JordanMicahBennett/tf_trt_models

TensorFlow models accelerated with NVIDIA TensorRT

TensorFlow/TensorRT Models on Jetson

This repository contains scripts and documentation to use TensorFlow image classification and object detection models on NVIDIA Jetson. The models are sourced from the TensorFlow models repository and optimized using TensorRT.

• Setup
• Image Classification
  • Models
  • Download pretrained model
  • Build TensorRT / Jetson compatible graph
  • Optimize with TensorRT
  • Jupyter Notebook Sample
  • Train for custom task
• Object Detection
  • Models
  • Download pretrained model
  • Build TensorRT / Jetson compatible graph
  • Optimize with TensorRT
  • Jupyter Notebook Sample
  • Train for custom task

Setup

1. Flash your Jetson TX2 with JetPack 3.2 (including TensorRT).

2. Install miscellaneous dependencies on Jetson

   sudo apt-get install python-pip python-matplotlib python-pil
   

3. Install TensorFlow 1.7+ (with TensorRT support). Download the pre-built pip wheel and install using pip.

   pip install tensorflow-1.8.0-cp27-cp27mu-linux_aarch64.whl --user
   

   or if you're using Python 3.

   pip3 install tensorflow-1.8.0-cp35-cp35m-linux_aarch64.whl --user
   

4. Clone this repository

   git clone --recursive https://github.com/NVIDIA-Jetson/tf_trt_models.git
   cd tf_trt_models
   

5. Run the installation script

   ./install.sh
   

   or if you want to specify python intepreter

   ./install.sh python3
   

Image Classification

Models

Model	Input Size	TF-TRT TX2	TF TX2
inception_v1	224x224	7.36ms	22.9ms
inception_v2	224x224	9.08ms	31.8ms
inception_v3	299x299	20.7ms	74.3ms
inception_v4	299x299	38.5ms	129ms
inception_resnet_v2	299x299		158ms
resnet_v1_50	224x224	12.5ms	55.1ms
resnet_v1_101	224x224	20.6ms	91.0ms
resnet_v1_152	224x224	28.9ms	124ms
resnet_v2_50	299x299	26.5ms	73.4ms
resnet_v2_101	299x299	46.9ms
resnet_v2_152	299x299	69.0ms
mobilenet_v1_0p25_128	128x128	3.72ms	7.99ms
mobilenet_v1_0p5_160	160x160	4.47ms	8.69ms
mobilenet_v1_1p0_224	224x224	11.1ms	17.3ms

TF - Original TensorFlow graph (FP32)

TF-TRT - TensorRT optimized graph (FP16)

The above benchmark timings were gathered after placing the Jetson TX2 in MAX-N mode. To do this, run the following commands in a terminal:

sudo nvpmodel -m 0
sudo ~/jetson_clocks.sh

Download pretrained model

As a convenience, we provide a script to download pretrained models sourced from the TensorFlow models repository.

from tf_trt_models.classification import download_classification_checkpoint

checkpoint_path = download_classification_checkpoint('inception_v2')

To manually download the pretrained models, follow the links here.

Build TensorRT / Jetson compatible graph

from tf_trt_models.classification import build_classification_graph

frozen_graph, input_names, output_names = build_classification_graph(
    model='inception_v2',
    checkpoint=checkpoint_path,
    num_classes=1001
)

Optimize with TensorRT

import tensorflow.contrib.tensorrt as trt

trt_graph = trt.create_inference_graph(
    input_graph_def=frozen_graph,
    outputs=output_names,
    max_batch_size=1,
    max_workspace_size_bytes=1 << 25,
    precision_mode='FP16',
    minimum_segment_size=50
)

Jupyter Notebook Sample

For a comprehensive example of performing the above steps and executing on a real image, see the jupyter notebook sample.

Train for custom task

Follow the documentation from the TensorFlow models repository. Once you have obtained a checkpoint, proceed with building the graph and optimizing with TensorRT as shown above.

Object Detection

Models

Model	Input Size	TF-TRT TX2	TF TX2
ssd_mobilenet_v1_coco	300x300	50.5ms	72.9ms
ssd_inception_v2_coco	300x300	54.4ms	132ms

TF - Original TensorFlow graph (FP32)

TF-TRT - TensorRT optimized graph (FP16)

The above benchmark timings were gathered after placing the Jetson TX2 in MAX-N mode. To do this, run the following commands in a terminal:

sudo nvpmodel -m 0
sudo ~/jetson_clocks.sh

Download pretrained model

As a convenience, we provide a script to download pretrained model weights and config files sourced from the TensorFlow models repository.

from tf_trt_models.detection import download_detection_model

config_path, checkpoint_path = download_detection_model('ssd_inception_v2_coco')

To manually download the pretrained models, follow the links here.

Important: Some of the object detection configuration files have a very low non-maximum suppression score threshold (ie. 1e-8). This can cause unnecessarily large CPU post-processing load. Depending on your application, it may be advisable to raise this value to something larger (like 0.3) for improved performance. We do this for the above benchmark timings. This can be done by modifying the configuration file directly before calling build_detection_graph. The parameter can be found for example in this line.

Build TensorRT / Jetson compatible graph

from tf_trt_models.detection import build_detection_graph

frozen_graph, input_names, output_names = build_detection_graph(
    config=config_path,
    checkpoint=checkpoint_path
)

Optimize with TensorRT

import tensorflow.contrib.tensorrt as trt

trt_graph = trt.create_inference_graph(
    input_graph_def=frozen_graph,
    outputs=output_names,
    max_batch_size=1,
    max_workspace_size_bytes=1 << 25,
    precision_mode='FP16',
    minimum_segment_size=50
)

Jupyter Notebook Sample

For a comprehensive example of performing the above steps and executing on a real image, see the jupyter notebook sample.

Train for custom task

Follow the documentation from the TensorFlow models repository. Once you have obtained a checkpoint, proceed with building the graph and optimizing with TensorRT as shown above. Please note that all models are not tested so you should use an object detection config file during training that resembles one of the ssd_mobilenet_v1_coco or ssd_inception_v2_coco models. Some config parameters may be modified, such as the number of classes, image size, non-max supression parameters, but the performance may vary.