A Framework for creating a boilerplate template for ai projects that are ready for MLOps
Project description
Machine Learning Extension for pyPhases
This Extension adds:
- an Exporter for
PyTorch
andTensorFlow
Models. - an Modelmanager that can handle
PyTorch
andTensorFlow
Models
Setup
- add pyPhasesML to your dependencies or run
pipp install -U pyPhasesML
- add
pyPhasesML
to your plugins in the main project config f.e: in yourproject.yaml
name: bumpDetector
namespace: ibmt.tud
# load machine learning plugin
plugins:
- pyPhasesML
- you do not need to add the ModelExporter manually
Getting startet
Minimal Example
For a complete minimal example see, with loading data, training and evaluation see: https://gitlab.com/tud.ibmt.public/pyphases/pyphasesml-example-bumpdetector
Adding required config values
These values can be changed in your config. The default values are shown here:
modelPath: models/mymodels
# the name of the model (also defines the path: models/MyCnn/MyCnn.py)
modelName: CNNPytorch
# the model config for a specific model
model:
kernelSize: 3
alwaysIgnoreClassIndex: null
inputShape: [16, 50]
oneHotDecoded: False
trainingParameter:
useEventScorer: false
stopAfterNotImproving: false
maxEpochs: false
batchSize: 32
validationEvery: false
optimizer: false
batchSizeValidation: 32
learningRate: 0.001
learningRateDecay: 0.001
validationMetrics: ["acc", "kappa"]
classification:
type: classification
classNames: [A, B]
classWeights: [0.6, 0.4]
Adding a PyTorch Model CNNPytorch
Create a class that is compatible with your modelPath
and modelname
. So in this example, we need a class CNNPytorch
in the path models/mymodels/CNNPytorch.py
relative to your root.
This class is required to:
- inherit from
ModelTorchAdapter
: - populate the
self.model
with a valid PyTorch-Model, in thedefine
method - return a valid loss function in the method
getLossFunction
import torch.nn as nn
from pyPhasesML.adapter.ModelTorchAdapter import ModelTorchAdapter
class CNNPytorch(ModelTorchAdapter):
def define(self):
length, channelCount = self.inputShape
numClasses = self.numClasses
self.model = nn.Conv1d(
in_channels=channelCount,
out_channels=self.numClasses,
kernel_size=self.getOption("kernelSize"),
)
def getLossFunction(self):
return torch.nn.MultiLabelSoftMarginLoss(reduction="mean", weight=self.weightTensors)
Load the model
In a phase you can simply use the ModelManager
to get the Model and registerData
to save the state. There is no dependency on pyTorch
or TensorFlow
in this example, so you swap your models dynamicly depending on your environment:
import numpy as np
from pathlib import Path
from pyPhases import Phase
from pyPhasesML import DatasetWrapXY, ModelManager, TrainingSet
class TestModel(Phase):
def main(self):
# loads the model depending on modelPath and modelName
model = ModelManager.getModel()
input = np.randn(20, 16, 50)
output = model(input)
# save the model state
self.project.registerData("modelState", model)
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