IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0267777
(2005-11-04)
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등록번호 |
US-8736623
(2014-05-27)
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발명자
/ 주소 |
- Lew, Stephen D.
- Gadre, Shirish
- Karandikar, Ashish
- Sijstermans, Franciscus W.
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출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
149 |
초록
▼
A method for using a programmable DMA engine to implement memory transfers and video processing for a video processor. A DMA control program is configured for controlling DMA memory transfers between a frame buffer memory and a video processor. The DMA control program is stored in the DMA engine. A
A method for using a programmable DMA engine to implement memory transfers and video processing for a video processor. A DMA control program is configured for controlling DMA memory transfers between a frame buffer memory and a video processor. The DMA control program is stored in the DMA engine. A DMA request can be received from the video processor. The DMA control program is executable to implement the DMA request for the video processor. The DMA engine is operable to execute low-level command for accessing the frame buffer memory to implement a high-level command.
대표청구항
▼
1. A method for using a programmable DMA engine to implement memory transfers for a video processor, comprising: accessing a DMA control program configured for controlling DMA memory transfers between a frame buffer memory and a video processor;storing the DMA control program into an instruction sto
1. A method for using a programmable DMA engine to implement memory transfers for a video processor, comprising: accessing a DMA control program configured for controlling DMA memory transfers between a frame buffer memory and a video processor;storing the DMA control program into an instruction store unit of the DMA engine;receiving a DMA request from the video processor; andexecuting the DMA control program to implement the DMA request for the video processor, wherein in executing the DMA control program, the DMA engine is operable to execute a plurality of low-level commands for accessing the frame buffer memory to implement a high-level command and wherein the high-level command corresponds to a pixel based video processing function supported by the DMA engine and the DMA engine is operable to perform at least one pixel based video processing function that the video processor is operable to perform. 2. The method of claim 1, further comprising: accessing a plurality of different DMA control programs for controlling a plurality of different DMA memory transfer modes; andexecuting one of the plurality of DMA control programs in accordance with receiving one of a plurality of corresponding DMA requests from the video processor. 3. The method of claim 1, wherein the DMA request from the video processor comprises a high-level command, and wherein the DMA engine is operable to execute a plurality of low-level commands for accessing the frame buffer memory to implement the high-level command. 4. The method of claim 3, wherein the high-level command comprises a 2-D command, and wherein the DMA engine executes a plurality of tile fetch commands to assemble data comprising the 2-D command and provide the data to the video processor. 5. The method of claim 3, wherein the high-level command comprises a pixel level formatting command, and wherein the DMA engine executes a plurality of pixel level format instructions to implement the pixel level formatting command. 6. The method of claim 5, wherein the pixel level formatting comprises shifting, saturation, clamping, or permutation. 7. The method of claim 3, wherein the high-level command comprises a boundary tile access, and wherein the DMA engine executes a plurality of tile fetch commands to crop data of at least one boundary tile. 8. The method of claim 3, wherein the high-level command comprises an image access command, and wherein the DMA engine implements one of a plurality of configurable tiling modes to fetch the data comprising an image. 9. The method of claim 1, wherein the executing of the DMA control programs to implement the DMA requests for the video processor is configured to reduce a workload of the video processor. 10. A programmable DMA engine for implementing memory transfers for a video processor, comprising: a controller for accessing a DMA control program configured for controlling DMA memory transfers between a frame buffer memory and a video processor;an instruction storage unit for storing the DMA control program;an input buffer for receiving a DMA request from the video processor; andan output buffer for providing the request to DMA output data to the video processor upon the execution of the DMA control program, wherein the DMA request from the video processor comprises a high level command, and wherein the DMA engine is configured to execute a plurality of low-level commands for accessing the frame buffer memory to implement the high-level command and wherein the high-level command corresponds to a pixel based video processing function supported by the DMA engine and the DMA engine is operable to perform at least one pixel based video processing function that the video processor is operable to perform. 11. The programmable DMA engine of claim 10, wherein the controller is configured to access a plurality of different DMA control programs for controlling a plurality of different DMA memory transfer modes, and execute one of the plurality of DMA control programs in accordance with receiving one of a plurality of corresponding DMA requests from the video processor. 12. The programmable DMA engine of claim 10, wherein the high-level command comprises a 2-D command, and wherein the DMA engine executes a plurality of tile fetch commands to assemble data comprising the 2-D command and provide the data to the video processor. 13. The programmable DMA engine of claim 10, wherein the high-level command comprises a pixel level formatting command, and wherein the DMA engine executes a plurality of pixel level format instructions to implement the pixel level formatting. 14. The programmable DMA engine of claim 13, wherein the pixel level formatting comprises shifting, saturation, clamping, or permutation. 15. The programmable DMA engine of claim 10, wherein the high-level command comprises a boundary tile access, and wherein the DMA engine executes a plurality of tile fetch commands to crop data of at least one boundary tile. 16. The programmable DMA engine of claim 11, wherein the high-level command comprises an image access command, and wherein the DMA engine implements one of a plurality of configurable tiling modes to fetch the data comprising an image. 17. A system for executing video processing operations, comprising: a CPU;a video processor coupled to the CPU, comprising:a memory interface for establishing communication between the video processor and a frame buffer memory;a vector execution unit coupled to the memory interface and configured to execute vector video processing operations; anda programmable DMA engine to implement memory transfers between the vector execution unit and the frame buffer memory, the DMA engine executing computer readable code which causes the DMA engine to implement a method comprising:accessing a DMA control program configured for controlling DMA memory transfers between the frame buffer memory and the vector execution unit;storing the DMA control program into an instruction store unit of the DMA engine;receiving a DMA request from the vector execution unit; andexecuting the DMA control program to implement the DMA request for the vector execution unit, wherein in executing the DMA control program, the DMA engine is operable to execute a plurality of low-level commands for accessing the frame buffer memory to implement a high-level command and wherein the high-level command corresponds to a pixel based video processing function supported by the DMA engine and the DMA engine is operable to perform at least one pixel based video processing function that the video processor is operable to perform. 18. The system of claim 17, wherein the method further comprises: accessing a plurality of different DMA control programs for controlling a plurality of different DMA memory transfer modes; andexecuting one of the plurality of DMA control programs in accordance with receiving one of a plurality of corresponding DMA requests from the vector execution unit. 19. The system of claim 17, wherein the DMA request from the video processor comprises a high-level command, and wherein the DMA engine is operable to execute a plurality of low-level commands for accessing the frame buffer memory to implement the high-level command. 20. The system of claim 17, wherein the DMA engine is operable to offload work from the vector execution unit.
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