Patent Number: 
Section: claims

1. A charged particle beam writing apparatus for deflecting a charged particle beam by a main deflector and a sub deflector to write a pattern sample, comprising:a shot data generator for generating shot data from write data in which the shape and position of each graphic pattern are defined; anda deflection controller for generating deflection data for controlling the main deflector and the sub deflector from the shot data,wherein the shot data generator comprises shot dividing means for dividing the graphic pattern defined in the write data into graphics expressed in shot units, and means for distributing the respective graphics divided by the shot dividing means to subfield areas capable of being deflected by the main deflector, such that a number of shots over all subfield areas is constant regardless of a presence or absence of subfield boundaries,wherein a plurality of subfield areas are configured in such a manner that the subfield areas adjacent to one another overlap one another in widths greater than or equal to a maximum shot size, andwherein when part of each of the graphics divided by the shot dividing means is located in an overlapped portion of each of the subfield areas, the distributing means distributes the corresponding graphic to any one of the subfield areas, based on the position of a standard point of the graphic. 2. The charged particle beam writing apparatus according to claim 1, further comprising:a first shaping aperture having an opening for allowing a charged particle beam irradiated from a charged particle gun to be penetrated therethrough; anda second shaping aperture having an opening for allowing the charged particle beam penetrated through the opening of the first shaping aperture to be penetrated therethrough,wherein the shot data generator further comprises write data modifying means for executing a write data modifying process for moving the position of each of the graphics divided by the shot dividing means on write data, based on which portion of the opening of the second shaping aperture is a graphic corresponding to each pattern written by the penetrated charged particle beam, andwherein the graphics whose positions have been moved on the write data by the write data modifying means, are distributed by the distributing means. 3. A charged particle beam writing method for writing each pattern onto a sample using a charged particle beam deflected by a main deflector and a sub deflector, comprising the steps of:generating shot data from write data in which the shape and position of each graphic pattern are defined; andgenerating deflection data for controlling the main deflector and the sub deflector from the shot data,wherein the shot data generating step includes a shot dividing step for dividing the graphic pattern defined in the write data into a plurality of graphics expressed in shot units, and a distributing step for distributing the divided graphics to their corresponding subfield areas capable of being deflected by the main deflector, such that a number of shots over all subfield areas is constant regardless of a presence or absence of subfield boundaries,wherein a plurality of subfield areas are configured in such a manner that the subfield areas adjacent to one another overlap one another in widths greater than or equal to a maximum shot size, andwherein, in the distributing step, when part of each of the graphics divided at the dividing step is located in an overlapped portion of each of the subfield areas, the corresponding graphic is distributed to any one of the subfield areas, based on the position of a standard point of the graphic. 4. The charged particle beam writing method according to claim 3, wherein after the completion of the shot dividing step, the distributing step is executed while a process for developing positional information defined in the write data is being performed. 5. The charged particle beam writing method according to claim 3, wherein after the completion of the shot dividing step, the distributing step is executed while a process for developing positional information defined in the write data is being performed. 6. The charged particle beam writing method according to claim 3, wherein the charged particle beam is further penetrated through an opening of a second shaping aperture after having been penetrated through an opening of a first shaping aperture, wherein the shot data generating step further comprises a write data modifying step for executing a write data modifying process for moving the position of each of the graphics divided at the shot dividing step on write data, based on which portion of the opening of the second shaping aperture is a graphic corresponding to each pattern written by the penetrated charged particle beam and wherein the graphics whose positions have been moved on the write data in accordance with the write data modifying step, are distributed at the distributing step.