Hello Reshape SSD Python* Sample

This sample demonstrates how to do synchronous inference of object detection networks using Shape Inference feature.
Models with only 1 input and output are supported.

The following Inference Engine Python API is used in the application:

Feature API Description
Network Operations IENetwork.reshape Managing of network: configure input and output blobs
Custom Extension Kernels IECore.add_extension, IECore.set_config Load extension library and config to the device

Basic Inference Engine API is covered by Hello Classification Python* Sample.

Options Values
Validated Models mobilenet-ssd
Model Format Inference Engine Intermediate Representation (.xml + .bin), ONNX (.onnx)
Supported devices All
Other language realization C++

How It Works

At startup, the sample application reads command-line parameters, prepares input data, loads a specified model and image to the Inference Engine plugin, performs synchronous inference, and processes output data.
As a result, the program creates an output image, logging each step in a standard output stream.

You can see the explicit description of each sample step at Integration Steps section of "Integrate the Inference Engine with Your Application" guide.


Run the application with the -h option to see the usage message:

python <path_to_sample>/hello_reshape_ssd.py -h

Usage message:

usage: hello_reshape_ssd.py [-h] -m MODEL -i INPUT [-l EXTENSION] [-c CONFIG]
[-d DEVICE] [--labels LABELS]
-h, --help Show this help message and exit.
-m MODEL, --model MODEL
Required. Path to an .xml or .onnx file with a trained
-i INPUT, --input INPUT
Required. Path to an image file.
Optional. Required by the CPU Plugin for executing the
custom operation on a CPU. Absolute path to a shared
library with the kernels implementations.
-c CONFIG, --config CONFIG
Optional. Required by GPU or VPU Plugins for the
custom operation kernel. Absolute path to operation
description file (.xml).
-d DEVICE, --device DEVICE
Optional. Specify the target device to infer on; CPU,
GPU, MYRIAD, HDDL or HETERO: is acceptable. The sample
will look for a suitable plugin for device specified.
Default value is CPU.
--labels LABELS Optional. Path to a labels mapping file.

To run the sample, you need specify a model and image:


  • By default, Inference Engine samples and demos expect input with BGR channels order. If you trained your model to work with RGB order, you need to manually rearrange the default channels order in the sample or demo application or reconvert your model using the Model Optimizer tool with --reverse_input_channels argument specified. For more information about the argument, refer to When to Reverse Input Channels section of Converting a Model Using General Conversion Parameters.
  • Before running the sample with a trained model, make sure the model is converted to the Inference Engine format (*.xml + *.bin) using the Model Optimizer tool.
  • The sample accepts models in ONNX format (.onnx) that do not require preprocessing.


  1. Download a pre-trained model using Model Downloader:
    python <path_to_omz_tools>/downloader.py --name mobilenet-ssd
  2. If a model is not in the Inference Engine IR or ONNX format, it must be converted. You can do this using the model converter script:
python <path_to_omz_tools>/converter.py --name mobilenet-ssd
  1. Perform inference of car.bmp using mobilenet-ssd model on a GPU, for example:
python <path_to_sample>/hello_reshape_ssd.py -m <path_to_model>/mobilenet-ssd.xml -i <path_to_image>/car.bmp -d GPU

Sample Output

The sample application logs each step in a standard output stream and creates an output image, drawing bounding boxes for inference results with an over 50% confidence.

[ INFO ] Creating Inference Engine
[ INFO ] Reading the network: c:\openvino\deployment_tools\open_model_zoo\tools\downloader\public\mobilenet-ssd\FP32\mobilenet-ssd.xml
[ INFO ] Configuring input and output blobs
[ INFO ] Reshaping the network to the height and width of the input image
[ INFO ] Input shape before reshape: [1, 3, 300, 300]
[ INFO ] Input shape after reshape: [1, 3, 637, 749]
[ INFO ] Loading the model to the plugin
[ INFO ] Starting inference in synchronous mode
[ INFO ] Found: label = 7, confidence = 0.99, coords = (283, 166), (541, 472)
[ INFO ] Image out.bmp was created!
[ INFO ] This sample is an API example, for any performance measurements please use the dedicated benchmark_app tool

See Also