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MIMXRT1170-EVK
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  • erpc_matrix_multiply_mu_rtos_cm4

    µVision AC6

    The Multicore eRPC Matrix Multiply RTOS project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. MU (Messaging Unit)erpc transport layer is used in this example application.eRPC documentation eRPC specific files are stored in: middleware/multicore/erpc eRPC documentation is stored in: middleware/multicore/erpc/doc eRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpc eRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_matrix_multiply_mu_rtos_cm7

    µVision AC6

    The Multicore eRPC Matrix Multiply RTOS project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. MU (Messaging Unit)erpc transport layer is used in this example application.eRPC documentation eRPC specific files are stored in: middleware/multicore/erpc eRPC documentation is stored in: middleware/multicore/erpc/doc eRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpc eRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_matrix_multiply_rpmsg_cm4

    µVision AC6

    The Multicore eRPC Matrix Multiply project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. RPMsg-Lite erpctransport layer is used in this example application.Shared memory usageThis multicore example uses the shared memory for data exchange. The shared memory region isdefined and the size can be adjustable in the linker file. The shared memory region start addressand the size have to be defined in linker file for each core equally. The shared memory startaddress is then exported from the linker to the application.eRPC documentationeRPC specific files are stored in: middleware/multicore_<version>/erpceRPC documentation is stored in: middleware/multicore_<version>/erpc/doceRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpceRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_matrix_multiply_rpmsg_cm7

    µVision AC6

    The Multicore eRPC Matrix Multiply project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. RPMsg-Lite erpctransport layer is used in this example application.Shared memory usageThis multicore example uses the shared memory for data exchange. The shared memory region isdefined and the size can be adjustable in the linker file. The shared memory region start addressand the size have to be defined in linker file for each core equally. The shared memory startaddress is then exported from the linker to the application.eRPC documentationeRPC specific files are stored in: middleware/multicore_<version>/erpceRPC documentation is stored in: middleware/multicore_<version>/erpc/doceRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpceRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_matrix_multiply_rpmsg_rtos_cm4

    µVision AC6

    The Multicore eRPC Matrix Multiply RTOS project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. RPMsg-Lite erpctransport layer is used in this example application.Shared memory usageThis multicore example uses the shared memory for data exchange. The shared memory region isdefined and the size can be adjustable in the linker file. The shared memory region start addressand the size have to be defined in linker file for each core equally. The shared memory startaddress is then exported from the linker to the application.eRPC documentationeRPC specific files are stored in: middleware/multicore_<version>/erpceRPC documentation is stored in: middleware/multicore_<version>/erpc/doceRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpceRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_matrix_multiply_rpmsg_rtos_cm7

    µVision AC6

    The Multicore eRPC Matrix Multiply RTOS project is a simple demonstration program that uses theMCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Callbetween cores of the multicore system. The primary core (eRPC client) releases the secondary core(eRPC server) from the reset and then the erpcMatrixMultiply() eRPC call is issued to let thesecondary core to perform the multiplication of two randomly generated matrices. The originalmatrices and the result matrix is printed out to the serial console by the primary core. Thematrix multiplication can be issued repeatedly when pressing a SW board button. RPMsg-Lite erpctransport layer is used in this example application.Shared memory usageThis multicore example uses the shared memory for data exchange. The shared memory region isdefined and the size can be adjustable in the linker file. The shared memory region start addressand the size have to be defined in linker file for each core equally. The shared memory startaddress is then exported from the linker to the application.eRPC documentationeRPC specific files are stored in: middleware/multicore_<version>/erpceRPC documentation is stored in: middleware/multicore_<version>/erpc/doceRPC is open-source project stored on github: https://github.com/EmbeddedRPC/erpceRPC documentation can be also found in: http://embeddedrpc.github.io

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  • erpc_two_way_rpc_rpmsg_rtos_cm4

    µVision AC6

    The Multicore eRPC Two Way RPC RTOS project is a simple demonstration program that uses the MCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Call between cores of the multicore system. This multicore example shows how both the eRPC client and the eRPC server can be setup on one side/core (bidirectional communication) and how to handle callback functions in eRPC. The primary core (Core0) creates client and server tasks first. The client task releases the secondary core from the reset, initializes the RPMsg-Lite erpc transport and once the server task is running it configures the arbitrated client. Then the application logic is running. The secondary core (Core1) creates client and server tasks two. The client task initializes the RPMsg-Lite erpc transport and once the server task is running it configures the arbitrated client. Then the application logic is running. The client task logic of the Core1 is very simple, it repeatedly calls the increaseNumber() erpc function that is implemented on the Core0 and that increments the counter. The client task logic of the Core0 alternately issues either getNumberFromCore0() function implementation on the Core0 or getNumberFromCore1() function implementation on the Core1 (erpc call). Then, the nestedCallGetNumber() erpc function call is issued that alternately triggers either getNumberFromCore1() function implementation on the Core1 (normal erpc call) or it triggers the getNumberFromCore0() function implementation on the Core0 (nested erpc call, routed through the Core1 erpc server).

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  • erpc_two_way_rpc_rpmsg_rtos_cm7

    µVision AC6

    The Multicore eRPC Two Way RPC RTOS project is a simple demonstration program that uses the MCUXpresso SDK software and the Multicore SDK to show how to implement the Remote Procedure Call between cores of the multicore system. This multicore example shows how both the eRPC client and the eRPC server can be setup on one side/core (bidirectional communication) and how to handle callback functions in eRPC. The primary core (Core0) creates client and server tasks first. The client task releases the secondary core from the reset, initializes the RPMsg-Lite erpc transport and once the server task is running it configures the arbitrated client. Then the application logic is running. The secondary core (Core1) creates client and server tasks two. The client task initializes the RPMsg-Lite erpc transport and once the server task is running it configures the arbitrated client. Then the application logic is running. The client task logic of the Core1 is very simple, it repeatedly calls the increaseNumber() erpc function that is implemented on the Core0 and that increments the counter. The client task logic of the Core0 alternately issues either getNumberFromCore0() function implementation on the Core0 or getNumberFromCore1() function implementation on the Core1 (erpc call). Then, the nestedCallGetNumber() erpc function call is issued that alternately triggers either getNumberFromCore1() function implementation on the Core1 (normal erpc call) or it triggers the getNumberFromCore0() function implementation on the Core0 (nested erpc call, routed through the Core1 erpc server).

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  • Keil Studio AC6, GCC, IAR

    The EWM Example project is to demonstrate usage of the KSDK EWM driver.In the example, EWM counter is continuously refreshed until button is pressed.Once the button is pressed, EWM counter will expire and interrupt...See more details in readme document.

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  • Keil Studio, µVision AC6

    The EWM Example project is to demonstrate usage of the KSDK EWM driver.In the example, EWM counter is continuously refreshed until button is pressed.Once the button is pressed, EWM counter will expire and interrupt...See more details in readme document.

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