glmnet_1.2 has been uploaded to CRAN.
This is a major upgrade, with the following additional features:
* poisson family, with dense or sparse x
* Cox proportional hazards family, for dense x
* wide range of cross-validation features. All models have several criteria for
cross-validation.
These include deviance, mean absolute error, misclassification error and
"auc" for logistic or multinomial models.
Observation weights are incorporated.
* offset is allowed in fitting the model
Here is the description of the package.
glmnet is a package that fits the regularization path for linear, two- and
multi-class logistic regression
models, poisson regression and the Cox model, with "elastic net"
regularization (tunable mixture of L1 and L2 penalties).
glmnet uses pathwise coordinate descent, and is very fast.
Some of the features of glmnet:
* by default it computes the path at 100 uniformly spaced (on the log scale)
values of the regularization parameter
* glmnet appears to be faster than any of the packages that are freely
available, in some cases by two orders of magnitude.
* recognizes and exploits sparse input matrices (ala Matrix package).
Coefficient matrices are output in sparse matrix representation.
* penalty is (1-a)*||\beta||_2^2 +a*||beta||_1 where a is between 0 and 1; a=0
is the Lasso penalty, a=1 is the ridge penalty.
For many correlated predictors, a=.95 or thereabouts improves the performance
of the lasso.
* convenient predict, plot, print, and coef methods
* variable-wise penalty modulation allows each variable to be penalized by a
scalable amount; if zero that variable always enters
* glmnet uses a symmetric parametrization for multinomial, with constraints
enforced by the penalization.
* a comprehensive set of cross-validation routines are provided for all models
and several error measures
* offsets and weights can be provided for all models
Examples of glmnet speed trials:
Newsgroup data: N=11,000, p= 0.75 Million, two class logistic. 100 values along
lasso path. Time = 2mins
14 Class cancer data: N=144, p=16K, 14 class multinomial, 100 values along lasso
path. Time = 30secs
Authors: Jerome Friedman, Trevor Hastie, Rob Tibshirani.
See our paper http://www-stat.stanford.edu/~hastie/Papers/glmnet.pdf for
implementation details,
and comparisons with other related software.
-------------------------------------------------------------------
Trevor Hastie hastie at stanford.edu
Professor, Department of Statistics, Stanford University
Phone: (650) 725-2231 (Statistics) Fax: (650) 725-8977
(650) 498-5233 (Biostatistics) Fax: (650) 725-6951
URL: http://www-stat.stanford.edu/~hastie
address: room 104, Department of Statistics, Sequoia Hall
390 Serra Mall, Stanford University, CA 94305-4065
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