TCI6630K2L Datasheet, PDF(130/298 Page) Texas Instruments – Multicore DSP+ARM KeyStone II System-on-Chip

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TCI6630K2L Datasheet, PDF (130/298 Pages) Texas Instruments – Multicore DSP+ARM KeyStone II System-on-Chip

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TCI6630K2L

SPRS893E â MAY 2013 â REVISED JANUARY 2015

www.ti.com

CORESEL[3:0] PIN

INPUT

0000

0001

0010

0011

1XXX

0000

0001

0010

0011

1XXX

Table 7-29. LRESET and NMI Decoding (continued)

LRESET PIN

INPUT

1

1

1

1

1

1

1

1

1

1

NMI PIN

INPUT

1

1

1

1

1

0

0

0

0

0

LRESETNMIEN PIN

INPUT

0

0

0

0

0

0

0

0

0

0

RESET MUX BLOCK OUTPUT

De-assert local reset & NMI to C66x CorePac0

De-assert local reset & NMI to C66x CorePac1

De-assert local reset & NMI to C66x CorePac2

De-assert local reset & NMI to C66x CorePac3

De-assert local reset & NMI to all C66x CorePacs

Assert NMI to C66x CorePac0

Assert NMI to C66x CorePac1

Assert NMI to C66x CorePac2

Assert NMI to C66x CorePac3

Assert NMI to all C66x CorePacs

7.4 Enhanced Direct Memory Access (EDMA3) Controllerfor TCI6630K2L

The primary purpose of the EDMA3 is to service user-programmed data transfers between two memory-

mapped slave endpoints on the device. The EDMA3 services software-driven paging transfers (e.g., data

movement between external memory and internal memory), performs sorting or subframe extraction of

various data structures, services event driven peripherals, and offloads data transfers from the device

C66x DSP CorePac or the ARM CorePac.

There are 3 EDMA channel controllers on the device:

â¢ EDMA3CC0 has two transfer controllers: TPTC0 and TPTC1

â¢ EDMA3CC1 has four transfer controllers: TPTC0, TPTC1, TPTC2, and TPTC3

â¢ EDMA3CC2 has four transfer controllers: TPTC0, TPTC1, TPTC2, and TPTC3

In the context of this document, TPTCx is associated with EDMA3CCy, and is referred to as EDMA3CCy

TPTCx. Each of the transfer controllers has a direct connection to the switch fabric. Section 8.2 lists the

peripherals that can be accessed by the transfer controllers.

EDMA3CC0 is optimized to be used for transfers to/from/within the MSMC and DDR3A subsytems. The

others are used for the remaining traffic.

Each EDMA3 channel controller includes the following features:

â¢ Fully orthogonal transfer description

â 3 transfer dimensions:

â¢ Array (multiple bytes)

â¢ Frame (multiple arrays)

â¢ Block (multiple frames)

â Single event can trigger transfer of array, frame, or entire block

â Independent indexes on source and destination

â¢ Flexible transfer definition:

â Increment or FIFO transfer addressing modes

â Linking mechanism allows for ping-pong buffering, circular buffering, and repetitive/continuous

transfers, all with no CPU intervention

â Chaining allows multiple transfers to execute with one event

â¢ 512 PaRAM entries for all EDMA3CC

â Used to define transfer context for channels

â Each PaRAM entry can be used as a DMA entry, QDMA entry, or link entry

130 Memory, Interrupts, and EDMA for TCI6630K2L

Copyright Â© 2013â2015, Texas Instruments Incorporated

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