HPS Plugin for TensorRT Notebooks

This directory contains a set of Jupyter notebooks that demonstrate how to use the HPS plugin for TensorRT.

Quickstart

The simplest way to run a one of our notebooks is with a Docker container. A container provides a self-contained, isolated, and reproducible environment for repetitive experiments. Docker images are available from the NVIDIA GPU Cloud (NGC). If you prefer to build the HugeCTR Docker image on your own, refer to Set Up the Development Environment With Merlin Containers.

Pull the Container from NGC

Pull a container based on the modeling framework and notebook that you want to run.

To run the demo_for_tf_trained_model.ipynb notebook, pull the Merlin TensorFlow container:

docker pull nvcr.io/nvidia/merlin/merlin-tensorflow:23.01

To run the demo_for_pytorch_trained_model.ipynb notebook, pull the Merlin PyTorch container:

docker pull nvcr.io/nvidia/merlin/merlin-pytorch:23.01

To run the demo_for_hugectr_trained_model.ipynb notebook, pull the Merlin HugeCTR container:

docker pull nvcr.io/nvidia/merlin/merlin-hugectr:23.01

The HPS TensorRT plugin is installed in all the containers.

Clone the HugeCTR Repository

Use the following command to clone the HugeCTR repository:

git clone https://github.com/NVIDIA-Merlin/HugeCTR

Start the Jupyter Notebook

1. Launch the container in interactive mode (mount the HugeCTR root directory into the container for your convenience) by running the following command.

   docker run --runtime=nvidia --rm -it --cap-add SYS_NICE -u $(id -u):$(id -g) -v $(pwd):/hugectr -w /hugectr -p 8888:8888 nvcr.io/nvidia/merlin/<container-name>:23.01
   

2. Start Jupyter using these commands:

   cd /hugectr/hps_trt/notebooks
   jupyter-notebook --allow-root --ip 0.0.0.0 --port 8888 --NotebookApp.token='hugectr'
   

3. Connect to your host machine using the 8888 port by accessing its IP address or name from your web browser: http://[host machine]:8888

   Use the token available from the output by running the command above to log in. For example:

   http://[host machine]:8888/?token=aae96ae9387cd28151868fee318c3b3581a2d794f3b25c6b

Notebook List

Here’s a list of notebooks that you can run:

• demo_for_tf_trained_model.ipynb: Demonstrates how to train with TensorFlow and then build the HPS-integrated TensorRT engine for deployment.

• demo_for_pytorch_trained_model.ipynb: Demonstrates how to train with PyTorch and then build the HPS-integrated TensorRT engine for deployment.

• demo_for_hugectr_trained_model.ipynb: Demonstrates how to train with HugeCTR and then build the HPS-integrated TensorRT engine for deployment.

System Specifications

The specifications of the system on which each notebook can run successfully are summarized in the table. The notebooks are verified on the system below but it does not mean the minimum requirements.

Notebook	CPU	GPU	#GPUs	Author
demo_for_tf_trained_model.ipynb	Intel® Xeon® CPU E5-2698 v4 @ 2.20GHz 512 GB Memory	Tesla V100-SXM2-32GB 32 GB Memory	1	Kingsley Liu
demo_for_pytorch_trained_model.ipynb	Intel® Xeon® CPU E5-2698 v4 @ 2.20GHz 512 GB Memory	Tesla V100-SXM2-32GB 32 GB Memory	1	Kingsley Liu
demo_for_hugectr_trained_model.ipynb	Intel® Xeon® CPU E5-2698 v4 @ 2.20GHz 512 GB Memory	Tesla V100-SXM2-32GB 32 GB Memory	1	Kingsley Liu