Samples#
Get ONNX models from ONNX Model Zoo
Sample - SqueezeNet#
Download the SqueezeNet ONNX Model
Use Netron to open the model.onnx
Look at Model Properties to find Input & Output Tensor Name (data_0 - input; softmaxout_1 - output)
Look at output tensor dimensions (n,c,h,w - [1,1000,1,1] for softmaxout_1)
Use the label file - data\Labels.txt and sample image - data\car.JPEG to run samples
winML-image.gdf - Single Image Inference#
This sample is in Graph Description Format (gdf)
usage#
runvx.exe -v winML-image.gdf
NOTE:
Make the below changes in the winML-image.gdf file to run the inference
Add full path to the data\car.JPEG image provided in this folder in line 11
read input_image FULL_PATH_TO\data\car.JPEG
Add full path to the SqueezeNet ONNX model downloaded in line 21
data modelLocation = scalar:STRING,FULL_PATH_TO\squeezenet\model.onnx:view,resultWindow
Add full path to the data\Labels.txt provided in this folder in line 34
data labelLocation = scalar:STRING,FULL_PATH_TO\data\Labels.txt
winML-live.gdf - Live Inference using a camera#
This sample is in Graph Description Format (gdf)
usage#
runvx.exe -frames:LIVE winML-live.gdf
NOTE:
Make the below changes in the winML-live.gdf file to run the inference
Add full path to the SqueezeNet ONNX model downloaded in line 16
data modelLocation = scalar:STRING,FULL_PATH_TO\squeezenet\model.onnx:view,resultWindow
Add full path to the data\Labels.txt provided in this folder in line 25
data labelLocation = scalar:STRING,FULL_PATH_TO\data\Labels.txt
winML-Live-MultipleModels.gdf - Live Inference using a camera#
This sample is in Graph Description Format (gdf)
usage#
runvx.exe -frames:LIVE winML-Live-MultipleModels.gdf
NOTE:
Make the below changes in the winML-Live-MultipleModels.gdf file to run the inference
Add full path to the VGG19 ONNX model downloaded in line 17
data modelLocation_vgg = scalar:STRING,FULL_PATH_TO\vgg19\model.onnx:view,resultWindow
Add full path to the SqueezeNet ONNX model downloaded in line 31
data modelLocation_squeezenet = scalar:STRING,FULL_PATH_TO\squeezenet\model.onnx:view,resultWindow
Add full path to the data\Labels.txt provided in this folder in line 44
data labelLocation = scalar:STRING,FULL_PATH_TO\data\Labels.txt
Sample - FER+ Emotion Recognition#
Download the FER+ Emotion Recognition ONNX Model
Use Netron to open the model.onnx
Look at Model Properties to find Input & Output Tensor Name (Input3 - input; Plus692_Output_0 - output)
Look at output tensor dimensions (n,c,h,w - [1,8] for Plus692_Output_0)
Use the label file - data/emotions.txt to run sample
This sample is in Graph Description Format (gdf)
usage#
runvx.exe -frames:LIVE winML-live-emotions.gdf
NOTE:
Make the below changes in the winML-live-emotions.gdf file to run the inference
Add full path to the FER+ Emotion Recognition ONNX model downloaded in line 16
data modelLocation = scalar:STRING,FULL_PATH_TO\emotion_ferplus\model.onnx:view,inputImageWindow
Add full path to the data\emotions.txt provided in this folder in line 25
data labelLocation = scalar:STRING,FULL_PATH_TO\data\emotions.txt
Sample - VGG19#
Download the VGG-19 ONNX Model
Use Netron to open the model.onnx
Look at Model Properties to find Input & Output Tensor Name (data_0 - input; prob_1 - output)
Look at output tensor dimensions (n,c,h,w - [1,1000] for prob_1)
Use the label file - data/Labels.txt to run sample
This sample is in Graph Description Format (gdf)
usage#
runvx.exe -v winML-image-vgg19.gdf
NOTE:
Make the below changes in the winML-live-vgg19.gdf file to run the inference
Add full path to the data\bird.JPEG image provided in this folder in line 11
read input_image FULL_PATH_TO\data\bird.JPEG
Add full path to the VGG 19 ONNX model downloaded in line 21
data modelLocation = scalar:STRING,FULL_PATH_TO\vgg19\model.onnx:view,resultWindow
Add full path to the data\Labels.txt provided in this folder in line 33
data labelLocation = scalar:STRING,FULL_PATH_TO\data\Labels.txt