This repository contains code for DALI Backend for Triton Inference Server.
NVIDIA DALI (R), the Data Loading Library, is a collection of highly optimized building blocks, and an execution engine, to accelerate the pre-processing of the input data for deep learning applications. DALI provides both the performance and the flexibility to accelerate different data pipelines as one library. This library can then be easily integrated into different deep learning training and inference applications, regardless of used deep learning framework.
To find out more about DALI please refer to our main page. Getting started and Tutorials will guide you through your first steps and Supported operations will help you put together GPU-powered data processing pipelines.
Feel free to post an issue here or in DALI's github repository.
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DALI data pipeline is expressed within Triton as a Model. To create such Model, you have to put together a DALI Pipeline in Python. Then, you have to serialize it (by calling the Pipeline.serialize method) or use the Autoserialization to generate a Model file. As an example, we'll use simple resizing pipeline:
import nvidia.dali as dali from nvidia.dali.plugin.triton import autoserialize @autoserialize @dali.pipeline_def(batch_size=256, num_threads=4, device_id=0) def pipe(): images = dali.fn.external_source(device="cpu", name="DALI_INPUT_0") images = dali.fn.image_decoder(images, device="mixed") images = dali.fn.resize(images, resize_x=224, resize_y=224) return images
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Model file shall be incorporated in Triton's Model Repository. Here's the example:
model_repository └── dali ├── 1 │ └── model.dali └── config.pbtxt
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As it's typical in Triton, your DALI Model file shall be named
model.dali
. You can override this name in the model configuration, by settingdefault_model_filename
option. Here's the wholeconfig.pbtxt
we use for theResizePipeline
example:name: "dali" backend: "dali" max_batch_size: 256 input [ { name: "DALI_INPUT_0" data_type: TYPE_UINT8 dims: [ -1 ] } ] output [ { name: "DALI_OUTPUT_0" data_type: TYPE_UINT8 dims: [ 224, 224, 3 ] } ]
You can omit writing most of the configuration file if you specify information about the inputs, outputs and max batch size in the pipeline definition. Refer to Configuration auto-complete for the details about this feature.
To simplify the model deployment, Triton Server can infer parts of the configuration file from the model file itself. In case of DALI backend, the information about the inputs, outputs and the max batch size can be specified in the pipeline definition and does not need to be repeated in the configuration file. Below you can see how to include the configuration info in the Python pipeline definition:
import nvidia.dali as dali
from nvidia.dali.plugin.triton import autoserialize
import nvidia.dali.types as types
@autoserialize
@dali.pipeline_def(batch_size=256, num_threads=4, device_id=0, output_dtype=[types.UINT8], output_ndim=[3])
def pipe():
images = dali.fn.external_source(device="cpu", name="DALI_INPUT_0", dtype=types.UINT8, ndim=1)
images = dali.fn.image_decoder(images, device="mixed")
images = dali.fn.resize(images, resize_x=224, resize_y=224)
return images
As you can see, we added dtype
and ndim
(number of dimensions) arguments to the external source operator. They provide the information needed to
fill the inputs
field in the configuration file. To fill the outputs
field, we added the output_dtype
and output_ndim
arguments to the pipeline definition. Those are expected to be lists with a value for each output.
This way we can limit the configuration file to just naming the model and specifying the DALI backend:
name: "dali"
backend: "dali"
You can still provide some of the information if it is not present in the pipeline definition or to override some of the values. For example, you can use the configuration file to give new names to the model outputs which might be useful when using them later in an ensemble model. You can also overwrite the max batch size. The configuration file for the pipeline defined above could look like this:
name: "dali"
backend: "dali"
max_batch_size: 128
output [
{
name: "DALI_OUTPUT_0"
dims: [ 224, 224, 3 ]
}
]
Such configuration file overwrites the max batch size value to 128. It also renames the pipeline output
to "DALI_OUTPUT_0"
and specifies its shape to be (224, 224, 3)
.
Refer DALI model configuration file documentation for details on model parameters that can specified in the configuation file.
When using DALI Backend in Triton, user has to provide a DALI model in the Model Repository.
A canonical way of expressing a model is to include a serialized DALI model file there and
naming the file properly (model.dali
by default). The issue that arises from storing model
in a serialized file is that, after serialization, the model is obscure and almost impossible
to read anymore. Autoserialization feature allows user to express the model in Python code in
the model repository. With the Python-defined model, DALI Backend uses internal serialization
mechanism and exempts user from manual serialization.
To use the autoserialization feature, user needs to put a Python-definition of the DALI pipeline
inside the model file (model.dali
by default, but the default file name can be configured
in the config.pbtxt
). Such pipeline definition has to be decorated with @autoserialize
,
e.g.:
import nvidia.dali as dali
@dali.plugin.triton.autoserialize
@dali.pipeline_def(batch_size=3, num_threads=1, device_id=0)
def pipe():
'''
An identity pipeline with autoserialization enabled
'''
data = dali.fn.external_source(device="cpu", name="DALI_INPUT_0")
return data
Proper DALI pipeline definition in Python, together with autoserialization, shall meet the following conditions:
- Only a
pipeline_def
can be decorated withautoserialize
. - Only one pipeline definition may be decorated with
autoserialize
in a given model version.
While loading a model file, DALI Backend follows the precedence:
- First, DALI Backend tries to load a serialized model from the user-specified model location in
default_model_filename
property (model.dali
if not specified explicitly); - If the previous fails, DALI Backend tries to load and autoserialize a Python pipeline
definition from the user-specified model location. Important: In this case we require, that the file name with the model definition ends with
.py
, e.g.mymodel.py
; - If the previous fails, DALI Backend tries to load and autoserialize a Python pipeline
definition from the
dali.py
file in a given model version.
If you did not tweak a model path definition in the config.pbtxt
file, you should follow the rule of thumb:
- If you have a serialized pipeline, call the file
model.dali
and put it into the model repository, - If you have a python definition of a pipeline, which shall be autoserialized, call it
dali.py
.
- Currently, the only way to pass an input to the DALI pipeline from Triton is to use the
fn.external_source
operator. Therefore, there's a high chance, that you'll want to use it to feed the encoded images (or any other data) into DALI. - Give your
fn.external_source
operator the same name you give to the Input inconfig.pbtxt
.
- DALI's
ImageDecoder
accepts data only from the CPU - keep this in mind when putting together your DALI pipeline. - Triton accepts only homogeneous batch shape. Feel free to pad your batch of encoded images with zeros
- Due to DALI limitations, you might observe unnaturally increased memory consumption when
defining instance group for DALI model with higher
count
than 1. We suggest using default instance group for DALI model.
Building DALI Backend with docker is as simple as:
git clone --recursive https://github.com/triton-inference-server/dali_backend.git
cd dali_backend
docker build -f docker/Dockerfile.release -t tritonserver:dali-latest .
And tritonserver:dali-latest
becomes your new tritonserver
docker image
To build dali_backend
you'll need CMake 3.17+
On the event you'd need to use newer DALI version than it's provided in tritonserver
image,
you can use DALI's nightly builds.
Just install whatever DALI version you like using pip (refer to the link for more info how to do it).
In this case, while building dali_backend
, you'd need to pass -D TRITON_SKIP_DALI_DOWNLOAD=ON
option to your CMake build. dali_backend
will find the latest DALI installed in your system and
use this particular version.
Building DALI Backend is really straightforward. One thing to remember is to clone
dali_backend
repository with all the submodules:
git clone --recursive https://github.com/triton-inference-server/dali_backend.git
cd dali_backend
mkdir build
cd build
cmake ..
make
The building process will generate unittest
executable.
You can use it to run unit tests for DALI Backend