Portions of a cache are flushed in stages. An exemplary flushing of the present invention comprises flushing a first portion, performing operations other than a flush, and then flushing a second portion of the cache. The first portion may be disabled after it is flushed. The cache may be functionall
Portions of a cache are flushed in stages. An exemplary flushing of the present invention comprises flushing a first portion, performing operations other than a flush, and then flushing a second portion of the cache. The first portion may be disabled after it is flushed. The cache may be functionally divided into portions prior to a flush, or the portions may be determined in part by an abort signal. The operations may access either the cache or the memory. The operations may involve direct memory access or interrupt servicing.
대표청구항▼
What is claimed is: 1. A method of transitioning a processor from one operating mode to a second operating mode, comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is availabl
What is claimed is: 1. A method of transitioning a processor from one operating mode to a second operating mode, comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one state in which code is executed to a second state in which code is not executed; and enabling the disabled portions of the cache. 2. The method of claim 1 wherein transitioning the processor from one operating mode to the second operating mode comprises transitioning the processor from one processor mode within the G0 working state to a second processor mode within the G0 working state. 3. The method of claim 1, further comprising functionally dividing the cache into the first portion and the second portion prior to flushing the first portion. 4. The method of claim 1, wherein disabling the first portion comprises disabling the first portion once the flushing of the first portion is complete. 5. The method of claim 1, further comprising flushing a third portion of the cache in a third stage, wherein the processor is available between the second stage and the third stage. 6. The method of claim 1, wherein the first portion of the cache is larger than the second portion of the cache. 7. The method of claim 1, wherein flushing the first portion of the cache comprises flushing the first portion of a L1 primary cache. 8. The method of claim 1, further comprising enabling interrupts after transitioning from the one operating mode to the second operating mode. 9. The method of claim 1, further comprising servicing an interrupt when the processor is available. 10. A method of transitioning a processor from one operating mode to a second operating mode, comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; servicing an interrupt when the processor is available; transitioning the processor from the one operating mode to the second operating mode; and enabling the disabled portions of the cache. 11. The method of claim 1, further comprising accessing a memory location when the processor is available. 12. A method of transitioning a processor from one operating mode to a second operating mode, comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one operating mode to the second operating mode; and enabling the disabled portions of the cache; and enabling interrupts after transitioning from the one operating mode to the second operating mode. 13. A method of transitioning a processor from one operating mode to a second operating mode, comprising: modifying the cache flush instruction prior to flushing a first portion of the cache flushing the first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one operating mode to the second operating mode; and enabling the disabled portions of the cache. 14. The method of claim 13 wherein transitioning from one operating mode to the second operating mode comprises transitioning a processor from a state in which code is executed to a second state in which code is not executed. 15. An article comprising a machine-readable medium storing instructions for transitioning a processor from one operating mode to a second operating mode, the instructions operable to cause operations comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one state in which code is executed to a second state in which code is not executed; and enabling the disabled portions of the cache. 16. The article of claim 15 wherein transitioning the processor from one operating mode to the second operating mode comprises transitioning the processor from one processor mode within the G0 working state to a second processor mode within the G0 working state. 17. The article of claim 15, wherein the operations further comprise functionally dividing the cache into the first portion and the second portion prior to flushing the first portion. 18. The article of claim 15, wherein disabling the first portion comprises disabling the first portion once the flushing of the first portion is complete. 19. The article of claim 15, wherein the operations further comprise accessing a memory location when the processor is available. 20. The article of claim 15, wherein the operations further comprise flushing a third portion of the cache in a third stage, wherein the processor is available between the second stage and the third stage. 21. The article of claim 15, wherein the first portion of the cache is larger than the second portion of the cache. 22. The article of claim 15, wherein flushing the first portion of the cache comprises flushing the first portion of a L1 primary cache. 23. The article of claim 15, wherein the operations further comprise servicing an interrupt when the processor is available. 24. The article of claim 15, wherein the operations further comprise enabling interrupts after transitioning from the one operating mode to the second operating mode. 25. An article comprising a machine-readable medium storing instructions for transitioning a processor from one operating mode to a second operating mode, the instructions operable to cause operations comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; servicing an interrupt when the processor is available; transitioning the processor from the one operating mode to the second operating mode; and enabling the disabled portions of the cache. 26. An article comprising a machine-readable medium storing instructions for transitioning a processor from one operating mode to a second operating mode, the instructions operable to cause operations comprising: flushing a first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one operating node to the second operating mode; and enabling the disabled portions of the cache; and enabling interrupts after transitioning from the one operating mode to the second operating mode. 27. The article of claim 26, wherein transitioning from one operating mode to the second operating mode comprises transitioning a processor from a state in which code is executed to a second state in which code is not executed. 28. An article comprising a machine-readable medium storing instructions for transitioning a processor from one operating mode to a second operating mode, the instructions operable to cause operations comprising: modifying the cache flush instruction prior to flushing a first portion of the cache; flushing the first portion of a cache in a first stage; disabling the first portion; flushing a second portion of the cache in a second stage, wherein the processor is available between the first stage and the second stage; transitioning the processor from the one operating mode to the second operating mode; and enabling the disabled portions of the cache.
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