Patent Number: 
Section: claims

1. A method for calculating area values of a pattern written by using a charged particle beam, comprising:storing data of a pattern in a data storing device;inputting the data of the pattern from the data storing device;virtually dividing the pattern into a plurality of mesh-like first square regions surrounded by first grids defined at intervals of a predetermined size;virtually dividing the pattern into a plurality of mesh-like second square regions surrounded by second grids defined at intervals of the predetermined size, the second grids being positionally deviated from the first grids by a half of the predetermined size;distributing an area value of a sub-pattern in each of the second square regions to a plurality of apexes of each of the second square regions such that a center-of-gravity position of the sub-pattern does not change, the sub-pattern being a part of the pattern; andoutputting the distributed area values as area values, for correcting a proximity effect, defined at the center position of each of the first square regions. 2. The method according to claim 1, whereinwhen, in distribution of the area value of a sub-pattern of one second square region, an area value of a sub-pattern in another second square region is distributed to at least one apex of the one second square region, and the distributed area values of the at least one apex are cumulatively added to each other with respect to the at least one apex. 3. The method according to claim 1, further comprising:calculating an area value of the sub-pattern in each of the second square regions;calculating a center-of-gravity position of the sub-pattern;calculating a center-of-gravity moment of the sub-pattern in each of the second square regions on the basis of the calculated area value and the calculated center-of-gravity position; andwherein, in distribution of the area value, the calculated area value of the sub-pattern is distributed by using the calculated area value and the calculated center-of-gravity moment. 4. The method according to claim 1, whereinthe outputting the distributed area values as area values is performed by a computer. 5. The method according to claim 4, whereinthe inputting the data of the pattern from the data storing device is performed by the computer. 6. The method according to claim 1, whereinthe area values are calculated by a computer. 7. The method according to claim 1, further comprisingwriting the pattern on a target object using the charged particle beam. 8. A proximity effect correcting method comprising:storing data of a pattern in a data storing device;inputting the data of the pattern from the data storing device;virtually dividing the pattern which is to be written by using a charged particle beam, into a plurality of mesh-like square regions surrounded by grids defined at intervals of a predetermined size;distributing a part of an area value of a sub-pattern in each of the square regions to a center position of another square region such that a center-of-gravity position of the sub-pattern does not change, the part of the area value being defined by the center position of the another square region and the sub-pattern being a part of the pattern; andcalculating an amount of proximity effect correction in each square region by use of an area value of each square region obtained by adding a remaining area value which is not distributed to another square region and an area value distributed from another square region to output the amount of proximity effect correction. 9. The proximity effect correcting method according to claim 8, further comprising:virtually dividing the pattern into a plurality of mesh-like second square regions surrounded by second grids defined at intervals of the predetermined size, the second grids being positionally deviated from the first grids by a half of the predetermined size,wherein, when distributing part of the area value, an area value of a sub-pattern in each of the second square regions is distributed to a plurality of apexes of each of the second square regions such that a center-of-gravity position of the sub-pattern in each of the second square regions does not change. 10. The method according to claim 8, whereinthe inputting the data of the pattern from the data storing device is performed by a computer. 11. The method according to claim 8, whereinthe calculating an amount of proximity effect correction in each square region is calculated by a computer. 12. The method according to claim 8, further comprisingwriting the pattern on a target object using a charged particle beam. 13. A method for writing a pattern using a charged particle beam, the method comprising:virtually dividing a pattern into a plurality of mesh-like square regions surrounded by grids defined at intervals of a predetermined size;distributing an area value of a sub-pattern in each of the square regions to positions where the distributed area values are defined by a center position of the square region and a center position of another square region, such that a center-of-gravity position of the sub-pattern in each of the square regions does not change;after the area values are distributed, calculating an exposure dose of the charged particle beam corrected with respect to proximity effect by using the area values defined by the center positions of the square regions; andwriting the pattern on a target object at the exposure dose. 14. A charged particle beam writing apparatus for writing a pattern using a charged particle beam, comprising:a dividing unit configured to virtually divide a pattern into a plurality of mesh-like first square regions surrounded by first grids defined at intervals of a predetermined size and a plurality of mesh-like second square regions surrounded by second grids defined at intervals of the predetermined size, the second grids being positionally deviated from the first grids by a half of the predetermined size;a distributing unit configured to distribute an area value of a sub-pattern in each of the second square regions to a plurality of apexes of each of the second square regions such that a center-of-gravity position of the sub-pattern in each of the second square regions does not change, the sub-pattern being a part of the pattern;a calculating unit configured to calculate an amount of proximity effect correction for correcting proximity effect in each of the first square regions by using area values distributed; anda pattern writing unit configured to write the pattern on a target object at an exposure dose of the charged particle beam corrected with respect to proximity effect by using the amount of proximity effect correction. 15. The charged particle beam writing apparatus according to claim 14, further comprisingan area calculating unit configured to calculate an area value of the sub-pattern in each of the second square regions. 16. The charged particle beam writing apparatus according to claim 15, further comprising:a center-of-gravity calculating unit configured to calculate a center-of-gravity position of the sub-pattern. 17. The charged particle beam writing apparatus according to claim 16, further comprising:a moment calculating unit configured to calculate a center-of-gravity moment of the sub-pattern on the basis of the area value calculated and the center-of-gravity position calculated. 18. The charged particle beam writing apparatus according to claim 17, whereinthe distributing unit distributes the area value of the sub-pattern by using the area values calculated and the center-of-gravity moment calculated.