Registred model.
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@ -35,10 +35,10 @@ pipeline {
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sh 'chmod +x dlgssdpytorch.py'
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sh 'python3 ./dlgssdpytorch.py $PARAMETRY'
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sh 'chmod +x train_mlflow.py'
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//sh 'chmod +x generate_MLmodel.py'
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//sh 'python3 ./generate_MLmodel.py'
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sh 'python3 ./train_mlflow.py -e 5'
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//sh 'mlflow run --experiment-name s426206 .' //Uruchamiany projekt nie moze znajdowac sie w katalogach z wielkimi literami.
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sh 'chmod +x generate_MLmodel.py'
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sh 'python3 ./generate_MLmodel.py -e 5'
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}
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}
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}
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@ -4,7 +4,6 @@ name: 426206mlflow
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docker_env:
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image: rokoch/ium:01
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volumes: ["/etc/passwd:/etc/passwd"]
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entry_points:
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main:
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@ -1,12 +1,13 @@
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import torch
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import numpy as np
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import torch.nn as nn
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import torch.optim as optim
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from torch.utils.data import Dataset, TensorDataset, DataLoader
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import argparse
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import mlflow
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import mlflow.pytorch
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from urllib.parse import urlparse
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from mlflow.models.signature import infer_signature
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class LayerLinearRegression(nn.Module):
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@ -14,30 +15,130 @@ class LayerLinearRegression(nn.Module):
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super().__init__()
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# Instead of our custom parameters, we use a Linear layer with single input and single output
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self.linear = nn.Linear(1, 1)
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def forward(self, x):
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# Now it only takes a call to the layer to make predictions
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return self.linear(x)
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checkpoint = torch.load('model.pt')
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if __name__ == "__main__":
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model = LayerLinearRegression()
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#optimizer = optim.SGD(model.parameters(), lr=checkpoint['loss'])
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parser = argparse.ArgumentParser(description='Program do uczenia modelu')
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parser.add_argument('-l', '--lr', type=float, default=1e-3, help="Współczynik uczenia (lr)", required=False)
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parser.add_argument('-e', '--epochs', type=int, default=100, help="Liczba epok", required=False)
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args = parser.parse_args()
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model.load_state_dict(checkpoint['model_state_dict'])
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lr = args.lr
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n_epochs = args.epochs
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mlflow.set_experiment("s426206")
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with mlflow.start_run():
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mlflow.log_param("lr", lr)
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mlflow.log_param("epochs", n_epochs)
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train_dataset = torch.load('train_dataset.pt')
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x_train = np.array(train_dataset)[:,0] #(Sales Sum row)
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input_example = np.reshape(x_train, (-1,1))
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train_dataset = torch.load('train_dataset.pt')
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#val_dataset = torch.load('val_dataset.pt')
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with torch.no_grad():
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model.eval()
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siganture = infer_signature(x_train, model(torch.tensor(np.reshape(x_train, (-1,1))).float()).numpy())
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train_loader = DataLoader(dataset=train_dataset)
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#val_loader = DataLoader(dataset=val_dataset)
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model = LayerLinearRegression()
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# Checks model's parameters
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#print(model.state_dict())
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loss_fn = nn.MSELoss(reduction='mean')
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optimizer = optim.SGD(model.parameters(), lr=lr)
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def make_train_step(model, loss_fn, optimizer):
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# Builds function that performs a step in the train loop
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def train_step(x, y):
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# Sets model to TRAIN mode
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model.train()
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# Makes predictions
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yhat = model(x)
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# Computes loss
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loss = loss_fn(y, yhat)
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# Computes gradients
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loss.backward()
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# Updates parameters and zeroes gradients
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optimizer.step()
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optimizer.zero_grad()
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# Returns the loss
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return loss.item()
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# Returns the function that will be called inside the train loop
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return train_step
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# Creates the train_step function for our model, loss function and optimizer
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train_step = make_train_step(model, loss_fn, optimizer)
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training_losses = []
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validation_losses = []
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#print(model.state_dict())
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# For each epoch...
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for epoch in range(n_epochs):
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losses = []
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# Uses loader to fetch one mini-batch for training
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for x_batch, y_batch in train_loader:
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# NOW, sends the mini-batch data to the device
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# so it matches location of the MODEL
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# x_batch = x_batch.to(device)
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# y_batch = y_batch.to(device)
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# One stpe of training
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loss = train_step(x_batch, y_batch)
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losses.append(loss)
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training_loss = np.mean(losses)
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training_losses.append(training_loss)
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mlflow.log_metric("MSE", training_loss)
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# After finishing training steps for all mini-batches,
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# it is time for evaluation!
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# Ewaluacja jest już tutaj nie potrzebna bo odbywa sie w evaluation.py. Można jednak włączyć podgląd ewaluacji dla poszczególnych epok.
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# # We tell PyTorch to NOT use autograd...
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# # Do you remember why?
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# with torch.no_grad():
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# val_losses = []
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# # Uses loader to fetch one mini-batch for validation
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# for x_val, y_val in val_loader:
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# # Again, sends data to same device as model
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# # x_val = x_val.to(device)
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# # y_val = y_val.to(device)
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# model.eval()
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# # Makes predictions
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# yhat = model(x_val)
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# # Computes validation loss
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# val_loss = loss_fn(y_val, yhat)
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# val_losses.append(val_loss.item())
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# validation_loss = np.mean(val_losses)
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# validation_losses.append(validation_loss)
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# print(f"[{epoch+1}] Training loss: {training_loss:.3f}\t Validation loss: {validation_loss:.3f}")
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print(f"[{epoch+1}] Training loss: {training_loss:.3f}\t")
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torch.save({
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'model_state_dict': model.state_dict(),
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'optimizer_state_dict': optimizer.state_dict(),
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'loss': lr,
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}, 'model.pt')
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x_train = np.array(train_dataset)[:,0] #(Sales Sum row)
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input_example = np.reshape(x_train, (-1,1))
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with torch.no_grad():
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model.eval()
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siganture = infer_signature(x_train, model(torch.tensor(np.reshape(x_train, (-1,1))).float()).numpy())
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#mlflow.set_experiment("s426206")
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mlflow.set_tracking_uri("http://172.17.0.1:5000")
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tracking_url_type_store = urlparse(mlflow.get_tracking_uri()).scheme
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# print(tracking_url_type_store)
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# Model registry does not work with file store
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if tracking_url_type_store != "file":
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mlflow.sklearn.log_model(model, "model", registered_model_name="s426206", signature=siganture, input_example=input_example)
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mlflow.pytorch.log_model(model, "model", registered_model_name="s426206", signature=siganture, input_example=input_example)
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else:
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mlflow.sklearn.log_model(model, "model", signature=siganture, input_example=input_example)
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mlflow.pytorch.log_model(model, "model", signature=siganture, input_example=input_example)
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mlflow.pytorch.save_model(model, "my_model", signature=siganture, input_example=input_example)
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#export MLFLOW_CONDA_HOME=/home/jan/miniconda3/
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#mlflow models serve -m my_model/
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mlflow.pytorch.log_model(model, "model", registered_model_name="s426206", signature=siganture, input_example=input_example)
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else:
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mlflow.pytorch.log_model(model, "model", signature=siganture, input_example=input_example)
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mlflow.pytorch.save_model(model, "my_model", signature=siganture, input_example=input_example)
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mlflow.pytorch.save_model(model, "my_model", signature=siganture, input_example=input_example)
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#export MLFLOW_CONDA_HOME=/home/jan/miniconda3/
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#mlflow models serve -m my_model/
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