SPRUI30H November 2015 – May 2024 DRA745 , DRA746 , DRA750 , DRA756
Chaining multiple logical channels permits transfers consisting of multiple parts to be executed without repeated software intervention. This results in better performance than the alternative of software setting up and starting each transfer separately. Each part of a chained transfer can have the data addressed in a different manner that permits the programming of a variety of complex transfers. For example:
Channels can be chained through each channel DMA4_CLNK_CTRLi register. When the transfer for the first channel completes, the next channel in the chain is enabled. The number of channels in the chain that are configured for hardware-synchronized transfers is flexible (although typically it may be all, none, or simply the first one). The DMA request line number must be set to 0 to specify that any or all of the channels in a chain are software-triggered or nonsynchronized.
The last channel in a chain can be chained to the first channel to create a continuously looping chain. The continuously looping transfer can be stopped on the fly at a specific channel by disabling the DMA4_CLNK_CTRLi[15] ENABLE_LNK bit. The looping transfer stops after the specified channel transfer is complete.
A DMA request line must not be shared between concurrently enabled DMA channels. However, a DMA request line can be shared between several chained logical channels.
For more information about the programming model, see Section 16.1.5, DMA_SYSTEM Basic Programming Model.