View source: R/AutoCatBoostRegression.R
AutoCatBoostRegression | R Documentation |
AutoCatBoostRegression is an automated modeling function that runs a variety of steps. First, the function will run a random grid tune over N number of models and find which model is the best (a default model is always included in that set). Once the model is identified and built, several other outputs are generated: validation data with predictions, evaluation plot, evaluation boxplot, evaluation metrics, variable importance, partial dependence calibration plots, partial dependence calibration box plots, and column names used in model fitting. You can download the catboost package using devtools, via: devtools::install_github('catboost/catboost', subdir = 'catboost/R-package')
AutoCatBoostRegression(
OutputSelection = c("Importances", "EvalPlots", "EvalMetrics", "Score_TrainData"),
ReturnShap = TRUE,
data = NULL,
ValidationData = NULL,
TestData = NULL,
TargetColumnName = NULL,
FeatureColNames = NULL,
PrimaryDateColumn = NULL,
WeightsColumnName = NULL,
IDcols = NULL,
EncodeMethod = "credibility",
TransformNumericColumns = NULL,
Methods = c("BoxCox", "Asinh", "Log", "LogPlus1", "Sqrt", "Asin", "Logit"),
TrainOnFull = FALSE,
task_type = "GPU",
NumGPUs = 1,
DebugMode = FALSE,
ReturnModelObjects = TRUE,
SaveModelObjects = FALSE,
ModelID = "FirstModel",
model_path = NULL,
metadata_path = NULL,
SaveInfoToPDF = FALSE,
eval_metric = "RMSE",
eval_metric_value = 1.5,
loss_function = "RMSE",
loss_function_value = 1.5,
grid_eval_metric = "r2",
NumOfParDepPlots = 0L,
PassInGrid = NULL,
GridTune = FALSE,
MaxModelsInGrid = 30L,
MaxRunsWithoutNewWinner = 20L,
MaxRunMinutes = 24L * 60L,
BaselineComparison = "default",
MetricPeriods = 10L,
Trees = 500L,
Depth = 9,
L2_Leaf_Reg = 3,
RandomStrength = 1,
BorderCount = 254,
LearningRate = NULL,
RSM = 1,
BootStrapType = NULL,
GrowPolicy = "SymmetricTree",
langevin = FALSE,
diffusion_temperature = 10000,
model_size_reg = 0.5,
feature_border_type = "GreedyLogSum",
sampling_unit = "Object",
subsample = NULL,
score_function = "Cosine",
min_data_in_leaf = 1
)
OutputSelection |
You can select what type of output you want returned. Choose from c('Importances', 'EvalPlots', 'EvalMetrics', 'Score_TrainData') |
ReturnShap |
TRUE. Set to FALSE to not generate shap values. |
data |
This is your data set for training and testing your model |
ValidationData |
This is your holdout data set used in modeling either refine your hyperparameters. Catboost using both training and validation data in the training process so you should evaluate out of sample performance with this data set. |
TestData |
This is your holdout data set. Catboost using both training and validation data in the training process so you should evaluate out of sample performance with this data set. |
TargetColumnName |
Either supply the target column name OR the column number where the target is located (but not mixed types). |
FeatureColNames |
Either supply the feature column names OR the column number where the target is located (but not mixed types) |
PrimaryDateColumn |
Supply a date or datetime column for catboost to utilize time as its basis for handling categorical features, instead of random shuffling |
WeightsColumnName |
Supply a column name for your weights column. Leave NULL otherwise |
IDcols |
A vector of column names or column numbers to keep in your data but not include in the modeling. |
EncodeMethod |
'binary', 'm_estimator', 'credibility', 'woe', 'target_encoding', 'poly_encode', 'backward_difference', 'helmert' |
TransformNumericColumns |
Set to NULL to do nothing; otherwise supply the column names of numeric variables you want transformed |
Methods |
Choose from 'YeoJohnson', 'BoxCox', 'Asinh', 'Log', 'LogPlus1', 'Sqrt', 'Asin', or 'Logit'. If more than one is selected, the one with the best normalization pearson statistic will be used. Identity is automatically selected and compared. |
TrainOnFull |
Set to TRUE to train on full data and skip over evaluation steps |
task_type |
Set to 'GPU' to utilize your GPU for training. Default is 'CPU'. |
NumGPUs |
Set to 1, 2, 3, etc. |
DebugMode |
Set to TRUE to get a printout of which step the function is on. FALSE, otherwise |
ReturnModelObjects |
Set to TRUE to output all modeling objects (E.g. plots and evaluation metrics) |
SaveModelObjects |
Set to TRUE to return all modeling objects to your environment |
ModelID |
A character string to name your model and output |
model_path |
A character string of your path file to where you want your output saved |
metadata_path |
A character string of your path file to where you want your model evaluation output saved. If left NULL, all output will be saved to model_path. |
SaveInfoToPDF |
Set to TRUE to save modeling information to PDF. If model_path or metadata_path aren't defined then output will be saved to the working directory |
eval_metric |
Select from 'RMSE', 'MAE', 'MAPE', 'R2', 'Poisson', 'MedianAbsoluteError', 'SMAPE', 'MSLE', 'NumErrors', 'FairLoss', 'Tweedie', 'Huber', 'LogLinQuantile', 'Quantile', 'Lq', 'Expectile', 'MultiRMSE' |
eval_metric_value |
Used with the specified eval_metric. See https://catboost.ai/docs/concepts/loss-functions-regression.html |
loss_function |
Used in model training for model fitting. 'MAPE', 'MAE', 'RMSE', 'Poisson', 'Tweedie', 'Huber', 'LogLinQuantile', 'Quantile', 'Lq', 'Expectile', 'MultiRMSE' |
loss_function_value |
Used with the specified loss function if an associated value is required. 'Tweedie', 'Huber', 'LogLinQuantile', 'Quantile' 'Lq', 'Expectile'. See https://catboost.ai/docs/concepts/loss-functions-regression.html |
grid_eval_metric |
Choose from 'mae', 'mape', 'rmse', 'r2'. Case sensitive |
NumOfParDepPlots |
Tell the function the number of partial dependence calibration plots you want to create. Calibration boxplots will only be created for numerical features (not dummy variables) |
PassInGrid |
Defaults to NULL. Pass in a single row of grid from a previous output as a data.table (they are collected as data.tables) |
GridTune |
Set to TRUE to run a grid tuning procedure. Set a number in MaxModelsInGrid to tell the procedure how many models you want to test. |
MaxModelsInGrid |
Number of models to test from grid options |
MaxRunsWithoutNewWinner |
Number of models built before calling it quits |
MaxRunMinutes |
Maximum number of minutes to let this run |
BaselineComparison |
Set to either 'default' or 'best'. Default is to compare each successive model build to the baseline model using max trees (from function args). Best makes the comparison to the current best model. |
MetricPeriods |
Number of periods to use between Catboost evaluations |
Trees |
Standard + Grid Tuning. Bandit grid partitioned. The maximum number of trees you want in your models |
Depth |
Standard + Grid Tuning. Bandit grid partitioned. Number, or vector for depth to test. For running grid tuning, a NULL value supplied will mean these values are tested seq(4L, 16L, 2L) |
L2_Leaf_Reg |
Standard + Grid Tuning. Random testing. Supply a single value for non-grid tuning cases. Otherwise, supply a vector for the L2_Leaf_Reg values to test. For running grid tuning, a NULL value supplied will mean these values are tested seq(1.0, 10.0, 1.0) |
RandomStrength |
Standard + Grid Tuning. A multiplier of randomness added to split evaluations. Default value is 1 which adds no randomness. |
BorderCount |
Standard + Grid Tuning. Number of splits for numerical features. Catboost defaults to 254 for CPU and 128 for GPU |
LearningRate |
Standard + Grid Tuning. Default varies if RMSE, MultiClass, or Logloss is utilized. Otherwise default is 0.03. Bandit grid partitioned. Supply a single value for non-grid tuning cases. Otherwise, supply a vector for the LearningRate values to test. For running grid tuning, a NULL value supplied will mean these values are tested c(0.01,0.02,0.03,0.04) |
RSM |
CPU only. Standard + Grid Tuning. If GPU is set, this is turned off. Random testing. Supply a single value for non-grid tuning cases. Otherwise, supply a vector for the RSM values to test. For running grid tuning, a NULL value supplied will mean these values are tested c(0.80, 0.85, 0.90, 0.95, 1.0) |
BootStrapType |
Standard + Grid Tuning. NULL value to default to catboost default (Bayesian for GPU and MVS for CPU). Random testing. Supply a single value for non-grid tuning cases. Otherwise, supply a vector for the BootStrapType values to test. For running grid tuning, a NULL value supplied will mean these values are tested c('Bayesian', 'Bernoulli', 'Poisson', 'MVS', 'No') |
GrowPolicy |
Standard + Grid Tuning. Catboost default of SymmetricTree. Random testing. Default 'SymmetricTree', character, or vector for GrowPolicy to test. For grid tuning, supply a vector of values. For running grid tuning, a NULL value supplied will mean these values are tested c('SymmetricTree', 'Depthwise', 'Lossguide') |
langevin |
Set to TRUE to enable |
diffusion_temperature |
Defaults to 10000 |
model_size_reg |
Defaults to 0.5. Set to 0 to allow for bigger models. This is for models with high cardinality categorical features. Valuues greater than 0 will shrink the model and quality will decline but models won't be huge. |
feature_border_type |
Defaults to 'GreedyLogSum'. Other options include: Median, Uniform, UniformAndQuantiles, MaxLogSum, MinEntropy |
sampling_unit |
Default is Group. Other option is Object. if GPU is selected, this will be turned off unless the loss_function is YetiRankPairWise |
subsample |
Default is NULL. Catboost will turn this into 0.66 for BootStrapTypes Poisson and Bernoulli. 0.80 for MVS. Doesn't apply to others. |
score_function |
Default is Cosine. CPU options are Cosine and L2. GPU options are Cosine, L2, NewtonL2, and NewtomCosine (not available for Lossguide) |
min_data_in_leaf |
Default is 1. Cannot be used with SymmetricTree is GrowPolicy |
Saves to file and returned in list: VariableImportance.csv, Model, ValidationData.csv, EvalutionPlot.png, EvalutionBoxPlot.png, EvaluationMetrics.csv, ParDepPlots.R a named list of features with partial dependence calibration plots, ParDepBoxPlots.R, GridCollect, catboostgrid, and a transformation details file.
Adrian Antico
Other Automated Supervised Learning - Regression:
AutoH2oDRFRegression()
,
AutoH2oGAMRegression()
,
AutoH2oGBMRegression()
,
AutoH2oGLMRegression()
,
AutoH2oMLRegression()
,
AutoLightGBMRegression()
,
AutoXGBoostRegression()
## Not run:
# Create some dummy correlated data
data <- AutoQuant::FakeDataGenerator(
Correlation = 0.85,
N = 10000,
ID = 2,
ZIP = 0,
AddDate = FALSE,
Classification = FALSE,
MultiClass = FALSE)
# Run function
TestModel <- AutoQuant::AutoCatBoostRegression(
# GPU or CPU and the number of available GPUs
TrainOnFull = FALSE,
task_type = 'GPU',
NumGPUs = 1,
DebugMode = FALSE,
# Metadata args
OutputSelection = c('Importances', 'EvalPlots', 'EvalMetrics', 'Score_TrainData'),
ModelID = 'Test_Model_1',
model_path = normalizePath('./'),
metadata_path = normalizePath('./'),
SaveModelObjects = FALSE,
SaveInfoToPDF = FALSE,
ReturnModelObjects = TRUE,
# Data args
data = data,
ValidationData = NULL,
TestData = NULL,
TargetColumnName = 'Adrian',
FeatureColNames = names(data)[!names(data) %in%
c('IDcol_1', 'IDcol_2','Adrian')],
PrimaryDateColumn = NULL,
WeightsColumnName = NULL,
IDcols = c('IDcol_1','IDcol_2'),
EncodeMethod = 'credibility',
TransformNumericColumns = 'Adrian',
Methods = c('BoxCox', 'Asinh', 'Asin', 'Log',
'LogPlus1', 'Sqrt', 'Logit'),
# Model evaluation
eval_metric = 'RMSE',
eval_metric_value = 1.5,
loss_function = 'RMSE',
loss_function_value = 1.5,
MetricPeriods = 10L,
NumOfParDepPlots = ncol(data)-1L-2L,
# Grid tuning args
PassInGrid = NULL,
GridTune = FALSE,
MaxModelsInGrid = 30L,
MaxRunsWithoutNewWinner = 20L,
MaxRunMinutes = 60*60,
BaselineComparison = 'default',
# ML args
langevin = FALSE,
diffusion_temperature = 10000,
Trees = 1000,
Depth = 9,
L2_Leaf_Reg = NULL,
RandomStrength = 1,
BorderCount = 128,
LearningRate = NULL,
RSM = 1,
BootStrapType = NULL,
GrowPolicy = 'SymmetricTree',
model_size_reg = 0.5,
feature_border_type = 'GreedyLogSum',
sampling_unit = 'Object',
subsample = NULL,
score_function = 'Cosine',
min_data_in_leaf = 1)
## End(Not run)
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