Convert a Tensorflow Lite Model to OpenVINO™

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TensorFlow Lite, often referred to as TFLite, is an open source library developed for deploying machine learning models to edge devices.

This short tutorial shows how to convert a TensorFlow Lite EfficientNet-Lite-B0 image classification model to OpenVINO Intermediate Representation (OpenVINO IR) format, using Model Converter. After creating the OpenVINO IR, load the model in OpenVINO Runtime and do inference with a sample image.

Table of contents:

Preparation

Install requirements

%pip install -q "openvino>=2023.1.0"
%pip install -q opencv-python requests tqdm

# Fetch `notebook_utils` module
import urllib.request
urllib.request.urlretrieve(
    url='https://raw.githubusercontent.com/openvinotoolkit/openvino_notebooks/main/notebooks/utils/notebook_utils.py',
    filename='notebook_utils.py'
);
Note: you may need to restart the kernel to use updated packages.
Note: you may need to restart the kernel to use updated packages.

Imports

from pathlib import Path
import numpy as np
from PIL import Image
import openvino as ov

from notebook_utils import download_file, load_image

Download TFLite model

model_dir = Path("model")
tflite_model_path = model_dir / "efficientnet_lite0_fp32_2.tflite"

ov_model_path = tflite_model_path.with_suffix(".xml")
model_url = "https://www.kaggle.com/models/tensorflow/efficientnet/frameworks/tfLite/variations/lite0-fp32/versions/2?lite-format=tflite"

download_file(model_url, tflite_model_path.name, model_dir)
model/efficientnet_lite0_fp32_2.tflite:   0%|          | 0.00/17.7M [00:00<?, ?B/s]
PosixPath('/opt/home/k8sworker/ci-ai/cibuilds/ov-notebook/OVNotebookOps-609/.workspace/scm/ov-notebook/notebooks/119-tflite-to-openvino/model/efficientnet_lite0_fp32_2.tflite')

Convert a Model to OpenVINO IR Format

To convert the TFLite model to OpenVINO IR, model conversion Python API can be used. ov.convert_model function accepts the path to the TFLite model and returns an OpenVINO Model class instance which represents this model. The obtained model is ready to use and to be loaded on a device using ov.compile_model or can be saved on a disk using ov.save_model function, reducing loading time for next running. By default, model weights are compressed to FP16 during serialization by ov.save_model. For more information about model conversion, see this page. For TensorFlow Lite models support, refer to this tutorial.

ov_model = ov.convert_model(tflite_model_path)
ov.save_model(ov_model, ov_model_path)
print(f"Model {tflite_model_path} successfully converted and saved to {ov_model_path}")
Model model/efficientnet_lite0_fp32_2.tflite successfully converted and saved to model/efficientnet_lite0_fp32_2.xml

Load model using OpenVINO TensorFlow Lite Frontend

TensorFlow Lite models are supported via FrontEnd API. You may skip conversion to IR and read models directly by OpenVINO runtime API. For more examples supported formats reading via Frontend API, please look this tutorial.

core = ov.Core()

ov_model = core.read_model(tflite_model_path)

Run OpenVINO model inference

We can find information about model input preprocessing in its description on TensorFlow Hub.

image = load_image("https://storage.openvinotoolkit.org/repositories/openvino_notebooks/data/data/image/coco_bricks.png")
# load_image reads the image in BGR format, [:,:,::-1] reshape transfroms it to RGB
image = Image.fromarray(image[:,:,::-1])
resized_image = image.resize((224, 224))
input_tensor = np.expand_dims((np.array(resized_image).astype(np.float32) - 127) / 128, 0)

Select inference device

select device from dropdown list for running inference using OpenVINO

import ipywidgets as widgets

device = widgets.Dropdown(
    options=core.available_devices + ["AUTO"],
    value='AUTO',
    description='Device:',
    disabled=False,
)

device
Dropdown(description='Device:', index=1, options=('CPU', 'AUTO'), value='AUTO')
compiled_model = core.compile_model(ov_model)
predicted_scores = compiled_model(input_tensor)[0]
imagenet_classes_file_path = download_file("https://storage.openvinotoolkit.org/repositories/openvino_notebooks/data/data/datasets/imagenet/imagenet_2012.txt")
imagenet_classes = open(imagenet_classes_file_path).read().splitlines()

top1_predicted_cls_id = np.argmax(predicted_scores)
top1_predicted_score = predicted_scores[0][top1_predicted_cls_id]
predicted_label = imagenet_classes[top1_predicted_cls_id]

display(image.resize((640, 512)))
print(f"Predicted label: {predicted_label} with probability {top1_predicted_score :2f}")
imagenet_2012.txt:   0%|          | 0.00/30.9k [00:00<?, ?B/s]
../_images/119-tflite-to-openvino-with-output_16_1.png
Predicted label: n02109047 Great Dane with probability 0.715318

Estimate Model Performance

Benchmark Tool is used to measure the inference performance of the model on CPU and GPU.

NOTE: For more accurate performance, it is recommended to run benchmark_app in a terminal/command prompt after closing other applications. Run benchmark_app -m model.xml -d CPU to benchmark async inference on CPU for one minute. Change CPU to GPU to benchmark on GPU. Run benchmark_app --help to see an overview of all command-line options.

print("Benchmark model inference on CPU")
!benchmark_app -m $ov_model_path -d CPU -t 15
if "GPU" in core.available_devices:
    print("\n\nBenchmark model inference on GPU")
    !benchmark_app -m $ov_model_path -d GPU -t 15
Benchmark model inference on CPU
[Step 1/11] Parsing and validating input arguments
[ INFO ] Parsing input parameters
[Step 2/11] Loading OpenVINO Runtime
[ INFO ] OpenVINO:
[ INFO ] Build ................................. 2023.3.0-13775-ceeafaf64f3-releases/2023/3
[ INFO ]
[ INFO ] Device info:
[ INFO ] CPU
[ INFO ] Build ................................. 2023.3.0-13775-ceeafaf64f3-releases/2023/3
[ INFO ]
[ INFO ]
[Step 3/11] Setting device configuration
[ WARNING ] Performance hint was not explicitly specified in command line. Device(CPU) performance hint will be set to PerformanceMode.THROUGHPUT.
[Step 4/11] Reading model files
[ INFO ] Loading model files
[ INFO ] Read model took 21.35 ms
[ INFO ] Original model I/O parameters:
[ INFO ] Model inputs:
[ INFO ]     images (node: images) : f32 / [...] / [1,224,224,3]
[ INFO ] Model outputs:
[ INFO ]     Softmax (node: 63) : f32 / [...] / [1,1000]
[Step 5/11] Resizing model to match image sizes and given batch
[ INFO ] Model batch size: 1
[Step 6/11] Configuring input of the model
[ INFO ] Model inputs:
[ INFO ]     images (node: images) : u8 / [N,H,W,C] / [1,224,224,3]
[ INFO ] Model outputs:
[ INFO ]     Softmax (node: 63) : f32 / [...] / [1,1000]
[Step 7/11] Loading the model to the device
[ INFO ] Compile model took 147.38 ms
[Step 8/11] Querying optimal runtime parameters
[ INFO ] Model:
[ INFO ]   NETWORK_NAME: TensorFlow_Lite_Frontend_IR
[ INFO ]   OPTIMAL_NUMBER_OF_INFER_REQUESTS: 6
[ INFO ]   NUM_STREAMS: 6
[ INFO ]   AFFINITY: Affinity.CORE
[ INFO ]   INFERENCE_NUM_THREADS: 24
[ INFO ]   PERF_COUNT: NO
[ INFO ]   INFERENCE_PRECISION_HINT: <Type: 'float32'>
[ INFO ]   PERFORMANCE_HINT: THROUGHPUT
[ INFO ]   EXECUTION_MODE_HINT: ExecutionMode.PERFORMANCE
[ INFO ]   PERFORMANCE_HINT_NUM_REQUESTS: 0
[ INFO ]   ENABLE_CPU_PINNING: True
[ INFO ]   SCHEDULING_CORE_TYPE: SchedulingCoreType.ANY_CORE
[ INFO ]   ENABLE_HYPER_THREADING: True
[ INFO ]   EXECUTION_DEVICES: ['CPU']
[ INFO ]   CPU_DENORMALS_OPTIMIZATION: False
[ INFO ]   CPU_SPARSE_WEIGHTS_DECOMPRESSION_RATE: 1.0
[Step 9/11] Creating infer requests and preparing input tensors
[ WARNING ] No input files were given for input 'images'!. This input will be filled with random values!
[ INFO ] Fill input 'images' with random values
[Step 10/11] Measuring performance (Start inference asynchronously, 6 inference requests, limits: 15000 ms duration)
[ INFO ] Benchmarking in inference only mode (inputs filling are not included in measurement loop).
[ INFO ] First inference took 7.28 ms
[Step 11/11] Dumping statistics report
[ INFO ] Execution Devices:['CPU']
[ INFO ] Count:            17502 iterations
[ INFO ] Duration:         15007.36 ms
[ INFO ] Latency:
[ INFO ]    Median:        5.02 ms
[ INFO ]    Average:       5.02 ms
[ INFO ]    Min:           3.02 ms
[ INFO ]    Max:           13.94 ms
[ INFO ] Throughput:   1166.23 FPS