Figure 5-3. no-descriptor fetch mode channel state, 2 descriptor fetch mode, The software writes a 1 to the dcsr[run] bit – Intel PXA26X User Manual

Intel® PXA26x Processor Family Developer’s Manual

5-7

Direct Memory Access Controller

Figure 5-3. No-Descriptor Fetch Mode Channel State

5.1.4.2

Descriptor Fetch Mode

In descriptor fetch mode, the DMAC registers are loaded from DMA descriptors in main memory.
Multiple DMA descriptors can be chained together in a list. This allows a DMA channel to transfer
data to and from a number of locations that are not contiguous. The descriptor’s protocol design
allows descriptors to be added efficiently to the descriptor list of a running DMA stream.

A typical descriptor fetch mode (DCSR[NODESCFETCH] = 0) operation is:

1. The channel is in an uninitialized state after reset.

2. The software writes a descriptor address (aligned to a 16-byte boundary) to the DDADR

register.

3. The software writes a 1 to the DCSR[RUN] bit.

4. The DMAC fetches the four-word descriptor (assuming that the memory is already set up with

the descriptor chain) from the memory indicated by DDADR.

5. The four-word DMA descriptor, aligned on a 16-byte boundary in main memory, loads the

these registers:

— Word [0] -> DDADRx register and a single flag bit. Points to the next four-word

descriptor.

— Word [1] -> DSADRx register for the current transfer.

— Word [2] -> DTADRx register for the current transfer.

DCSR[RUN]=0,
DCSR[NODESCFETCH]=1,
DSADR,DTADR,
DCMD programmed

Uninitialized

Valid

RESET (Hardware or Sleep)

not running

(running)

Wait

for

request

Transferring

Data

Stopped

descriptor

Error

Channel

RUN=1

DCMD[LENGTH] 0

& DCMD[FLOWSRC] = 0

& DCMD[FLOWTRG] = 0

DDADR[STOP] = 1

DDADR[STOP] = 1

DCMD[FLOWSRC] xor

DCMD[FLOWTRG] = 1

DCMD[FLOWSRC] &
DCMD[FLOWTRG] = 0

Request Asserted

DDADR[STOP] = 0

DCMD[FLOWSRC] xor
DCMD[FLOWTRG] = 1

No

descriptor

fetch

RUN=0

RUN=0

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