Image combination device and display system comprising the same

What is claimed is: 1. An image combination device, comprising: at least one processor configured to execute computer readable instructions to, determine whether a plurality of layers associated with a frame of an image belong to a first layer group or a second layer group, the first layer group and the second layer group each including a plurality of successive layers of the plurality of layers associated with the frame of the image, the layers of the second layer group not including the layers of the first layer group, the first layer group including at least one layer of the plurality of layers that has a sparse attribute, and the second layer group including at least one layer of the plurality of layers that has a non-sparse attribute, wherein the layers in the plurality of layers with the sparse attribute are more frequently updated than the layers in the second layer group; separate the plurality of layers into the first layer group and the second layer group; determine whether any of the layers of the first layer group are to be updated; receive the layers of the first layer group from an external memory in response to at least one layer of the first layer group being determined as needing to be updated; combine the layers of the first layer group to produce a first composite image in a first frame and transmit the first composite image to a buffer memory in response to the at least one layer of the first layer group being determined as needing to be updated, and receive the first composite image of a previous frame obtained from the buffer memory in response to the layers of the first layer group being determined as not needing to be updated and not transmit the first composite image to the buffer memory when the layers included in the first layer group are not updated; and combine the second layer group, including updated layers of the second layer group with the first composite image to produce a second composite image in a second frame subsequent to the first frame. 2. The image combination device of claim 1 , wherein the at least one processor is further configured to, receive the second composite image and transmit the received second composite image to an external device. 3. The image combination device of claim 2 , wherein the at least one processor is further configured to transmit the second composite image to the external device for each frame. 4. The image combination device of claim 2 , wherein the at least one processor is further configured to determine whether to output the first composite image or the second composite image to the external device. 5. The image combination device of claim 2 , wherein the buffer memory is located in the at least one processor, or the buffer memory is located outside the at least one processor as a separate memory. 6. The image combination device of claim 2 , wherein the at least one processor comprises a sparse attribute register (SAR) configured to store update attribute information about each of the layers input to the at least one processor; the update attribute information includes the sparse attribute or the non-sparse attribute; and the sparse attribute or the non-sparse attribute is given based on data previously determined in each of the layers, or is given based on information stored in an update counter register (UCNT) configured to store update frequency information about each of the layers. 7. The image combination device of claim 6 , wherein the first layer group includes a set of successive layers having the sparse attribute. 8. The image combination device of claim 2 , wherein the at least one processor includes an update register (UPD) configured to store update information about each of the layers input to the at least one processor; and the UPD includes information about whether each of the layers is updated with respect to a current frame. 9. The image combination device of claim 8 , wherein the at least one processor is further configured to: not produce the first composite image in the second frame when the layers included in the first layer group are not updated; and produce the second composite image using the first composite image produced in the first frame and the updated layers. 10. The image combination device of claim 2 , wherein the at least one processor comprises: a valid layer register (VLD) configured to store information about whether each of the layers input to the at least one processor is valid; and a sparse group layer register (SGLR) configured to store information about whether each of the layers input to the at least one processor is included in the first layer group. 11. The image combination device of claim 10 , wherein the at least one processor is configured to perform a combination operation of the layers in which the VLD is activated. 12. An image combination device, comprising: at least one processor configured to execute computer readable instructions to, determine whether a plurality of layers associated with a frame of an image belong to a first layer group or a second layer group, the first layer group including at least one layer of the plurality of layers that has a sparse attribute, and the second layer group including at least one layer of the plurality of layers that has a non-sparse attribute, wherein the layers in the plurality of layers with the sparse attribute are more frequently updated than the layers in the second layer group; separate the plurality of layers into the first layer group and the second layer group, the layers in the second layer group not overlapping the layers in the first layer group, the at least one processor including a sparse attribute register (SAR) configured to store update attribute information about the plurality of layers that are activated based on the sparse attribute or non-sparse attribute; determine whether any of the layers of the first layer group are activated based on the stored update attribute information; receive the layers of the first layer group from an external memory in response to at least one layer of the first layer group being determined as being activated; combine the layers of the first layer group to produce a first composite image in a first frame and transmit the first composite image to a buffer memory in response to the at least one layer of the first layer group being determined as being activated, and receive the first composite image of a previous frame obtained from the buffer memory in response to the layers of the first layer group being determined as not needing to be updated and not transmit the first composite image to the buffer memory when the layers included in the first layer group are not updated; and combine the first composite image with the layers in the second layer group to produce a second composite image. 13. The image combination device of claim 12 , wherein the at least one processor is further configured to: receive the second composite image and transmit the second composite image to an external device. 14. The image combination device of claim 13 , wherein the at least one processor is further configured to transmit the second composite image to the external device for each frame. 15. A display system comprising: at least one processor configured to execute computer readable instructions to, assign attribute information to each of a plurality of layers associated with a frame of an image based on update characteristics of each of the plurality of layers, assign each of the plurality of layers into one of at least two groups based on the assigned attribute information of each of th