[TUTORIAL] add tutorial for mali gpu (#313)

* add tutorial for mali gpu

* update submodule version

* fix doc error

* fix server error

* fix server in test
This commit is contained in:
Lianmin Zheng 2018-01-19 00:47:17 +08:00 коммит произвёл Tianqi Chen
Родитель 963a041973
Коммит 14de1dec78
4 изменённых файлов: 242 добавлений и 7 удалений

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@ -6,8 +6,8 @@ import numpy as np
def test_rpc_executor():
host = "localhost"
port = 9091
server = rpc.Server(host, port)
port = 9100
server = rpc.Server(host, port, use_popen=True)
x = sym.Variable("x")
y = sym.Variable("y")

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@ -143,7 +143,7 @@ if not use_rasp:
# run server locally
host = 'localhost'
port = 9090
server = rpc.Server(host=host, port=port)
server = rpc.Server(host=host, port=port, use_popen=True)
# compile and save model library
if use_rasp:

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@ -0,0 +1,235 @@
"""
Deploy the Pretrained Model on ARM Mali GPU
=======================================================
**Author**: `Lianmin Zheng <https://lmzheng.net/>`_, `Ziheng Jiang <https://ziheng.org/>`_
This is an example of using NNVM to compile a ResNet model and
deploy it on Firefly-RK3399 with ARM Mali GPU. We will use the
Mali-T860 MP4 GPU on this board to accelerate the inference.
This tutorial is based on the `tutorial <http://nnvm.tvmlang.org/tutorials/deploy_model_on_rasp.html>`_
for deploying on Raspberry Pi by `Ziheng Jiang <https://ziheng.org/>`_.
Great thanks to the original author, I only do several lines of modification.
To begin with, we import nnvm (for compilation) and TVM (for deployment).
"""
import tvm
import nnvm.compiler
import nnvm.testing
from tvm.contrib import util, rpc
from tvm.contrib import graph_runtime as runtime
######################################################################
# Build TVM Runtime on Device
# ---------------------------
#
# There're some prerequisites: we need build tvm runtime and set up
# a RPC server on remote device.
#
# To get started, clone tvm repo from github. It is important to clone
# the submodules along, with --recursive option (Assuming you are in
# your home directory):
#
# .. code-block:: bash
#
# git clone --recursive https://github.com/dmlc/tvm
#
# .. note::
#
# Usually device has limited resources and we only need to build
# runtime. The idea is we will use TVM compiler on the local server
# to compile and upload the compiled program to the device and run
# the device function remotely.
#
# .. code-block:: bash
#
# make runtime
#
# After success of buildind runtime, we need set environment varibles
# in :code:`~/.bashrc` file of yourself account or :code:`/etc/profile`
# of system enviroment variables. Assuming your TVM directory is in
# :code:`~/tvm` and set environment variables below your account.
#
# .. code-block:: bash
#
# vi ~/.bashrc
#
# We need edit :code:`~/.bashrc` using :code:`vi ~/.bashrc` and add
# lines below (Assuming your TVM directory is in :code:`~/tvm`):
#
# .. code-block:: bash
#
# export TVM_HOME=~/tvm
# export PATH=$PATH:$TVM_HOME/lib
# export PYTHONPATH=$PYTHONPATH:$TVM_HOME/python
#
# To enable updated :code:`~/.bashrc`, execute :code:`source ~/.bashrc`.
######################################################################
# Set Up RPC Server on Device
# ---------------------------
# To set up a TVM RPC server on the your ARM device (our remote device),
# we have prepared a one-line script so you only need to run this
# command after following the installation guide to install TVM on
# your device:
#
# .. code-block:: bash
#
# python -m tvm.exec.rpc_server --host 0.0.0.0 --port=9090
#
# After executing command above, if you see these lines below, it's
# successful to start RPC server on your device.
#
# .. code-block:: bash
#
# Loading runtime library /home/YOURNAME/code/tvm/lib/libtvm_runtime.so... exec only
# INFO:root:RPCServer: bind to 0.0.0.0:9090
#
######################################################################
# For demonstration, we simply start an RPC server on the same machine,
# if :code:`use_mali` is False. If you have set up the remote
# environment, please change the three lines below: change the
# :code:`use_mali` to True, also change the :code:`host` and :code:`port`
# with your device's host address and port number.
use_mali = False
host = '10.42.0.96'
port = 9090
if not use_mali:
# run server locally
host = 'localhost'
port = 9092
server = rpc.Server(host=host, port=port, use_popen=True)
######################################################################
# Prepare the Pretrained Model
# ----------------------------
# Back to the host machine, firstly, we need to download a MXNet Gluon
# ResNet model from model zoo, which is pretrained on ImageNet. You
# can found more details about this part at `Compile MXNet Models`
from mxnet.gluon.model_zoo.vision import get_model
from mxnet.gluon.utils import download
from PIL import Image
import numpy as np
# only one line to get the model
block = get_model('resnet18_v1', pretrained=True)
######################################################################
# In order to test our model, here we download an image of cat and
# transform its format.
img_name = 'cat.jpg'
download('https://github.com/dmlc/mxnet.js/blob/master/data/cat.png?raw=true', img_name)
image = Image.open(img_name).resize((224, 224))
def transform_image(image):
image = np.array(image) - np.array([123., 117., 104.])
image /= np.array([58.395, 57.12, 57.375])
image = image.transpose((2, 0, 1))
image = image[np.newaxis, :]
return image
x = transform_image(image)
######################################################################
# synset is used to transform the label from number of ImageNet class to
# the word human can understand.
synset_url = ''.join(['https://gist.githubusercontent.com/zhreshold/',
'4d0b62f3d01426887599d4f7ede23ee5/raw/',
'596b27d23537e5a1b5751d2b0481ef172f58b539/',
'imagenet1000_clsid_to_human.txt'])
synset_name = 'synset.txt'
download(synset_url, synset_name)
with open(synset_name) as f:
synset = eval(f.read())
######################################################################
# Now we would like to port the Gluon model to a portable computational graph.
# It's as easy as several lines.
# We support MXNet static graph(symbol) and HybridBlock in mxnet.gluon
net, params = nnvm.frontend.from_mxnet(block)
# we want a probability so add a softmax operator
net = nnvm.sym.softmax(net)
######################################################################
# Here are some basic data workload configurations.
batch_size = 1
num_classes = 1000
image_shape = (3, 224, 224)
data_shape = (batch_size,) + image_shape
out_shape = (batch_size, num_classes)
######################################################################
# Compile The Graph
# -----------------
# To compile the graph, we call the :any:`nnvm.compiler.build` function
# with the graph configuration and parameters. As we use OpenCL for
# GPU computing, the tvm will generate both OpenCL kernel code and ARM
# CPU host code. The CPU host code is used for calling OpenCL kernels.
# In order to generate correct CPU code, we need to specify the target
# triplet for host ARM device by setting the parameter :code:`target_host`.
######################################################################
# If we run the example locally for demonstration, we can simply set
# it as :code:`llvm`. If to run it on the ARM device, you need to specify
# its instruction set. Here is the option I use for my Firefly-RK3399.
if use_mali:
target_host = "llvm -target=aarch64-linux-gnu -mattr=+neon"
else:
target_host = "llvm"
# set target as `tvm.target.mali` instead of 'opencl' to enable
# target-specified optimization
graph, lib, params = nnvm.compiler.build(net, target=tvm.target.mali(),
shape={"data": data_shape}, params=params, target_host=target_host)
# After `nnvm.compiler.build`, you will get three return values: graph,
# library and the new parameter, since we do some optimization that will
# change the parameters but keep the result of model as the same.
# Save the library at local temporary directory.
tmp = util.tempdir()
lib_fname = tmp.relpath('net.tar')
lib.export_library(lib_fname)
######################################################################
# Deploy the Model Remotely by RPC
# --------------------------------
# With RPC, you can deploy the model remotely from your host machine
# to the remote device.
# connect the server
remote = rpc.connect(host, port)
# upload the library to remote device and load it
remote.upload(lib_fname)
rlib = remote.load_module('net.tar')
ctx = remote.cl(0)
# upload the parameter
rparams = {k: tvm.nd.array(v, ctx) for k, v in params.items()}
# create the remote runtime module
module = runtime.create(graph, rlib, ctx)
# set parameter
module.set_input(**rparams)
# set input data
module.set_input('data', tvm.nd.array(x.astype('float32')))
# run
module.run()
# get output
out = module.get_output(0, tvm.nd.empty(out_shape, ctx=ctx))
# get top1 result
top1 = np.argmax(out.asnumpy())
print('TVM prediction top-1: {}'.format(synset[top1]))
if not use_mali:
# terminate the local server
server.terminate()

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@ -85,8 +85,8 @@ from tvm.contrib import graph_runtime as runtime
# For demonstration, we simply start an RPC server on the same machine,
# if :code:`use_rasp` is False. If you have set up the remote
# environment, please change the three lines below: change the
# :code:`use_rasp` to True, also change the host and port with your
# device's host address and port number.
# :code:`use_rasp` to True, also change the :code:`host` and :code:`port`
# with your device's host address and port number.
use_rasp = False
host = 'rasp0'
@ -96,7 +96,7 @@ if not use_rasp:
# run server locally
host = 'localhost'
port = 9091
server = rpc.Server(host=host, port=port)
server = rpc.Server(host=host, port=port, use_popen=True)
######################################################################
# Prepare the Pretrained Model
@ -114,7 +114,7 @@ import numpy as np
block = get_model('resnet18_v1', pretrained=True)
######################################################################
# In order to test our model, here we download a image of cat and
# In order to test our model, here we download an image of cat and
# transform its format.
img_name = 'cat.jpg'
download('https://github.com/dmlc/mxnet.js/blob/master/data/cat.png?raw=true', img_name)