name | topic | maintainer | version | source | |
---|---|---|---|---|---|
HighPerformanceComputing |
High-Performance and Parallel Computing with R |
Dirk Eddelbuettel |
Dirk.Eddelbuettel@R-project.org |
2024-11-24 |
This CRAN Task View contains a list of packages, grouped by topic, that are useful for high-performance computing (HPC) with R. In this context, we are defining 'high-performance computing' rather loosely as just about anything related to pushing R a little further: using compiled code, parallel computing (in both explicit and implicit modes), working with large objects as well as profiling.
Unless otherwise mentioned, all packages presented with hyperlinks are available from the Comprehensive R Archive Network (CRAN).
Several of the areas discussed in this Task View are undergoing rapid change. Please send suggestions for additions and extensions for this task view via e-mail to the maintainer or submit an issue or pull request in the GitHub repository linked above. See the Contributing page in the CRAN Task Views repo for details.
Suggestions and corrections by Achim Zeileis, Markus Schmidberger, Martin Morgan, Max Kuhn, Tomas Radivoyevitch, Jochen Knaus, Tobias Verbeke, Hao Yu, David Rosenberg, Marco Enea, Ivo Welch, Jay Emerson, Wei-Chen Chen, Bill Cleveland, Ross Boylan, Ramon Diaz-Uriarte, Mark Zeligman, Kevin Ushey, Graham Jeffries, Will Landau, Tim Flutre, Reza Mohammadi, Ralf Stubner, Bob Jansen, Matt Fidler, Brent Brewington and Ben Bolder (as well as others I may have forgotten to add here) are gratefully acknowledged.
The ctv
package supports these Task Views. Its functions install.views
and update.views
allow,
respectively, installation or update of packages from a given Task View; the option coreOnly
can
restrict operations to packages labeled as core below.
Direct support in R started with release 2.14.0 which includes a new package parallel
incorporating (slightly revised) copies of packages multicore and r pkg("snow", priority = "core")
. Some types of clusters are not handled directly by the base package 'parallel'. However,
and as explained in the package vignette, the parts of parallel which provide r pkg("snow")
-like
functions will accept r pkg("snow")
clusters including MPI clusters. Use vignette("parallel", package="parallel")
to view the package vignette. The parallel package also contains support
for multiple RNG streams following L'Ecuyer et al (2002), with support for both mclapply and snow
clusters.\ The version released for R 2.14.0 contains base functionality: higher-level convenience
functions are planned for later R releases.
- Several packages provide the communications layer required for parallel computing. The first package in this area was rpvm by Li and Rossini which uses the PVM (Parallel Virtual Machine) standard and libraries. rpvm is no longer actively maintained, but available from its CRAN archive directory.
- In recent years, the alternative MPI (Message Passing Interface) standard has become the de
facto standard in parallel computing. It is supported in R via the
r pkg("Rmpi", priority = "core")
by Yu.r pkg("Rmpi")
package is mature yet actively maintained and offers access to numerous functions from the MPI API, as well as a number of R-specific extensions.r pkg("Rmpi")
can be used with the LAM/MPI, MPICH / MPICH2, Open MPI, and Deino MPI implementations. It should be noted that LAM/MPI is now in maintenance mode, and new development is focused on Open MPI. - The
r pkg("pbdMPI")
package provides S4 classes to directly interface MPI in order to support the Single Program/Multiple Data (SPMD) parallel programming style which is particularly useful for batch parallel execution. - The
r pkg("snow")
(Simple Network of Workstations) package by Tierney et al. can use PVM, MPI, NWS as well as direct networking sockets. It provides an abstraction layer by hiding the communications details. Ther pkg("snowFT")
package provides fault-tolerance extensions tor pkg("snow")
. - The
r pkg("snowfall")
package by Knaus provides a more recent alternative tor pkg("snow")
. Functions can be used in sequential or parallel mode. - The
r pkg("parallelly")
package enhances the parallel package by giving additional control over launch and set-up of parallel workers. - The
r pkg("foreach")
package allows general iteration over elements in a collection without the use of an explicit loop counter. Using foreach without side effects also facilitates executing the loop in parallel which is possible via ther pkg("doMC")
(using parallel/multicore on single workstations),r pkg("doSNOW")
(usingr pkg("snow")
, see above),r pkg("doMPI")
(usingr pkg("Rmpi")
) packages, andr pkg("doFuture")
(usingr pkg("future")
) packages. - The
r pkg("future")
package allows for synchronous (sequential) and asynchronous (parallel) evaluations via abstraction of futures, either via function calls or implicitly via promises. Global variables are automatically identified. Iteration over elements in a collection is supported. Parallel map-reduce calls via the future framework are provided by packagesr pkg("future.apply")
for parallel versions of base-R apply functions, andr pkg("furrr")
for parallel versions of purrr fuctions. Parallelization is available through the parallel package,r pkg("future.callr")
via the callr package, andr pkg("future.batchtools")
via the batchtools package. - The
r pkg("Rborist")
package employs OpenMP pragmas to exploit predictor-level parallelism in the Random Forest algorithm which promotes efficient use of multicore hardware in restaging data and in determining splitting criteria, both of which are performance bottlenecks in the algorithm. - The
r pkg("h2o")
package connects to the h2o open source machine learning environment which has scalable implementations of random forests, GBM, GLM (with elastic net regularization), and deep learning. - The
r pkg("randomForestSRC")
package can use both OpenMP as well as MPI for random forest extensions suitable for survival analysis, competing risks analysis, classification as well as regression - The
r pkg("parSim")
package can perform simulation studies using one or multiple cores, both locally and on HPC clusters. - The
r pkg("qsub")
package can submit commands to run on gridengine clusters. - The
r pkg("mirai")
package is a minimalist framework for local or distributed asynchronous code evaluation, implementing futures which automatically resolve upon completion, built on the high-performancer pkg("nanonext")
NNG C messaging library binding. Ther pkg("crew")
package extendsr pkg("mirai")
with auto-scaling, a central manager, and plugin system for diverse platforms and services. - The
r pkg("condor")
package can interact with Condor HPC installations viassh
to transfer files and access remote compute jobs.
- The pnmath package by Tierney ( link ) uses the OpenMP parallel processing directives of recent compilers (such gcc 4.2 or later) for implicit parallelism by replacing a number of internal R functions with replacements that can make use of multiple cores --- without any explicit requests from the user. The alternate pnmath0 package offers the same functionality using Pthreads for environments in which the newer compilers are not available. Similar functionality is expected to become integrated into R 'eventually'.
- The romp package by Jamitzky was presented at useR! 2008 (
slides ) and offers another
interface to OpenMP using Fortran. The code is still pre-alpha and available from the Google
Code project
r gcode("romp")
. An R-Forge projectr rforge("romp")
was initiated but there is no package, yet.
- The
r pkg("RhpcBLASctl")
package detects the number of available BLAS cores, and permits explicit selection of the number of cores. - The
r pkg("targets")
package and its predecessorr pkg("drake")
are R-focused pipeline toolkits similar to Make . Each constructs a directed acyclic graph representation of the workflow and orchestrates distributed computing acrossfuture
workers. - The
r pkg("flexiblas")
package manages BLAS/LAPACK libraries by loading and possibly switching them if FlexiBLAS ( link ) is used.
- The multiR package by Grose was presented at useR! 2008 but has not been released. It may offer a snow-style framework on a grid computing platform.
- The
r rforge("biocep-distrib")
project by Chine offers a Java-based framework for local, Grid, or Cloud computing. It is under active development.
- The
r github("saptarshiguha/RHIPE")
package, started by Saptarshi Guha, provides an interface between R and Hadoop for analysis of large complex data wholly from within R using the Divide and Recombine approach to big data. - The rmr package by Revolution Analytics also provides an interface between R and Hadoop for a Map/Reduce programming framework. ( link )
- A related package, segue package by Long, permits easy execution of embarassingly parallel task on Elastic Map Reduce (EMR) at Amazon. ( link )
- The
r pkg("RProtoBuf")
package provides an interface to Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data. This package can be used in R code to read data streams from other systems in a distributed MapReduce setting where data is serialized and passed back and forth between tasks.
- Random-number generators for parallel computing are available via the
r pkg("rlecuyer")
package, ther pkg("rstream")
package, ther pkg("sitmo")
package as well as ther pkg("dqrng")
package. - The
r pkg("doRNG")
package provides functions to perform reproducible parallel foreach loops, using independent random streams as generated by the package rstream, suitable for the different foreach backends.
- Job-scheduling toolkits permit management of parallel computing resources and tasks. The slurm
(Simple Linux Utility for Resource Management) set of programs works well with MPI and slurm
jobs can be submitted from R using the
r pkg("rslurm")
package. ( link ) - The Condor toolkit ( link ) from the University of Wisconsin-Madison has been used with R as described in this R News article .
- The sfCluster package by Knaus can be used with
r pkg("snowfall")
. ( link ) but is currently limited to LAM/MPI. - The
r pkg("batch")
package by Hoffmann can launch parallel computing requests onto a cluster and gather results. - The
r pkg("BatchJobs")
package provides Map, Reduce and Filter variants to manage R jobs and their results on batch computing systems like PBS/Torque, LSF and Sun Grid Engine. Multicore and SSH systems are also supported. Ther pkg("BatchExperiments")
package extends it with an abstraction layer for running statistical experiments. Packager pkg("batchtools")
is a successor / extension to both.
- The
r pkg("clustermq")
package sends function calls as jobs on LSF, SGE and SLURM via a single line of code without using network-mounted storage. It also supports use of remote clusters via SSH.
- The
r pkg("caret")
package by Kuhn can use various frameworks (MPI, NWS etc) to parallelized cross-validation and bootstrap characterizations of predictive models. - The
r bioc("maanova")
package on Bioconductor by Wu can user pkg("snow")
andr pkg("Rmpi")
for the analysis of micro-array experiments. - The
r pkg("pvclust")
package by Suzuki and Shimodaira can user pkg("snow")
andr pkg("Rmpi")
for hierarchical clustering via multiscale bootstraps. - The
r pkg("tm")
package by Feinerer can user pkg("snow")
andr pkg("Rmpi")
for parallelized text mining. - The
r pkg("varSelRF")
package by Diaz-Uriarte can user pkg("snow")
andr pkg("Rmpi")
for parallelized use of variable selection via random forests.
- The
r bioc("multtest")
package by Pollard et al. on Bioconductor can user pkg("snow")
,r pkg("Rmpi")
or rpvm for resampling-based testing of multiple hypothesis. - The
r pkg("Matching")
package by Sekhon for multivariate and propensity score matching, ther pkg("bnlearn")
package by Scutari for bayesian network structure learning, ther pkg("latentnet")
package by Krivitsky and Handcock for latent position and cluster models, ther pkg("peperr")
package by Porzelius and Binder for parallelised estimation of prediction error, ther pkg("orloca")
package by Fernandez-Palacin and Munoz-Marquez for operations research locational analysis, ther pkg("rgenoud")
package by Mebane and Sekhon for genetic optimization using derivatives, ther bioc("affyPara")
package by Schmidberger, Vicedo and Mansmann for parallel normalization of Affymetrix microarrays, and ther bioc("puma")
package by Pearson et al. which propagates uncertainty into standard microarray analyses such as differential expression all can user pkg("snow")
for parallelized operations using either one of the MPI, PVM, NWS or socket protocols supported byr pkg("snow")
. - The
r gcode("bugsparallel")
package usesr pkg("Rmpi")
for distributed computing of multiple MCMC chains using WinBUGS. - The
r pkg("xgboost")
package by Chen et al. is an optimized distributed gradient boosting library designed to be highly efficient, flexible and portable. The same code runs on major distributed environment, such as Hadoop, SGE, and MPI. - The
r pkg("dclone")
package provides a global optimization approach and a variant of simulated annealing which exploits Bayesian MCMC tools to get MLE point estimates and standard errors using low level functions for implementing maximum likelihood estimating procedures for complex models using data cloning and Bayesian Markov chain Monte Carlo methods with support for JAGS, WinBUGS and OpenBUGS; parallel computing is supported via ther pkg("snow")
package. - Nowadays, many packages can use the facilities offered by the parallel package. One example
is
r pkg("pls")
. - The
r pkg("pbapply")
package offers a progress bar for vectorized R functions in the\*apply
family, and supports several backends. - The
r pkg("Sim.DiffProc")
package simulates and estimates multidimensional Itô and Stratonovich stochastic differential equations in parallel. - The
r pkg("keras")
package by by Allaire et al. provides a high-level neural networks API. It was developed with a focus on enabling fast experimentation for convolutional networks, recurrent networks, any combination of both, and custom neural network architectures. - The
r pkg("mvnfast")
uses the sumo random number generator to generate multivariate and normal distribtuions in parallel.
- The
r pkg("rxode2")
uses parallel processing (viaOpenMP
) for faster solving of ordinary differential equations (ODEs) over multiple units (grouped byID
) and can generate random numbers for each ODE simulation problem. - The
r pkg("nlmixr2")
uses parallel ODE solving fromrxode2
to solve nonlinear mixed effects models in parallel (for the algorithm"saem"
).
- The rgpu package (see below for link) aims to speed up bioinformatics analysis by using the GPU.
- The
r pkg("gcbd")
package implements a benchmarking framework for BLAS and GPUs. - The
r pkg("OpenCL")
package provides an interface from R to OpenCL permitting hardware- and vendor neutral interfaces to GPU programming. - The
r pkg("tensorflow")
package by by Allaire et al. provides access to the complete TensorFlow API from within R that enables numerical computation using data flow graphs. The flexible architecture allows users to deploy computation to one or more CPUs or GPUs in a desktop, server, or mobile device with a single API. - The
r pkg("tfestimators")
package by by Tang et al. offers a high-level API that provides implementations of many different model types including linear models and deep neural networks. It also provides a flexible framework for defining arbitrary new model types as custom estimators with the distributed power of TensorFlow for free. - The
r pkg("BDgraph")
package provides statistical tools for Bayesian structure learning in undirected graphical models for multivariate continuous, discrete, and mixed data using parallel sampling algorithms implemented using OpenMP and C++. - The
r pkg("ssgraph")
package offers Bayesian inference in undirected graphical models using spike-and-slab priors for multivariate continuous, discrete, and mixed data. Computationally intensive tasks of the package are using OpenMP via C++. - The
r pkg("GPUmatrix")
package can offload calculations to the GPU while providing the API of theMatrix
package.
- The
r pkg("biglm")
package by Lumley uses incremental computations to offerlm()
andglm()
functionality to data sets stored outside of R's main memory. - The
r pkg("ff")
package by Adler et al. offers file-based access to data sets that are too large to be loaded into memory, along with a number of higher-level functions. - The
r pkg("bigmemory")
package by Kane and Emerson permits storing large objects such as matrices in memory (as well as via files) and uses external pointer objects to refer to them. This permits transparent access from R without bumping against R's internal memory limits. Several R processes on the same computer can also share big memory objects. - A large number of database packages, and database-alike packages (such as
r pkg("sqldf")
by Grothendieck andr pkg("data.table")
by Dowle) are also of potential interest but not reviewed here.
- The
r pkg("MonetDB.R")
package allows R to access the MonetDB column-oriented, open source database system as a backend. - The
r pkg("LaF")
package provides methods for fast access to large ASCII files in csv or fixed-width format. - The
r pkg("bigstatsr")
package also operates on file-backed large matrices via memory-mapped access, and offeres several matrix operationc, PCA, sparse methods and more.. - The
r pkg("disk.frame")
package leverages several other packages to provide efficient access and manipulation operations for data sets that are larger than RAM. - The
r pkg("arrow")
package offers the portable Apache Arrow in-memory format as well as readers for different file formats which can include support for out-of-memory processing and streaming.
- The
r pkg("inline")
package by Sklyar et al eases adding code in C, C++ or Fortran to R. It takes care of the compilation, linking and loading of embedded code segments that are stored as R strings. - The
r pkg("Rcpp")
package by Eddelbuettel and Francois offers a number of C++ classes that makes transferring R objects to C++ functions (and back) easier, and ther pkg("RInside")
package by the same authors allows easy embedding of R itself into C++ applications for faster and more direct data transfer. - The
r pkg("RcppParallel")
package by Allaire et al. bundles the Intel Threading Building Blocks and TinyThread libraries. Together withr pkg("Rcpp")
, RcppParallel makes it easy to write safe, performant, concurrently-executing C++ code, and use that code within R and R packages. - The
r pkg("rJava")
package by Urbanek provides a low-level interface to Java similar to the.Call()
interface for C and C++. - The
r pkg("reticulate")
package by Allaire provides interface to Python modules, classes, and functions. It allows R users to access many high-performance Python packages such asr pkg("tensorflow")
andr pkg("tfestimators")
within R.
Packages r pkg("profvis")
, r pkg("proffer")
, r pkg("profmem")
, r pkg("GUIProfiler")
,
r pkg("proftools")
, and r pkg("aprof")
summarize and visualize output from the Rprof
interface
for profiling. The r pkg("profile")
package reads and writes profiling data and converts among
file formats such as pprof
by Google and Rprof
. The
xrprof
command-line tool implements profile sampling for a
given R process on Linux or Windows, and it can profile R code alongside compiled code.
- HPC computing notes by Luke Tierney for HPC class at University of Iowa
- Mailing List: R Special Interest Group High Performance Computing
- Schmidberger, Morgan, Eddelbuettel, Yu, Tierney and Mansmann (2009) paper on 'State of the Art in Parallel Computing with R'
- Luke Tierney's code directory for pnmath and pnmath0
- Slurm open-source workload manager
- Condor project at University of Wisconsin-Madison
- Parallel Computing in R with sfCluster/snowfall
- Wikipedia: Message Passing Interface (MPI)
- Wikipedia: Parallel Virtual Machine (PVM)
- Slides from Introduction to High-Performance Computing with R tutorial help in Nov 2009 at the Institute for Statistical Mathematics, Tokyo, Japan
- rgpu project at nbic.nl
- Magma: Matrix Algebra on GPU and Multicore architectures
- Parallel R: Data Analysis in the Distributed World
- High Performance Statistical Computing for Data Intensive Research
- Rth: Parallel R through Thrust
- Programming with Big Data in R