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The SP7350 boasts a powerful neural processor unit (NPU), designed to efficiently handle complex neural network operations. However, applications requiring neural network inference cannot directly interact with the NPU. Instead, they must utilize the NPU driver along with prebuilt shared libraries.

Table of Contents

1. NPU Driver

The SP7350 Linux includes the NPU driver by default, supporting three versions: 6.4.13.8, 6.4.15.9, and 6.4.18.5. By default, version 6.4.15.9 is selected.

1.1. Changing the Version

To switch to a different version, run the ‘make kconfig’ command in the project's top directory. When the Linux Kernel Configuration menu appears, move cursor to select the desired driver version. The path is:

Device Drivers ->
	Multimedia support ->
  	Media drivers ->
    	ML Inference Processor VIP9000_NPU

Refer to the snapshot of the NPU Version choice menu below:

image-20240612-141315.png

After selecting the desired driver version, complete the Linux compilation process by running the ‘make’ command.

1.2. Power Management

The NPU driver supports power management, allowing it to power on when the driver probes and power off when the driver is removed. To enable this function, insert the NPU driver with the ‘powerManagement=1’ parameter. Use the ‘modprobe’ command as shown below:

modprobe galcore powerManagement=1

Here, 'galcore' is the module name of the NPU driver. The Linux kernel message when the NPU driver is probing will look like this:

[   29.498289] galcore f8140000.galcore: NPU get power success
[   29.498971] galcore f8140000.galcore: galcore irq number is 44
[   29.499073] galcore f8140000.galcore: NPU clock: 900000000
[   29.503967] Galcore version 6.4.15.9.700103
[   29.509197] galcore f8140000.galcore: _SetPower 0 0 enable
[   29.518719] galcore f8140000.galcore: regulator enable success
[   29.519415] galcore f8140000.galcore: NPU ISO disable
[   29.524477] galcore f8140000.galcore: NPU HW reset SMS
[   29.529566] galcore f8140000.galcore: NPU HW reset deassert
[   29.535127] galcore f8140000.galcore: NPU HW clock enable
[   29.540803] galcore f8140000.galcore: _SetPower enable ret=0
[   29.546162] galcore f8140000.galcore: NPU clock enable success
[   29.559172] galcore f8140000.galcore: NPU clock disable success
[   29.559227] galcore f8140000.galcore: _SetPower 0 0 disable
[   29.563427] galcore f8140000.galcore: NPU HW clock disabled
[   29.568980] galcore f8140000.galcore: NPU HW reset assert
[   29.574355] galcore f8140000.galcore: NPU ISO enable
[   29.579308] galcore f8140000.galcore: regulator disable success
[   29.585206] galcore f8140000.galcore: _SetPower disable ret=0

Otherwise, use the ‘modprobe’ command as shown below:

modprobe galcore

Upon successful NPU driver probing, the NPU device ('galcore') will appear in the Linux device directory '/dev'.

~ # ls /dev/galcore
/dev/galcore

2. NN Shared Libraries

Neural network (NN) applications cannot directly interact with the NPU but instead rely on the NPU driver and prebuilt NN shared libraries. These libraries, along with relevant header files, are stored in the project directory of the SP7350 for different versions.

wells@wells-linux:~/Q654$ ll linux/rootfs/initramfs/prebuilt/vip9000sdk
total 20
drwxrwxr-x 7 wells wells 4096 Jun 12 21:31 ./
drwxrwxr-x 9 wells wells 4096 Jun 12 21:31 ../
drwxrwxr-x 4 wells wells 4096 Jun 12 21:31 6.4.13.8/
drwxrwxr-x 4 wells wells 4096 Jun 12 21:31 6.4.15.9/
drwxrwxr-x 4 wells wells 4096 Jun 12 21:31 6.4.18.5/
The ‘include’ subdirectory includes the relevant header files:
wells@wells-linux:~/Q654$ ll linux/rootfs/initramfs/prebuilt/vip9000sdk/6.4.15.9/include/
total 28
drwxrwxr-x  7 wells wells 4096 Jun 12 21:31 ./
drwxrwxr-x  4 wells wells 4096 Jun 12 21:31 ../
drwxrwxr-x  2 wells wells 4096 Jun 12 21:31 CL/
drwxrwxr-x  3 wells wells 4096 Jun 12 21:31 HAL/
drwxrwxr-x  2 wells wells 4096 Jun 12 21:31 jpeg/
drwxrwxr-x 12 wells wells 4096 Jun 12 21:31 ovxlib/
drwxrwxr-x  2 wells wells 4096 Jun 12 21:31 VX/

The ‘drivers’ subdirectory includes the NN shared libraries:

wells@wells-linux:~/Q654$ ll linux/rootfs/initramfs/prebuilt/vip9000sdk/6.4.15.9/drivers/
total 153900
drwxrwxr-x 2 wells wells     4096 Jun 12 21:31 ./
drwxrwxr-x 4 wells wells     4096 Jun 12 21:31 ../
-rw-rw-r-- 1 wells wells   419144 Jun 12 21:31 libArchModelSw.so
-rw-rw-r-- 1 wells wells  2663528 Jun 12 21:31 libCLC.so
-rwxrwxr-x 1 wells wells  2083472 Jun 12 21:31 libGAL.so*
-rw-rw-r-- 1 wells wells  1338864 Jun 12 21:31 libGLSLC.so
-rw-rw-r-- 1 wells wells   324236 Jun 12 21:31 libjpeg.a
-rw-rw-r-- 1 wells wells   418512 Jun 12 21:31 libNNArchPerf.so
-rwxrwxr-x 1 wells wells 21718760 Jun 12 21:31 libNNGPUBinary.so*
-rwxrwxr-x 1 wells wells 65467968 Jun 12 21:31 libNNVXCBinary.so*
lrwxrwxrwx 1 wells wells       18 Jun 12 21:31 libOpenCL.so -> libOpenCL.so.3.0.0*
lrwxrwxrwx 1 wells wells       18 Jun 12 21:31 libOpenCL.so.1 -> libOpenCL.so.3.0.0*
lrwxrwxrwx 1 wells wells       18 Jun 12 21:31 libOpenCL.so.3 -> libOpenCL.so.3.0.0*
-rwxrwxr-x 1 wells wells   924856 Jun 12 21:31 libOpenCL.so.3.0.0*
lrwxrwxrwx 1 wells wells       18 Jun 12 21:31 libOpenVX.so -> libOpenVX.so.1.3.0*
lrwxrwxrwx 1 wells wells       18 Jun 12 21:31 libOpenVX.so.1 -> libOpenVX.so.1.3.0*
-rwxrwxr-x 1 wells wells  4997304 Jun 12 21:31 libOpenVX.so.1.3.0*
-rwxrwxr-x 1 wells wells    40712 Jun 12 21:31 libOpenVXU.so*
-rwxrwxr-x 1 wells wells 11961312 Jun 12 21:31 libOvx12VXCBinary.so*
-rwxrwxr-x 1 wells wells  5955904 Jun 12 21:31 libOvxGPUVXCBinary.so*
-rwxrwxr-x 1 wells wells  5571776 Jun 12 21:31 libovxlib.so*
-rw-rw-r-- 1 wells wells  3000360 Jun 12 21:31 libSPIRV_viv.so
-rw-rw-r-- 1 wells wells 15502848 Jun 12 21:31 libtim-vx.so
-rw-rw-r-- 1 wells wells 17830752 Jun 12 21:31 libVSC.so
-rw-rw-r-- 1 wells wells  1181832 Jun 12 21:31 libvx_delegate.so

Upon selecting a version of the NPU driver, the corresponding NN shared libraries are automatically copied to the '/lib64' directory of the root file system on the target SP7350 system. This ensures that the required libraries are readily accessible for NN applications.

3. NN Applications

Neural network (NN) applications leverage the NPU to execute complex neural network operations by invoking functions within NN shared libraries.

3.1. Compiling NN Applications

When compiling NN applications, users must include the appropriate header files and shared libraries, as demonstrated below:

INCLUDES+=-I$(VIVANTE_SDK_DIR)/include/HAL \
          -I$(VIVANTE_SDK_DIR)/include/CL \
          -I$(VIVANTE_SDK_DIR)/include/VX \
          -I$(VIVANTE_SDK_DIR)/include/ovxlib \
          -I$(VIVANTE_SDK_DIR)/include/jpeg

LIBS+=-lOpenVX -lOpenVXU -lCLC -lVSC -lGAL -ljpeg -lovxlib

3.2. Running NN Application

During runtime, ensure that the NN shared libraries are accessible by setting the library path accordingly:

export LD_LIBRARY_PATH=/lib64:$LD_LIBRARY_PATH

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