Liquid ejection apparatus

What is claimed is: 1 . A liquid ejection apparatus comprising: a head including at least a first nozzle array and a second nozzle array, the first nozzle array including nozzles arranged at a particular pitch in a first direction, the second nozzle array including nozzles arranged at the particular pitch in the first direction, the nozzles in the second nozzle array being located at positions shifted from the nozzles in the first nozzle array in the first direction; a carriage on which the head is mounted, the carriage being configured to move in a second direction crossing the first direction; a driving circuit configured to output a drive signal to each of the nozzles; a memory; and a controller configured to perform: storing, in the memory, image data of an image to be formed; and controlling the driving circuit to: output the drive signal for a first nozzle in the first nozzle array based on first data among one-line image data stored in the memory, the one-line image data being the image data for one line in the second direction in the image, the first data forming odd-numbered dots of the one line in the second direction in the image; and output the drive signal for a second nozzle in the second nozzle array based on second data among the one-line image data, the second data forming even-numbered dots of the one line in the second direction in the image, wherein the controller is configured to output addresses to the driving circuit in such a manner that it is identifiable whether each of the addresses is a first address or a second address, the first address being an address in the memory at which the first data is stored, the second address being an address in the memory at which the second data is stored; and wherein the driving circuit is configured to: read the first data and the second data from the memory by using the addresses output from the controller; output the drive signal for the first nozzle based on the first data read from the memory; and output the drive signal for the second nozzle based on the second data read from the memory. 2 . The liquid ejection apparatus according to claim 1 , wherein the controller is configured to switch a moving speed of the carriage between a high speed mode and a normal mode in which the moving speed of the carriage is lower than the high speed mode; wherein the controller is configured to: in the high speed mode, output the addresses to the driving circuit in such a manner that it is identifiable whether each of the addresses is the first address or the second address; and in the normal mode, output, to the driving circuit, the addresses including the first address and the second address; wherein the driving circuit is configured to: read the first data and the second data from the memory by using the addresses output from the controller; in the high speed mode, output the drive signal for the first nozzle based on the first data read from the memory, and output the drive signal for the second nozzle based on the second data read from the memory; and in the normal mode, output either the drive signal for the first nozzle or the drive signal for the second nozzle based on the first data and the second data read from the memory. 3 . A liquid ejection apparatus comprising: a head including at least a first nozzle array and a second nozzle array, the first nozzle array including nozzles arranged at a particular pitch in a first direction, the second nozzle array including nozzles arranged at the particular pitch in the first direction, the nozzles in the second nozzle array being located at positions shifted from the nozzles in the first nozzle array in the first direction; a carriage on which the head is mounted, the carriage being configured to move in a second direction crossing the first direction; a driving circuit configured to output a drive signal to each of the nozzles; a memory; and a controller configured to perform: storing, in the memory, image data of an image to be formed; and controlling the driving circuit to: output the drive signal for a first nozzle in the first nozzle array based on first data among one-line image data stored in the memory, the one-line image data being the image data for one line in the second direction in the image, the first data forming odd-numbered dots of the one line in the second direction in the image; and output the drive signal for a second nozzle in the second nozzle array based on second data among the one-line image data, the second data forming even-numbered dots of the one line in the second direction in the image, wherein the controller is further configured to output, to the driving circuit, an instruction of shifting a liquid ejection timing; and wherein the driving circuit is configured to: in response to receiving the instruction from the controller, output the drive signal for shifting the liquid ejection timing such that landing positions of liquid ejected from the second nozzle are shifted from landing positions of liquid ejected from the first nozzle in the second direction. 4 . A liquid ejection apparatus comprising: a head including at least a first nozzle array and a second nozzle array, the first nozzle array including nozzles arranged at a particular pitch in a first direction, the second nozzle array including nozzles arranged at the particular pitch in the first direction, the nozzles in the second nozzle array being located at positions shifted from the nozzles in the first nozzle array in the first direction, wherein the head further includes: a third nozzle array including nozzles arranged at the particular pitch in the first direction; and a fourth nozzle array including nozzles arranged at the particular pitch in the first direction; a carriage on which the head is mounted, the carriage being configured to move in a second direction crossing the first direction; a driving circuit configured to output a drive signal to each of the nozzles; a memory; and a controller configured to perform: storing, in the memory, image data of an image to be formed; and controlling the driving circuit to: output the drive signal for a first nozzle in the first nozzle array based on first data among one-line image data stored in the memory, the one-line image data being the image data for one line in the second direction in the image, the first data forming odd-numbered dots of the one line in the second direction in the image; and output the drive signal for a second nozzle in the second nozzle array based on second data among the one-line image data, the second data forming even-numbered dots of the one line in the second direction in the image, wherein the second nozzle is located at a position shifted by ¼ of the particular pitch from the first nozzle in the first direction; wherein a third nozzle in the third nozzle array is located at a position shifted by ½ of the particular pitch from the first nozzle in the first direction; wherein a fourth nozzle in the fourth nozzle array is located at a position shifted by ¾ of the particular pitch from the first nozzle in the first direction; and wherein the controller is configured to control the driving circuit to: output the drive signal for the third nozzle based on third data among next-line image data stored in the memory, the next-line image data being the image data for next one line in the second direction in the image, the third data forming odd-numbered dots of the next one line in the second direction in the image; and output the drive signal for the fourth nozzle based on fourth data among the next-line image data, the fourth data forming even-numbered dots of the next one line in the second direction in the image. 5 . The liquid ejection apparatus according to claim 4 ,