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Download Svm Package In R

Rgtsvm

The e1071 compatibility SVM package for GPU architecture based on the GTSVM software.

Vignette (https://github.com/Danko-Lab/Rgtsvm/blob/master/Rgtsvm-vignette.pdf).

Intoduction:

SVM is a popular and powerful machine learning method for classification, regression, and other learning tasks. In the R community, many users use the e1071 package, which offers an interface to the C++ implementation of libsvm, featuring with C classification, epsilon regression, one class classification, eregression, v regression, cross validation, parameter tuning and four kernels (linear, polynomial, radial basis function, and sigmoidal kernels formula). Although this implementation is widely used, it is not sufficiently fast to handle largescale classification or regression tasks.

To improve the performance, we have recently implemented SVMs on a graphical processing unit (GPU). GPUs are a massively parallel execution environment that provide many advantages when computing SVMs:

1st: a large number of independent threads build a highly parallel and fast computational engine;

2nd: using GPU Basic Linear Algebra Subroutines (CUBLAS) instead of conventional Intel Math Kernel Library (MKL) can speed up the application 3 to 5 times;

3rd: kernel functions called for the huge samples will be more efficient on SIMD (Single Instruction Multiple Data) computer.

GPU tools dedicated to SVMs have recently been developed and provide command line interface and binary classification, which functions are comparable to the e1071 package. Among these SVM programs, GT SVM ( Cotter, Srebro, and Keshet 2011) takes full advantage of GPU architecture and efficiently handles sparse datasets through the use of a clustering technique. GT SVM is also implemented in C/C++ and provides simple functions that can make use of the package as a library. To enable the use of GT SVM without expertise in C/ C++, we implemented an R interface to GT SVM that combines the easeofuse of e1071 and the speed of the GT SVM GPU implementation. Our implementation consists of the following:

  1. an R wrapper for GT SVM,
  1. matching the SVM interface in the e1071 package so that R written around each implementation is exchangeable,
  1. adding or altering some features in R code, such as cross-validation which is implemented in C/C++ in e1071 and has not been implemented in GT SVM.
  1. Supporting prediction using multiple GPU cards on single host for further speedup computation.

Functions:

Firstly our implementation is encapsulated in one R package which is backwardscompatible with the e1071 implementation.

The package has the following features:

  1. Binary classification, multiclass classification and epsilon regression
  1. 4 kernel functions (linear, polynomial, radial basis function and sigmoidal kernel)
  1. K-fold cross validation
  1. Tuning parameters in kernel function or in SVM primary space or dual space (C, e).
  1. Big matrix used in training or predicting data
  1. Altering cost values for minor class or major class.

Usage instructions

Rgtsvm implement the following functions on GPU package(GTSVM)

svm: a function to train a support vector machine by the C-classfication method and epsilon regression on GPU

predict: a function to predict values based upon a model trained by svm in package Rgtsvm

tune: a function to tune hyperparameters of statistical methods using a grid search over supplied parameter ranges

plot.tune: visualizes the results of parameter tuning

load.svmlight: a function to load SVMlight data file into a sparse matrix

Please check the details in the manual (https://github.com/Danko-Lab/Rgtsvm/blob/master/Rgtsvm-manual.pdf) or the vignette (https://github.com/Danko-Lab/Rgtsvm/blob/master/Rgtsvm-vignette.pdf).

To use Rgtsvm, type:

              > library(Rgtsvm);  > ?svm  > model <- svm(Species ~ ., data = iris);                          

Performance

Image of comparison with e1071 and Rgtsvm

Image of comparison with e1071 and Rgtsvm

Installation Instructions:

Rgtsvm is only available for the Linux and Mac OSX. The source code can be downloaded from this repository (https://github.com/Danko-Lab/Rgtsvm.git).

Required software and packages

  1. R (http://www.r-project.org/)

  2. CUDA library (https://developer.nvidia.com/cuda-toolkit-archive).

  3. Boost library (http://www.boost.org/users/download/)

  4. Extra R Package: bit64, snow, SparseM, Matrix

Install Rgtsvm

Please install the required R package before you install Rgtsvm package. After the installation of bit64, snow, SparseM and Matrix package, please install the Rgtsvm as following steps.

                              # Set $YOUR_CUDA_HOME and $YOUR_BOOST_HOME before installation  $ git clone https://github.com/Danko-Lab/Rgtsvm.git  $ cd Rgtsvm  $ make R_dependencies  $ R CMD INSTALL --configure-args="--with-cuda-home=$YOUR_CUDA_HOME --with-boost-home=$YOUR_BOOST_HOME" Rgtsvm                          

If you have installed the pakacge devtools, you can try these commands in R console:

              > library(devtools) > install_github("Danko-lab/Rgtsvm/Rgtsvm", args="--configure-args='--with-cuda-home=YOUR_CUDA_PATH --with-boost-home=YOU_BOOST_PATH'" )                          

Please check the vignette (https://github.com/Danko-Lab/Rgtsvm/blob/master/Rgtsvm-vignette.pdf) to see more details.

Specify CUDA arch on CUDA 7 and later

If you get the following errors for a simple training example, maybe you need to conside the NVIDIA GPU type when you install Rgtsvm.

              > library(Rgtsvm) > svm_iris<- Rgtsvm::svm(Species ~ ., data=iris)  Error: SparseKernelFindLargestScore: did not find the desired number of maxima[1]  Error in gtsvmtrain.classfication.call(y, x, param, verbose = verbose) : Error in GPU process.                          

CUDA 7.0 and later supports multiple NVIDIA GPU architectures that the CUDA files will be compiled for. http://arnon.dk/matching-sm-architectures-arch-and-gencode-for-various-nvidia-cards/

As described in above link, you should select one architecture type, such as sm_50 for TitanX or sm_60 for P100, sm_35 for Tesla K40. And then set the architecture in your install command using the option --with-cuda-arch.

              > library(devtools) > install_github("Danko-lab/Rgtsvm/Rgtsvm", args="--configure-args='--with-cuda-arch=sm_35 --with-cuda-home=YOUR_CUDA_PATH --with-boost-home=YOU_BOOST_PATH'" )                          

Or

                              R CMD INSTALL --configure-args="-with-cuda-arch=sm_35 --with-cuda-home=YOUR_CUDA_PATH --with-boost-home=YOU_BOOST_PATH" Rgtsvm                          

Installation Example

Installation instructions on stampede.tacc.xsede.org

              module load gcc/4.7.1 module load cuda module load boost/1.55.0  R CMD INSTALL --configure-args="--with-cuda-home=/opt/apps/cuda/6.5 --with-boost-home=/opt/apps/gcc4_7/boost/1.55.0" Rgtsvm                          

Installation instructions on supermic.cct-lsu.xsede.org

              module load r module load cuda/6.5 R CMD INSTALL --configure-args="--with-cuda-home=/usr/local/packages/cuda/6.5 --with-boost-home=/usr/local/packages/boost/1.55.0/INTEL-14.0.2-python-2.7.7-anaconda" Rgtsvm                          

License (GPLv3)

Copyright(c) 2017 Zhong Wang

This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or any later version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/.

How to cite

Wang, Z., Chu, T., Choate, L. A., & Danko, C. G. (2017). Rgtsvm: Support Vector Machines on a GPU in R. arXiv preprint arXiv:1706.05544.

Source: https://github.com/Danko-Lab/Rgtsvm

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