Patent Number: 
Section: claims

1. A method of creating writing data for writing a pattern on a target workpiece by using a writing apparatus provided with a plurality of columns that emit charged particle beams, comprising:inputting information on distance between optical centers of the plurality of columns variably shaping charged particle beams and emitting the charged particle beams variably shaped to the target workpiece;inputting layout data and virtually dividing a writing region indicated by the layout data into a plurality of small regions, by a width of one integer-th of the distance indicated by the information on distance;converting, for each small region, the layout data to a format adaptable to the writing apparatus to create, for the each small region, the writing data whose writing region is divided into the small regions and which is used for at least one of the plurality of columns variably shaping charged particle beams and emitting the charged particle beams variably shaped to the target workpiece; andoutputting the writing data. 2. The method according to claim 1, wherein a value of the integer is set so that a quotient obtained by dividing the distance by the integer is equal to or less than a width which can be written by the plurality of columns. 3. A charged particle beam writing apparatus comprising:a storage unit configured to temporarily store a k-th frame data of a first chip;a first deflection control unit configured to read the k-th frame data from the storage unit, and control a deflection position of a first charged particle beam;a first column configured to emit the first charged particle beam onto a k-th frame position of the first chip, based on the k-th frame data read by the first deflection control unit;a second deflection control unit configured to read the k-th frame data from the storage unit after the k-th frame data having been read from the storage unit by the first deflection control unit and before the k-th frame data being rewritten by other data, and control a deflection position of a second charged particle beam; anda second column configured to emit the second charged particle beam onto the k-th frame position of a second chip, based on the k-th frame data read by the second deflection control unit. 4. The apparatus according to claim 3, wherein both a width of a k-th frame of the first chip and a width of a k-th frame of the second chip are a width of one integer-th of a distance between optical centers of the first column and the second column. 5. The apparatus according to claim 4, wherein the first column writes a pattern on another frame of the first chip, which is different from a frame of the first chip corresponding to a frame of the second chip written by the second column, at a substantially same time as writing by the second column. 6. A charged particle beam writing apparatus comprising:a stage configured to mount a target workpiece thereon and move in a predetermined direction; andn columns, arranged in the predetermined direction in order, configured to write a corresponding pattern in a small region of 1/n of a writing region of the target workpiece, using a charged particle beam, respectively,wherein the stage moves at a speed for writing a small region of highest pattern density among the n small regions. 7. The apparatus according to claim 6, wherein the n columns substantially simultaneously write the corresponding pattern in n small regions respectively. 8. A charged particle beam writing apparatus comprising:a stage configured to mount a target workpiece thereon and move in a predetermined direction; andn columns, arranged in the predetermined direction in order, configured to perform writing processing using a charged particle beam,wherein, in a case that at least two columns are respectively located above a region where a number of shots is larger than that of other region, the apparatus has a function of performing writing processing while giving priority than other case. 9. The apparatus according to claim 8, wherein, when writing positions of the n columns are composed of a region with a large number of shots and at least one region with a small number of shots, only at least one column located at the region with a small number of shots among the n columns performs writing processing.