Image processing device, image coding method, and image processing method

The invention claimed is: 1. An image processing device which performs plural first processes, by pipelining, on a coded stream obtained by dividing an image into plural coding unit blocks according to at least two numbers of pixels and coding the image on a coding unit block-by-block basis, the image processing device comprising: plural first process units configured to perform, by the pipelining, the plural first processes on the coded stream by each executing one of the plural first processes; and a control unit configured to divide or connect portions of the coded stream into plural first processing unit blocks according to a first number of pixels, each of the first processing unit blocks having the same number of pixels in the image, and control the plural first process units to cause the plural first processes to be executed for each of the first processing unit blocks. 2. The image processing device according to claim 1 , wherein the plural first process units are configured to perform, on the coded stream, the plural first processes for decoding the image. 3. The image processing device according to claim 1 , wherein the control unit is configured to divide or connect the portions of the coded stream into the plural first processing unit blocks by dividing a coding unit block included in the coded stream or uniting at least two coding unit blocks included in the coded stream, and control the plural first process units to cause the plural first processes to be executed for each of the first processing unit blocks. 4. The image processing device according to claim 1 , wherein the control unit is configured to control the plural first process units to cause each of the plural first processes to be executed on each of the plural first processing unit blocks in a predetermined period. 5. The image processing device according to claim 1 , wherein the control unit is configured to divide or connect the portions of the coded stream into the plural first processing unit blocks, and control the plural first process units to cause the plural first processes to be executed for each of the first processing unit blocks, the coded stream being obtained by dividing the image into the plural coding unit blocks which are smallest units for each of which inter prediction and intra prediction are switchable, and coding the image on the coding unit block-by-block basis. 6. The image processing device according to claim 1 , wherein the control unit is configured to divide or connect the portions of the coded stream into the plural first processing unit blocks according to the first number of pixels, the first number of pixels being predetermined to be the number of pixels of a largest coding unit block, and control the plural first process units to cause the plural first processes to be executed for each of the first processing unit blocks. 7. The image processing device according to claim 1 , wherein the control unit is configured to divide or connect the portions of the coded stream into the plural first processing unit blocks according to the first number of pixels, the first number of pixels being predetermined to be the number of pixels of a largest frequency transform block, and control the plural first process units to cause the plural first processes to be executed for each of the first processing unit blocks. 8. The image processing device according to claim 1 , wherein the plural first process units include plural second process units configured to execute plural second processes included in the plural first processes, and the control unit is configured to divide the plural first processing unit blocks into plural second processing unit blocks according to a second number of pixels, the second processing unit blocks having the same number of pixels in the image, and the second number of pixels being smaller than the first number of pixels, and control the plural second process units to cause the plural second processes to be executed for each of the second processing unit blocks. 9. The image processing device according to claim 1 , wherein the plural first process units include plural second process units configured to execute plural second processes included in the plural first processes, and the control unit is configured to divide the plural first processing unit blocks into plural second processing unit blocks according to at least two numbers of pixels, each of the at least two numbers of pixels being equal to or smaller than the first number of pixels, and control the plural second process units to cause the plural second processes to be executed for each of the second processing unit blocks. 10. The image processing device according to claim 9 , wherein the control unit is configured to divide the plural first processing unit blocks into the plural second processing unit blocks to separate luma information and chroma information, and control the plural second process units to cause the plural second processes to be executed for each of the second processing unit blocks. 11. The image processing device according to claim 10 , wherein the plural first process units include a motion compensation process unit configured to execute a motion compensation process, the control unit is configured to divide the plural first processing unit blocks into plural third processing unit blocks according to a number of pixels smaller than the first number of pixels, and control the motion compensation process unit to cause the motion compensation process to be executed for each of the third processing unit blocks, and the control unit is configured to divide the plural first processing unit blocks into the plural third processing unit blocks each including the luma information and the chroma information. 12. The image processing device according to claim 7 , wherein the plural first process units include a motion compensation process unit configured to execute a motion compensation process, and when a prediction block to be used for the motion compensation process has a number of pixels larger than the first number of pixels, the control unit is configured to divide the prediction block into the plural first processing unit blocks, and control the motion compensation process unit to cause the motion compensation process to be executed for each of the first processing unit blocks. 13. The image processing device according to claim 7 , wherein the plural first process units include an intra prediction process unit configured to execute an intra prediction process, and when a prediction block to be used for the intra prediction process has a number of pixels larger than the first number of pixels, the control unit is configured to divide the prediction block into the plural first processing unit blocks, and control the intra prediction process unit to cause the intra prediction process to be executed for each of the first processing unit blocks. 14. The image processing device according to claim 7 , wherein the plural first process units include a deblocking filtering process unit configured to execute a deblocking filtering process for eliminating coding distortion at a block boundary, and the control unit is configured to control the deblocking filtering process unit to cause the deblocking filtering process to be executed for each of frequency transform blocks according to order in which a frequency transform process has been executed when the image is coded. 15. An image processing method for performing plural first processes, by pipelining, on a coded stream obtained by dividing an image into plural c