TMS320C6455
SPRS276M –MAY 2005–REVISED MARCH 2012
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7.4.1 EDMA3 Device-Specific Information
The EDMA supports two addressing modes: constant addressing and increment addressing mode.
Constant addressing mode is applicable to a very limited set of use cases; for most applications increment
mode can be used. On the C6455 DSP, the EDMA can use constant addressing mode only with the
Enhanced Viterbi-Decoder Coprocessor (VCP2) and the Enhanced Turbo Decoder Coprocessor (TCP2).
Constant addressing mode is not supported by any other peripheral or internal memory in the C6455 DSP.
Note that increment mode is supported by all C6455 peripherals, including VCP2 and TCP2. For more
information on these two addressing modes, see the TMS320C645x DSP Enhanced DMA (EDMA3)
Controller User's Guide (literature number SPRU966) .
A DSP interrupt must be generated at the end of an HPI or PCI boot operation to begin execution of the
loaded application. Since the DSP interrupt generated by the HPI and PCI is mapped to the EDMA event
DSP_EVT (DMA channel 0), it will get recorded in bit 0 of the EDMA Event Register (ER). This event must
be cleared by software before triggering transfers on DMA channel 0. The EDMA3 on the C6455 DSP
supports active memory protection, but it does not support proxied memory protection.
7.4.2 EDMA3 Channel Synchronization Events
The EDMA3 supports up to 64 DMA channels that can be used to service system peripherals and to move
data between system memories. DMA channels can be triggered by synchronization events generated by
system peripherals. Table 7-3 lists the source of the synchronization event associated with each of the
DMA channels. On the C6455 device, the association of each synchronization event and DMA channel is
fixed and cannot be reprogrammed.
For more detailed information on the EDMA3 module and how EDMA3 events are enabled, captured,
processed, prioritized, linked, chained, and cleared, etc., see the TMS320C645x DSP Enhanced DMA
(EDMA3) Controller User's Guide (literature number SPRU966) .
Table 7-3. C6455 EDMA3 Channel Synchronization Events
(1)
EDMA
BINARY EVENT NAME EVENT DESCRIPTION
CHANNEL
0
(2)
000 0000 DSP_EVT HPI/PCI-to-DSP event
1 000 0001 TEVTLO0 Timer 0 lower counter event
2 000 0010 TEVTHI0 Timer 0 high counter event
3 000 0011 - None
4 000 0100 - None
5 000 0101 - None
6 000 0110 - None
7 000 0111 - None
8 000 1000 - None
9 000 1001 - None
10 000 1010 - None
11 000 1011 - None
12 000 1100 XEVT0 McBSP0 transmit event
13 000 1101 REVT0 McBSP0 receive event
14 000 1110 XEVT1 McBSP1 transmit event
15 000 1111 REVT1 McBSP1 receive event
16 001 0000 TEVTLO1 Timer 1 lower counter event
17 001 0001 TEVTHI1 Timer 1 high counter event
(1) In addition to the events shown in this table, each of the 64 channels can also be synchronized with the transfer completion or alternate
transfer completion events. For more detailed information on EDMA event-transfer chaining, see the TMS320C645x DSP Enhanced
DMA (EDMA3) Controller User's Guide (literature number SPRU966) .
(2) HPI boot and PCI boot are terminated using a DSP interrupt. The DSP interrupt is registered in bit 0 (channel 0) of the EDMA Event
Register (ER). This event must be cleared by software before triggering transfers on DMA channel 0.
106 C64x+ Peripheral Information and Electrical Specifications Copyright © 2005–2012, Texas Instruments Incorporated
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