Fits a generalized linear model, specified by a response variable, a set of predictors, and a description of the error distribution.
h2o.glm( x, y, training_frame, model_id = NULL, validation_frame = NULL, nfolds = 0, seed = -1, keep_cross_validation_models = TRUE, keep_cross_validation_predictions = FALSE, keep_cross_validation_fold_assignment = FALSE, fold_assignment = c("AUTO", "Random", "Modulo", "Stratified"), fold_column = NULL, random_columns = NULL, ignore_const_cols = TRUE, score_each_iteration = FALSE, score_iteration_interval = -1, offset_column = NULL, weights_column = NULL, family = c("AUTO", "gaussian", "binomial", "fractionalbinomial", "quasibinomial", "ordinal", "multinomial", "poisson", "gamma", "tweedie", "negativebinomial"), rand_family = c("[gaussian]"), tweedie_variance_power = 0, tweedie_link_power = 1, theta = 1e-10, solver = c("AUTO", "IRLSM", "L_BFGS", "COORDINATE_DESCENT_NAIVE", "COORDINATE_DESCENT", "GRADIENT_DESCENT_LH", "GRADIENT_DESCENT_SQERR"), alpha = NULL, lambda = NULL, lambda_search = FALSE, early_stopping = TRUE, nlambdas = -1, standardize = TRUE, missing_values_handling = c("MeanImputation", "Skip", "PlugValues"), plug_values = NULL, compute_p_values = FALSE, remove_collinear_columns = FALSE, intercept = TRUE, non_negative = FALSE, max_iterations = -1, objective_epsilon = -1, beta_epsilon = 1e-04, gradient_epsilon = -1, link = c("family_default", "identity", "logit", "log", "inverse", "tweedie", "ologit"), rand_link = c("[identity]", "[family_default]"), startval = NULL, calc_like = FALSE, HGLM = FALSE, prior = -1, cold_start = FALSE, lambda_min_ratio = -1, beta_constraints = NULL, max_active_predictors = -1, interactions = NULL, interaction_pairs = NULL, obj_reg = -1, export_checkpoints_dir = NULL, stopping_rounds = 0, stopping_metric = c("AUTO", "deviance", "logloss", "MSE", "RMSE", "MAE", "RMSLE", "AUC", "AUCPR", "lift_top_group", "misclassification", "mean_per_class_error", "custom", "custom_increasing"), stopping_tolerance = 0.001, balance_classes = FALSE, class_sampling_factors = NULL, max_after_balance_size = 5, max_runtime_secs = 0, custom_metric_func = NULL )
x | (Optional) A vector containing the names or indices of the predictor variables to use in building the model. If x is missing, then all columns except y are used. |
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y | The name or column index of the response variable in the data. The response must be either a numeric or a categorical/factor variable. If the response is numeric, then a regression model will be trained, otherwise it will train a classification model. |
training_frame | Id of the training data frame. |
model_id | Destination id for this model; auto-generated if not specified. |
validation_frame | Id of the validation data frame. |
nfolds | Number of folds for K-fold cross-validation (0 to disable or >= 2). Defaults to 0. |
seed | Seed for random numbers (affects certain parts of the algo that are stochastic and those might or might not be enabled by default). Defaults to -1 (time-based random number). |
keep_cross_validation_models |
|
keep_cross_validation_predictions |
|
keep_cross_validation_fold_assignment |
|
fold_assignment | Cross-validation fold assignment scheme, if fold_column is not specified. The 'Stratified' option will stratify the folds based on the response variable, for classification problems. Must be one of: "AUTO", "Random", "Modulo", "Stratified". Defaults to AUTO. |
fold_column | Column with cross-validation fold index assignment per observation. |
random_columns | random columns indices for HGLM. |
ignore_const_cols |
|
score_each_iteration |
|
score_iteration_interval | Perform scoring for every score_iteration_interval iterations Defaults to -1. |
offset_column | Offset column. This will be added to the combination of columns before applying the link function. |
weights_column | Column with observation weights. Giving some observation a weight of zero is equivalent to excluding it from the dataset; giving an observation a relative weight of 2 is equivalent to repeating that row twice. Negative weights are not allowed. Note: Weights are per-row observation weights and do not increase the size of the data frame. This is typically the number of times a row is repeated, but non-integer values are supported as well. During training, rows with higher weights matter more, due to the larger loss function pre-factor. |
family | Family. Use binomial for classification with logistic regression, others are for regression problems. Must be one of: "AUTO", "gaussian", "binomial", "fractionalbinomial", "quasibinomial", "ordinal", "multinomial", "poisson", "gamma", "tweedie", "negativebinomial". Defaults to AUTO. |
rand_family | Random Component Family array. One for each random component. Only support gaussian for now. Must be one of: "[gaussian]". |
tweedie_variance_power | Tweedie variance power Defaults to 0. |
tweedie_link_power | Tweedie link power Defaults to 1. |
theta | Theta Defaults to 1e-10. |
solver | AUTO will set the solver based on given data and the other parameters. IRLSM is fast on on problems with small number of predictors and for lambda-search with L1 penalty, L_BFGS scales better for datasets with many columns. Must be one of: "AUTO", "IRLSM", "L_BFGS", "COORDINATE_DESCENT_NAIVE", "COORDINATE_DESCENT", "GRADIENT_DESCENT_LH", "GRADIENT_DESCENT_SQERR". Defaults to AUTO. |
alpha | Distribution of regularization between the L1 (Lasso) and L2 (Ridge) penalties. A value of 1 for alpha represents Lasso regression, a value of 0 produces Ridge regression, and anything in between specifies the amount of mixing between the two. Default value of alpha is 0 when SOLVER = 'L-BFGS'; 0.5 otherwise. |
lambda | Regularization strength |
lambda_search |
|
early_stopping |
|
nlambdas | Number of lambdas to be used in a search. Default indicates: If alpha is zero, with lambda search set to True, the value of nlamdas is set to 30 (fewer lambdas are needed for ridge regression) otherwise it is set to 100. Defaults to -1. |
standardize |
|
missing_values_handling | Handling of missing values. Either MeanImputation, Skip or PlugValues. Must be one of: "MeanImputation", "Skip", "PlugValues". Defaults to MeanImputation. |
plug_values | Plug Values (a single row frame containing values that will be used to impute missing values of the training/validation frame, use with conjunction missing_values_handling = PlugValues) |
compute_p_values |
|
remove_collinear_columns |
|
intercept |
|
non_negative |
|
max_iterations | Maximum number of iterations Defaults to -1. |
objective_epsilon | Converge if objective value changes less than this. Default indicates: If lambda_search is set to True the value of objective_epsilon is set to .0001. If the lambda_search is set to False and lambda is equal to zero, the value of objective_epsilon is set to .000001, for any other value of lambda the default value of objective_epsilon is set to .0001. Defaults to -1. |
beta_epsilon | Converge if beta changes less (using L-infinity norm) than beta esilon, ONLY applies to IRLSM solver Defaults to 0.0001. |
gradient_epsilon | Converge if objective changes less (using L-infinity norm) than this, ONLY applies to L-BFGS solver. Default indicates: If lambda_search is set to False and lambda is equal to zero, the default value of gradient_epsilon is equal to .000001, otherwise the default value is .0001. If lambda_search is set to True, the conditional values above are 1E-8 and 1E-6 respectively. Defaults to -1. |
link | Link function. Must be one of: "family_default", "identity", "logit", "log", "inverse", "tweedie", "ologit". Defaults to family_default. |
rand_link | Link function array for random component in HGLM. Must be one of: "[identity]", "[family_default]". |
startval | double array to initialize fixed and random coefficients for HGLM, coefficients for GLM. |
calc_like |
|
HGLM |
|
prior | Prior probability for y==1. To be used only for logistic regression iff the data has been sampled and the mean of response does not reflect reality. Defaults to -1. |
cold_start |
|
lambda_min_ratio | Minimum lambda used in lambda search, specified as a ratio of lambda_max (the smallest lambda that drives all coefficients to zero). Default indicates: if the number of observations is greater than the number of variables, then lambda_min_ratio is set to 0.0001; if the number of observations is less than the number of variables, then lambda_min_ratio is set to 0.01. Defaults to -1. |
beta_constraints | Beta constraints |
max_active_predictors | Maximum number of active predictors during computation. Use as a stopping criterion to prevent expensive model building with many predictors. Default indicates: If the IRLSM solver is used, the value of max_active_predictors is set to 5000 otherwise it is set to 100000000. Defaults to -1. |
interactions | A list of predictor column indices to interact. All pairwise combinations will be computed for the list. |
interaction_pairs | A list of pairwise (first order) column interactions. |
obj_reg | Likelihood divider in objective value computation, default is 1/nobs Defaults to -1. |
export_checkpoints_dir | Automatically export generated models to this directory. |
stopping_rounds | Early stopping based on convergence of stopping_metric. Stop if simple moving average of length k of the stopping_metric does not improve for k:=stopping_rounds scoring events (0 to disable) Defaults to 0. |
stopping_metric | Metric to use for early stopping (AUTO: logloss for classification, deviance for regression and anonomaly_score for Isolation Forest). Note that custom and custom_increasing can only be used in GBM and DRF with the Python client. Must be one of: "AUTO", "deviance", "logloss", "MSE", "RMSE", "MAE", "RMSLE", "AUC", "AUCPR", "lift_top_group", "misclassification", "mean_per_class_error", "custom", "custom_increasing". Defaults to AUTO. |
stopping_tolerance | Relative tolerance for metric-based stopping criterion (stop if relative improvement is not at least this much) Defaults to 0.001. |
balance_classes |
|
class_sampling_factors | Desired over/under-sampling ratios per class (in lexicographic order). If not specified, sampling factors will be automatically computed to obtain class balance during training. Requires balance_classes. |
max_after_balance_size | Maximum relative size of the training data after balancing class counts (can be less than 1.0). Requires balance_classes. Defaults to 5.0. |
max_runtime_secs | Maximum allowed runtime in seconds for model training. Use 0 to disable. Defaults to 0. |
custom_metric_func | Reference to custom evaluation function, format: `language:keyName=funcName` |
A subclass of H2OModel
is returned. The specific subclass depends on the machine
learning task at hand (if it's binomial classification, then an H2OBinomialModel
is
returned, if it's regression then a H2ORegressionModel
is returned). The default print-
out of the models is shown, but further GLM-specifc information can be queried out of the object. To access
these various items, please refer to the seealso section below. Upon completion of the GLM, the resulting
object has coefficients, normalized coefficients, residual/null deviance, aic, and a host of model metrics
including MSE, AUC (for logistic regression), degrees of freedom, and confusion matrices. Please refer to the
more in-depth GLM documentation available here:
https://h2o-release.s3.amazonaws.com/h2o-dev/rel-shannon/2/docs-website/h2o-docs/index.html#Data+Science+Algorithms-GLM
predict.H2OModel
for prediction, h2o.mse
, h2o.auc
,
h2o.confusionMatrix
, h2o.performance
, h2o.giniCoef
,
h2o.logloss
, h2o.varimp
, h2o.scoreHistory
# NOT RUN { h2o.init() # Run GLM of CAPSULE ~ AGE + RACE + PSA + DCAPS prostate_path = system.file("extdata", "prostate.csv", package = "h2o") prostate = h2o.importFile(path = prostate_path) h2o.glm(y = "CAPSULE", x = c("AGE", "RACE", "PSA", "DCAPS"), training_frame = prostate, family = "binomial", nfolds = 0, alpha = 0.5, lambda_search = FALSE) # Run GLM of VOL ~ CAPSULE + AGE + RACE + PSA + GLEASON predictors = setdiff(colnames(prostate), c("ID", "DPROS", "DCAPS", "VOL")) h2o.glm(y = "VOL", x = predictors, training_frame = prostate, family = "gaussian", nfolds = 0, alpha = 0.1, lambda_search = FALSE) # GLM variable importance # Also see: # https://github.com/h2oai/h2o/blob/master/R/tests/testdir_demos/runit_demo_VI_all_algos.R bank = h2o.importFile( path="https://s3.amazonaws.com/h2o-public-test-data/smalldata/demos/bank-additional-full.csv" ) predictors = 1:20 target = "y" glm = h2o.glm(x = predictors, y = target, training_frame = bank, family = "binomial", standardize = TRUE, lambda_search = TRUE) h2o.std_coef_plot(glm, num_of_features = 20) # }