keystone soc training srio demo: board-to-board multicore application team
TRANSCRIPT
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Multicore Training
KeyStone SoC TrainingSRIO Demo: Board-to-Board
Multicore Application Team
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Multicore Training
Agenda
• Model• Protocol• Configuration• Application Algorithm• Build and Run
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Multicore Training
The Model
One or more DSPs
Producer collects data from external world
Consumer(Core)
Consumer(Core)
Consumer
(Core)
Consumer
(Core)
Consumer
(Core)
Consumer
(Core)
SRIO Channels
Requirements:• Efficiency – Not
fairness• Minimize master
logic• Master is not
aware of structure of internal cores
Producer = MasterConsumer = Slave
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Multicore Training
Agenda
• Model• Protocol• Configuration• Application Algorithm• Build and Run
![Page 5: KeyStone SoC Training SRIO Demo: Board-to-Board Multicore Application Team](https://reader036.vdocuments.site/reader036/viewer/2022062313/56649f4d5503460f94c6e94c/html5/thumbnails/5.jpg)
Multicore Training
Producer (Master) Protocol
Producer Initialization
Wait until there is enough data.When there is enough data, continue.
1. Discard all pending messages in the mailbox.2. Send request message to all Consumers.3. Wait for the first acknowledge message to arrive.
Send TOKEN message with data to the first consumer whose acknowledge message has arrived.
Producer = MasterConsumer = Slave
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Multicore Training
Consumer (Slave) Protocol
Consumer Initialization
Wait until there is a message in the mailbox.
Send an acknowledge message to the Producer.
Is this a REQUEST message?
Yes
No
Is this a TOKEN
message?
Yes Processing the data. Processing time is
data dependent.
No
Error.Wait for a new message.
Producer = MasterConsumer = Slave
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Multicore Training
Agenda
• Model• Protocol• Configuration• Application Algorithm• Build and Run
![Page 8: KeyStone SoC Training SRIO Demo: Board-to-Board Multicore Application Team](https://reader036.vdocuments.site/reader036/viewer/2022062313/56649f4d5503460f94c6e94c/html5/thumbnails/8.jpg)
Multicore Training
Hardware Components
TMS320C6678 Core
DDR and Internal Memory
Multicore Navigator
Queue Manager Subsystem (QMSS)
Packet DMA (PKTDMA)
SRIO PKTDMA
SRIO Hardware
Descriptor Area
Buffer Area
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Multicore Training
Packet DMA Topology
PKTDMA
PKTDMA
PKTDMA
PKTDMA
PKTDMA
PKTDMA
Queue ManagerSRIO
Network Coprocessor
FFTC (A)
AIF
8192
5
4
3
2
1
0
.
..
Queue Manager Subsystem
Multiple Packet DMA instances in KeyStone devices:
• PA and SRIO instances for all KeyStone devices.
• AIF2 and FFTC (A and B) instances are only in KeyStone devices for wireless applications.
FFTC (B)
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Multicore Training
QMSS Descriptors Queuing
Region 1
Region 2
index 0
index 9
index 10
index 14
Link RAM
HeadPtr0x7ffff
Push index 0 to an empty queue (starting condition)
Region 1
Region 2
index 0
index 9
index 10
index 14
Link RAM0x7ffff
HeadPtr
0
Push index 0 to an empty queue (ending condition)
• The Queue Manager maintains a head pointer for each queue, which are initialized to be empty.
• We actually do not push indexes; We push descriptor addresses. The QM converts addresses to indexes.
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Multicore Training
Main Code
System_init
Enable_srio
srioDevice_init()
srio_init()
initializedMain
Start multicoreTestTask
Exit main.
multicoreTestTask
TestMulticoreUser
ThreadInitialization
(queues/ channels/ interrupts)
slaveTaskInitializationor
masterTaskInitialization
(sockets/buffers)
End of Initialization
“Generic” Initialization
(Main)
Application-based Initialization(BIOS Task)
Configuration/Initialization Flow
C o n f i g u r a t i o n S t e p s :
1. Q M S S2. G e n e r i c P K T D M A3. Q M S S P K T D M A4. S R I O5. S R I O P K T D M A6. S o c k e t s
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Multicore Training
QMSS Initialization• Qmss_init (qmss_drv.c)
– Number and location of the link RAM– Number of descriptors– APDSP firmware – Set global structure qmssLobj to be used later
• Qmss_start (qmss_drv.c)– Load global structure into local memory of each core
• Qmss_insertMemoryRegion (qmss_drv.c)– Base address of each region– Number of descriptors– Size of descriptors– Region type– How the region is managed (either by the LLD or the application)– Region number (or not specified)
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Multicore Training
Global PKTDMA (CPPI) Initialization• cppi_init (cppi_drv.c) loads all instances of PKTDMA from the
global structure cppiGblCfgParas, which is defined in the file cppi_device.c – SRIO– PA– QMSS– AIF (wireless applications only)– FFTC (wireless applications only)– BCP (wireless applications only)
• SRIO PKTDMA (CPPI) configuration after SRIO configuration
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Multicore Training
SRIO Layers
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Multicore Training
SRIO Physical Layer
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Multicore Training
SRIO Initialization
• enable_srio– Power– PLL/Clock
• srioDevice_init– Handle for the SRIO instance– SERDES– Port – Routing and queues
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Multicore Training
SRIO PKTDMA (CPPI) Initialization
• Configure SRIO PKTDMA• Set the Rx routing table to the following default
locations:• Type 11• Type 9• Direct IO
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Multicore Training
Application-specific Configuration “All Cores” Initialization
1. Create and initialize descriptors.2. Allocate data buffers.3. Associate a receive queue with each core.4. Define receive free queue.5. Define receive flows.6. Define and configure transmit queues.7. Enable transmit and receive channels.8. Connect SRIO interrupts.
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Multicore Training
Open Sockets • Srio_sockOpen() opens a socket• Srio_sockBind() binds the opened socket to
routing– Segmentation mapping
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Multicore Training
Agenda• Model• Protocol• Configuration• Application Algorithm• Build and Run
![Page 21: KeyStone SoC Training SRIO Demo: Board-to-Board Multicore Application Team](https://reader036.vdocuments.site/reader036/viewer/2022062313/56649f4d5503460f94c6e94c/html5/thumbnails/21.jpg)
Multicore Training
Producer (Master) Application Algorithm
Follow the protocolto find an available core.
Generate variable size datausing the generic functiongenerateApplicationData()
Send a TOKEN message with data to an available core.
Master Algorithm Flow
Run Forever
Producer = MasterConsumer = Slave
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Multicore Training
Consumer (Slave) Application Algorithm
Consumer Initialization
Wait until there is a message in the mailbox.
Send an available message to the Producer.
Is this a REQUEST message?
Yes
No
Is this a TOKEN
message?
Yes Processing the data. Processing time is
data dependent.
No
Error.Wait for a new message.
Producer = MasterConsumer = Slave
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Multicore Training
Code Change: Producer
generateApplicationData( fftInputBuffer[0], ¶meter1) ;
size = 1 << parameter1 ;
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Multicore Training
Code Change: Consumer
else if (messageValue == TOKEN) { applicationCode ( ptr_rxDataPayload, parameter1, coreNum);
}
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Multicore Training
Agenda
• Model• Protocol• Configuration• Application Algorithm• Build and Run
![Page 26: KeyStone SoC Training SRIO Demo: Board-to-Board Multicore Application Team](https://reader036.vdocuments.site/reader036/viewer/2022062313/56649f4d5503460f94c6e94c/html5/thumbnails/26.jpg)
Multicore Training
Breakout Connector Board
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Multicore Training
C6678L w/ Mezzanine Emulator
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Multicore Training
Build and Run Process
1. Unzip the two projects (producer and consumer).
2. Update the include path (compiler) and the files search path (linker).
3. Build both projects.4. Connect DSP 0 and load producer to all cores.5. Connect DSP 1 and load consumer to all cores.6. Run DSP 0 and DSP 1.
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Multicore Training
Expected Results
[C66xx_3] fft size 512 output 800058b0 real 8000bd00 imag 80009d00
[C66xx_2] fft size 128 output 800050a0 real 8000b900 imag 80009900
[C66xx_7] fft size 64 output 800078f0 real 8000cd00 imag 8000ad00
[C66xx_4] fft size 32 output 800060c0 real 8000c100 imag 8000a100
[C66xx_0] fft size 512 output 80004080 real 8000b100 imag 80009100
[C66xx_1] fft size 512 output 80004890 real 8000b500 imag 80009500
[C66xx_2] fft size 128 output 800050a0 real 8000b900 imag 80009900
[C66xx_7] fft size 512 output 800078f0 real 8000cd00 imag 8000ad00
[C66xx_4] fft size 512 output 800060c0 real 8000c100 imag 8000a100