private static void MainMain() { var data = "Data"; var trainingPath = Path.Combine(data, "training.ratings"); var testingPath = Path.Combine(data, "test.ratings"); MfProblem training = IOHelper.LoadDataFromTextFile(trainingPath); MfProblem testing = IOHelper.LoadDataFromTextFile(testingPath); Console.WriteLine("Model training started."); var model = new MfTrainer(new ConsoleLogger()).Fit(training, testing, new MfTrainerOptions() { Verbose = true, LambdaRegularization = 0.2f, NumberOfThreads = 16, NumberOfIterations = 8 }); var predictor = new MfPredictor(model); Console.WriteLine("Prediction calculation started."); MfMetric metrics = predictor.Evaluate(testing); Console.WriteLine($"RMSE: {metrics.RootMeanSquaredError}"); Console.WriteLine($"RSquared: {metrics.RSquared}"); Console.WriteLine("Press any key to close.."); Console.ReadKey(); }
private static int RunTrain(TrainOptions opts) { var trainingPath = opts.Input; var testingPath = opts.Test; string resultFileName = Path.Combine(opts.Output, "ml.result"); MfProblem training = IOHelper.LoadDataFromTextFile(trainingPath); MfProblem testing = !string.IsNullOrEmpty(testingPath) ? IOHelper.LoadDataFromTextFile(testingPath) : null; MfModel model = new MfTrainer().Fit(training, testing, new MfTrainerOptions() { NumberOfThreads = opts.Threads, ApproximationRank = opts.Factors, Eps = opts.Eps, LambdaRegularization = opts.Lambda, NonNegativeMatrixFactorization = opts.NonNegativeMatrixFactorization, NumberOfIterations = opts.NumberOfIterations, Verbose = opts.Verbose }); var predictor = new MfPredictor(model); model.SaveModelToFile(resultFileName); if (testing != null) { MfMetric metrics = predictor.Evaluate(testing); Console.WriteLine($"RMSE: {metrics.RootMeanSquaredError}"); } return(0); }