Patent Number: 
Section: claims

1. A lithography pattern data generation method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate by using an exposure beam of charged particles, comprising: an area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a data group extracting step of extracting, from said plural design data, design data each falling within any of said plural partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural partial exposure areas from said design data belonging to said first design data group; and  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural partial exposure areas from said design data belonging to said second design data group. 2. The lithography pattern data generation method of  claim 1 , claim 1 wherein, in extracting said first design data group in said data group extracting step, a design data, among said design data each extending over two or more of said plural partial exposure areas, which has a portion crossing a boundary of said partial exposure areas and having a predetermined size or larger is included in said first design data group. 3. A lithography pattern data generation method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate by using an exposure beam of charged particles, comprising: a first area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural first partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a data group extracting step of extracting, from said plural design data, design data each falling within any of said plural first partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural first partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said first design data group;  a second area dividing step of dividing said predetermined area into plural second partial exposure areas any of which covers at least one of said design data belonging to said second design data group, said plural second partial exposure areas being different from said plural first partial exposure areas; and  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural second partial exposure areas from said design data belonging to said second design data group. 4. The lithography pattern data generation method of  claim 3 , claim 3 wherein, in said second area dividing step, each of said plural second partial exposure areas has a width different from a width of each of said plural first partial exposure areas. 5. The lithography pattern data generation method of  claim 3 , claim 3 wherein, in extracting said first design data group in said data group extracting step, each of said plural first partial exposure areas is enlarged by a predetermined width, and said first design data group is extracted on the basis of said plural first partial exposure areas with the enlarged width. 6. The lithography pattern data generation method of  claim 5 , claim 5 wherein, in extracting said first design data group in said data group extracting step, a design data, among said design data each extending over two or more of said plural first partial exposure areas, which has a portion crossing a boundary of said plural first partial exposure areas and having a predetermined size or larger is included in said first design data group. 7. A lithography pattern data generation method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate by using an exposure beam of charged particles, comprising: a first area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural first partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a first data group extracting step of extracting, from said plural design data, design data each falling within any of said plural first partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural first partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said first design data group;  a second area dividing step of dividing said predetermined area into plural second partial exposure areas any of which covers at least one of said design data belonging to said second design data group, said plural second partial exposure areas being different from said plural first partial exposure areas;  a second data group extracting step of extracting, from said second design data group, design data each falling within any of said plural second partial exposure areas as a third design data group, and extracting design data each extending over two or more of said plural second partial exposure areas as a fourth design data group;  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural second partial exposure areas from said design data belonging to said third design data group;  a third area dividing step of dividing said predetermined area into plural third partial exposure areas any of which covers at least one of said design data belonging to said fourth design data group, said plural third partial exposure areas being different from said plural second partial exposure areas; and  a third lithography pattern data generating step of generating third lithography pattern data of each of said third partial exposure areas from said design data belonging to said fourth design data group. 8. The lithography pattern data generation method of  claim 7 , claim 7 wherein, in said second area dividing step, each of said plural second partial exposure areas has a width different from a width of each of said plural first partial exposure areas, and  in said third area dividing step, each of said plural third partial exposure areas has a width different from the width of each of said plural first partial exposure areas or the width of each of said plural second partial exposure areas. 9. The lithography pattern data generation method of  claim 7 , further comprising, after said third lithography pattern data generating step, a repeating step of repeating sub-steps of dividing said predetermined area into plural partial exposure areas and generating lithography pattern data until none of said design data extends over two or more of said plural partial exposure areas. claim 7 10. The lithography pattern data generation method of  claim 7 , claim 7 wherein, in extracting said first design data group in said first data group extracting step, each of said first partial exposure areas is enlarged by a predetermined width, and said first design data group is extracted on the basis of said first partial exposure areas with the enlarged width,  in extracting said third design data group in said second data group extracting step, each of said second partial exposure areas is enlarged by a predetermined width, and said third design data group is extracted on the basis of said second partial exposure areas with the enlarged width. 11. The lithography pattern data generation method of  claim 10 , claim 10 wherein, in extracting said first design data group in said first data group extracting step, a design data, among said design data each extending over two or more of said plural first partial exposure areas, which has a portion crossing a boundary of said first partial exposure areas and having a predetermined size or larger is included in said first design data group, and  in extracting said third design data group in said second data group extracting step, a design data, among said design data each extending over two or more of said plural second partial exposure areas, which has a portion crossing a boundary of said second partial exposure areas and having a predetermined size or larger is included in said third design data group. 12. The lithography pattern data generation method of  claim 7 , further comprising, after said third lithography pattern data generating step, steps of: claim 7 extracting, from said design data belonging to said fourth design data group, a design data which has a size, along a widthwise direction of each third partial exposure area, larger than a width of each third partial exposure area and includes a wide portion having a length, along a perpendicular direction to an exposure direction corresponding to an extending direction of said third partial exposure areas, smaller than the width of each third partial exposure area and a width, along the exposure direction, larger than a predetermined value; and  dividing said predetermined area into plural fourth partial exposure areas with said wide portion positioned on a boundary of said fourth partial exposure areas. 13. The lithography pattern data generation method of  claim 7 , claim 7 wherein, in said third lithography pattern data generating step, with respect to a design data having a size, along a widthwise direction of each third partial exposure area, larger than a width of each third partial exposure area, an auxiliary pattern data for preventing deformation of an exposed pattern to be drawn on said substrate is added onto a portion where said design data crosses a boundary of said third partial exposure areas. 14. A lithography pattern data generation method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate by using an exposure beam of charged particles, comprising: a data group generating step of generating, from said plural design data, a first design data group having a pattern width equal to or larger than a predetermined value and a second design data group having a pattern width smaller than said predetermined value;  a first area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural first partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said first design data group;  a data group extracting step of extracting, from said second design data group, design data each falling within any of said plural first partial exposure areas as a third design data group, and extracting design data each extending over two or more of said plural first partial exposure areas as a fourth design data group;  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said third design data group;  a second area dividing step of dividing said predetermined area into plural second partial exposure areas any of which covers at least one of said design data belonging to said fourth design data group, said plural second partial exposure areas being different from said plural first partial exposure areas; and  a third lithography pattern data generating step of generating third lithography pattern data of each of said plural second partial exposure areas from said design data belonging to said fourth design data group. 15. A lithography pattern fabrication method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate and drawing said generated lithography pattern data on said substrate by using an exposure beam of charged particles, comprising: a first area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural first partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a data group extracting step of extracting, from said plural design data, design data each falling within any of said plural first partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural first partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said first design data group;  a second area dividing step of dividing said predetermined area into plural second partial exposure areas any of which covers at least one of said design data belonging to said second design data group, said plural second partial exposure areas being different from said plural first partial exposure areas;  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural second partial exposure areas from said design data belonging to said second design data group;  a first patterning step of drawing first exposed patterns corresponding to said first lithography pattern data on said substrate by adjusting said exposure beam in accordance with said first lithography pattern data; and  a second patterning step of drawing second exposed patterns corresponding to said second lithography pattern data on said substrate by adjusting said exposure beam in accordance with said second lithography pattern data. 16. The lithography pattern fabrication method of  claim 15 , claim 15 wherein, in extracting said first design data group in said data group extracting step, each of said first partial exposure areas is enlarged by a predetermined width, and said first design data group is extracted on the basis of said first partial exposure areas with the enlarged width. 17. The lithography pattern fabrication method of  claim 16 , claim 16 wherein, in extracting said first design data group in said data group extracting step, a design data, among said design data each extending over two or more of said plural first partial exposure areas, which has a portion crossing a boundary of said first partial exposure areas and having a predetermined size or larger is included in said first design data group. 18. The lithography pattern fabrication method of  claim 17 , claim 17 wherein, in said second patterning step, multiple exposure is conducted on a design data belonging to said second design data group. 19. A lithography pattern fabrication method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate and drawing said generated lithography pattern data on said substrate by using an exposure beam of charged particles, comprising: a first area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural first partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a first data group extracting step of extracting, from said plural design data, design data each falling within any of said plural first partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural first partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural first partial exposure areas from said design data belonging to said first design data group;  a second area dividing step of dividing said predetermined area into plural second partial exposure areas any of which covers at least one of said design data belonging to said second design data group, said plural second partial exposure areas being different from said plural first partial exposure areas;  a second data group extracting step of extracting, from said second design data group, design data each falling within any of said plural second partial exposure areas as a third design data group, and extracting design data each extending over two or more of said plural second partial exposure areas as a fourth design data group;  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural second partial exposure areas from said design data belonging to said third design data group;  a third area dividing step of dividing said predetermined area into plural third partial exposure areas any of which covers at least one of said design data belonging to said fourth design data group, said plural third partial exposure areas being different from said plural second partial exposure areas;  a third lithography pattern data generating step of generating third lithography pattern data of each of said plural third partial exposure areas from said design data belonging to said fourth design data group;  a first patterning step of drawing first exposed patterns corresponding to said first lithography pattern data on said substrate by adjusting an output state, a deflection state oran irradiation position on said substrate of said exposure beam in accordance with said first lithography pattern data;  a second patterning step of drawing second exposed patterns corresponding to said second lithography pattern data on said substrate by adjusting the output state, the deflection state or the irradiation position on said substrate of said exposure beam in accordance with said second lithography pattern data; and  a third patterning step of drawing third exposed patterns corresponding to said third lithography pattern data on said substrate by adjusting the output state, the deflection state or the irradiation position on said substrate of said exposure beam in accordance with said third lithography pattern data. 20. The lithography pattern fabrication method of  claim 19 , claim 19 wherein, in extracting said first design data group in said first data group extracting step, each of said first partial exposure areas is enlarged by a predetermined width, and said first design data group is extracted on the basis of said first partial exposure areas with the enlarged width, and  in extracting said third design data group in said second data group extracting step, each of said second partial exposure areas is enlarged by a predetermined width, and said third design data group is extracted on the basis of said second partial exposure areas with the enlarged width. 21. The lithography pattern fabrication method of  claim 20 , claim 20 wherein, in extracting said first design data group in said first data group extracting step, a design data, among said design data each extending over two or more of said plural first partial exposure areas, which has a portion crossing a boundary of said first partial exposure areas and having a predetermined size or larger is included in said first design data group, and  in extracting said third design data group in said second data group extracting step, a design data, among said design data each extending over two or more of said plural second partial exposure areas, which has a portion crossing a boundary of said second partial exposure areas and having a predetermined size or larger is included in said third design data group. 22. The lithography pattern fabrication method of  claim 21 , claim 21 wherein, in said third patterning step, multiple exposure is conducted on a design pattern belonging to said fourth design data group. 23. A lithography pattern fabrication method for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate and drawing said generated lithography pattern data on said substrate by using an exposure beam of charged particles, comprising: an area dividing step of dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural partial exposure areas each in the shape of a stripe with a width corresponding to a deflection width of said exposure beam;  a data group extracting step of extracting, from said plural design data, design data each falling within any of said plural partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural partial exposure areas as a second design data group;  a first lithography pattern data generating step of generating first lithography pattern data of each of said plural partial exposure areas from said design data belonging to said first design data group;  a second lithography pattern data generating step of generating second lithography pattern data of each of said plural partial exposure areas from said design data belonging to said second design data group;  a first patterning step of drawing first exposed patterns corresponding to said first lithography pattern data on said substrate by adjusting said exposure beam in accordance with said first lithography pattern data; and  a second patterning step of drawing second exposed patterns corresponding to said second lithography pattern data on said substrate by adjusting said exposure beam in accordance with said second lithography pattern data an d by carrying out multiple exposure. 24. The lithography pattern fabrication method of  claim 23 , claim 23 wherein, in extracting said first design data group in said data group extracting step, a design data, among said design data each extending over two or more of said plural partial exposure areas, which has a portion crossing a boundary of said partial exposure areas and having a predetermined size or larger is included in said first design data group. 25. A charged particle lithography system for generating, from plural design data corresponding to design patterns, lithography pattern data to be drawn correspondingly to said design patterns on a substrate and drawing said generated lithography pattern data on said substrate by using an exposure beam of charged particles, comprising: charged particle producing means for emitting said exposure beam to said substrate;  substrate supporting means for supporting said substrate;  beam shaping means disposed between said charged particle producing means and said substrate supporting means for shaping said exposure beam into a predetermined shape;  charged particle controlling means for controlling an output state of said charged particle producing means;  substrate position controlling means for determining a relative position of said substrate supporting means against said charge particle producing means;  beam shape controlling means for controlling said beam shaping means to adjust the shape of said exposure beam; and  lithography pattern data generating means for generating said lithography pattern data from said plural design data,  wherein said lithography pattern data generating means includes:  an area dividing part for dividing a predetermined area where said plural design data are arranged, which corresponds to an area where said design patterns are to be formed, into plural partial exposure areas each in the shape of a stripe with a variable width corresponding to a deflection width of said exposure beam;  a data group extracting part for extracting, from said plural design data, design data each falling within any of said plural partial exposure areas as a first design data group, and extracting design data each extending over two or more of said plural partial exposure areas as a second design data group; and  a data generating part for generating first lithography pattern data of each of said plural partial exposure areas from said design data belonging to said first design data group, and generating second lithography pattern data of each of said plural partial exposure areas from said design data belonging to said second design data group,  said charged particle controlling means controls an output state of said charged particle producing means on the basis of said-generated lithography pattern data,  said substrate position controlling means changes a relative position of said substrate supported by said substrate supporting means against said exposure beam emitted by said charged particle producing means on the basis of said generated lithography pattern data, and  said beam shape controlling means shapes said exposure beam into a stripe shape corresponding to each of said partial exposure areas on the basis of said generated lithography pattern data. 26. The charged particle lithography system of  claim 25 , claim 25 wherein said lithography pattern data generating means conducts multiple exposure on said second lithography pattern data.