with moving a stage on which a wafer is mounted in accordance with position coordinate of a review defect on the wafer obtained from an inspection apparatus, and then images the review defect at the low magnification by using an electron beam optical system,a provision unit which previously provides a defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer,a review sequence selector which selects a review sequence of either the cell comparison scheme or a die comparison scheme on the basis of the defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip previously provided in the provision unit,a detection possibility judgment unit which, if the cell comparison scheme is selected in the review sequence selector, judges whether detection of the review defect is possible by executing the cell comparison scheme based on the electron beam defect image acquired from the review defect at the low magnification, anda first calculator which, if judgment result in the detection possibility judgment unit indicates that the detection of the review defect is possible, calculates position coordinate of the detected review defect in a coordinate system of a defect-reviewing apparatus;a die comparator including ofa second acquisition unit which, if the judgment result in the detection possibility judgment unit indicates that the detection of the review defect is impossible, or if the die comparison scheme is selected in the review sequence selector, acquires an electron beam reference image at a low magnification for a normal part to perform the die comparison scheme by using the electron beam optical system with moving the stage, anda second calculator which detects the review defect by performing the die comparison scheme between the electron beam defect image of the defect at the low magnification acquired in the first acquisition unit and the electron beam reference image of the low magnification acquired in the second acquisition unit, and calculates the position coordinate of the detected review defect in the coordinate system of the defect-reviewing apparatus; anda defect image acquisition unit which acquires an electron beam defect image of a high magnification by imaging the review defects at the high magnification by using the electron beam optical system in accordance with the defect position coordinates calculated in the coordinate system of the defect-reviewing apparatus in the first and second calculators. 17. The SEM-type defect-reviewing apparatus according to claim 16, further comprising a detail analyzer which calculates at least feature quantities of electron beam image by performing detailed analyses with using the electron beam defect image of the high magnification acquired from the defect image acquisition unit. 18. The SEM-type defect-reviewing apparatus according to claim 16, wherein the provision unit section comprises so as to calculate the defect detection success ratio or defect detection success map due to at least the cell comparison scheme for each wafer or for each chip formed on the wafer by performing the cell comparison scheme based on an electron beam defect image of the low magnification acquired from a sample of a review defect by using the sample of the review defect present on the wafer mounted on the stage. 19. The SEM-type defect-reviewing apparatus according to claim 16, wherein the provision unit comprises so as to calculate the defect detection success ratio or defect detection success map due to at least the cell comparisons scheme for each wafer or each chip, based on historical information due to the cell comparison scheme for a wafer of the same kind as that of the wafer mounted on the stage. 20. The SEM-type defect-reviewing apparatus according to claim 16, wherein the provision unit comprises so that whether the defect detection due to the cell comparison succeeds or fails is judged based on the electron beam defect image of the low magnification, acquired at the review defect position, and the defect detection success map due to at least the cell comparison scheme for each chip is calculated by summing up the judgment result for the each chip. 21. The SEM-type defect-reviewing apparatus according to claim 16, further comprising a GUI unit; wherein, after being calculated in the provision unit, the defect detection success ratio or defect detection success map due to at least the cell comparison scheme is displayed on the GUI unit.