src/library/base/man/Memory-limits.Rd - R - Git at Google

 % File src/library/base/man/Memory-limits.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2014 R Core Team
 % Distributed under GPL 2 or later

 \name{Memory-limits}
 \alias{Memory-limits}
 \concept{memory}
 \concept{limits}
 \title{Memory Limits in R}
 \description{
   \R holds objects it is using in virtual memory.  This help file
   documents the current design limitations on large objects: these
   differ between 32-bit and 64-bit builds of \R.
 }
 \details{
   Currently \R runs on 32- and 64-bit operating systems, and most 64-bit
   OSes (including Linux, Solaris, Windows and macOS) can run either
   32- or 64-bit builds of \R.  The memory limits depends mainly on the
   build, but for a 32-bit build of \R on Windows they also depend on the
   underlying OS version.

   \R holds all objects in virtual memory, and there are limits based on the
   amount of memory that can be used by all objects:
   \itemize{
     \item There may be limits on the size of the heap and the number of
     cons cells allowed -- see \code{\link{Memory}} -- but these are
     usually not imposed.
     \item There is a limit on the (user) address space of a single
     process such as the \R executable.  This is system-specific, and can
     depend on the executable.
     \item The environment may impose limitations on the resources
     available to a single process: Windows' versions of \R do so directly.
   }
   Error messages beginning \code{cannot allocate vector of size}
   indicate a failure to obtain memory, either because the size exceeded
   the address-space limit for a process or, more likely, because the
   system was unable to provide the memory.  Note that on a 32-bit build
   there may well be enough free memory available, but not a large enough
   contiguous block of address space into which to map it.

   There are also limits on individual objects. The storage space
   cannot exceed the address limit, and if you try to exceed that limit,
   the error message begins \code{cannot allocate vector of length}.
   The number of bytes in a character string is limited to
   \eqn{2^{31} - 1 \approx 2\thinspace 10^9}{2^31 - 1 ~ 2*10^9},
   which is also the limit on each dimension of an array.
 }
 \section{Unix}{
   The address-space limit is system-specific: 32-bit OSes
   imposes a limit of no more than 4Gb: it is often 3Gb.  Running
   32-bit executables on a 64-bit OS will have similar limits: 64-bit
   executables will have an essentially infinite system-specific limit
   (e.g., 128Tb for Linux on x86_64 cpus).

   See the OS/shell's help on commands such as \code{limit} or
   \code{ulimit} for how to impose limitations on the resources available
   to a single process.  For example a \command{bash} user could use
 \preformatted{ulimit -t 600 -v 4000000
 }
   whereas a \command{csh} user might use
 \preformatted{limit cputime 10m
 limit vmemoryuse 4096m
 }
   to limit a process to 10 minutes of CPU time and (around) 4Gb of
   virtual memory.  (There are other options to set the RAM in use, but they
   are not generally honoured.)
 }
 \section{Windows}{
   The address-space limit is 2Gb under 32-bit Windows unless the OS's
   default has been changed to allow more (up to 3Gb).  See
   \url{https://docs.microsoft.com/en-gb/windows/desktop/Memory/physical-address-extension}
   and
   \url{https://docs.microsoft.com/en-gb/windows/desktop/Memory/4-gigabyte-tuning}.
   Under most 64-bit versions of Windows the limit for a 32-bit build
   of \R is 4Gb: for the oldest ones it is 2Gb.  The limit for a 64-bit
   build of \R (imposed by the OS) is 8Tb.

   It is not normally possible to allocate as much as 2Gb to a single
   vector in a 32-bit build of \R even on 64-bit Windows because of
   preallocations by Windows in the middle of the address space.

   Under Windows, \R imposes limits on the total memory allocation
   available to a single session as the OS provides no way to do so: see
   \code{\link{memory.size}} and \code{\link{memory.limit}}.
 }
 \seealso{
   \code{\link{object.size}(a)} for the (approximate) size of \R object
   \code{a}.
 }
 \keyword{environment}
	% File src/library/base/man/Memory-limits.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2014 R Core Team
	% Distributed under GPL 2 or later

	\name{Memory-limits}
	\alias{Memory-limits}
	\concept{memory}
	\concept{limits}
	\title{Memory Limits in R}
	\description{
	\R holds objects it is using in virtual memory. This help file
	documents the current design limitations on large objects: these
	differ between 32-bit and 64-bit builds of \R.
	}
	\details{
	Currently \R runs on 32- and 64-bit operating systems, and most 64-bit
	OSes (including Linux, Solaris, Windows and macOS) can run either
	32- or 64-bit builds of \R. The memory limits depends mainly on the
	build, but for a 32-bit build of \R on Windows they also depend on the
	underlying OS version.

	\R holds all objects in virtual memory, and there are limits based on the
	amount of memory that can be used by all objects:
	\itemize{
	\item There may be limits on the size of the heap and the number of
	cons cells allowed -- see \code{\link{Memory}} -- but these are
	usually not imposed.
	\item There is a limit on the (user) address space of a single
	process such as the \R executable. This is system-specific, and can
	depend on the executable.
	\item The environment may impose limitations on the resources
	available to a single process: Windows' versions of \R do so directly.
	}
	Error messages beginning \code{cannot allocate vector of size}
	indicate a failure to obtain memory, either because the size exceeded
	the address-space limit for a process or, more likely, because the
	system was unable to provide the memory. Note that on a 32-bit build
	there may well be enough free memory available, but not a large enough
	contiguous block of address space into which to map it.

	There are also limits on individual objects. The storage space
	cannot exceed the address limit, and if you try to exceed that limit,
	the error message begins \code{cannot allocate vector of length}.
	The number of bytes in a character string is limited to
	\eqn{2^{31} - 1 \approx 2\thinspace 10^9}{2^31 - 1 ~ 2*10^9},
	which is also the limit on each dimension of an array.
	}
	\section{Unix}{
	The address-space limit is system-specific: 32-bit OSes
	imposes a limit of no more than 4Gb: it is often 3Gb. Running
	32-bit executables on a 64-bit OS will have similar limits: 64-bit
	executables will have an essentially infinite system-specific limit
	(e.g., 128Tb for Linux on x86_64 cpus).

	See the OS/shell's help on commands such as \code{limit} or
	\code{ulimit} for how to impose limitations on the resources available
	to a single process. For example a \command{bash} user could use
	\preformatted{ulimit -t 600 -v 4000000
	}
	whereas a \command{csh} user might use
	\preformatted{limit cputime 10m
	limit vmemoryuse 4096m
	}
	to limit a process to 10 minutes of CPU time and (around) 4Gb of
	virtual memory. (There are other options to set the RAM in use, but they
	are not generally honoured.)
	}
	\section{Windows}{
	The address-space limit is 2Gb under 32-bit Windows unless the OS's
	default has been changed to allow more (up to 3Gb). See
	\url{https://docs.microsoft.com/en-gb/windows/desktop/Memory/physical-address-extension}
	and
	\url{https://docs.microsoft.com/en-gb/windows/desktop/Memory/4-gigabyte-tuning}.
	Under most 64-bit versions of Windows the limit for a 32-bit build
	of \R is 4Gb: for the oldest ones it is 2Gb. The limit for a 64-bit
	build of \R (imposed by the OS) is 8Tb.

	It is not normally possible to allocate as much as 2Gb to a single
	vector in a 32-bit build of \R even on 64-bit Windows because of
	preallocations by Windows in the middle of the address space.

	Under Windows, \R imposes limits on the total memory allocation
	available to a single session as the OS provides no way to do so: see
	\code{\link{memory.size}} and \code{\link{memory.limit}}.
	}
	\seealso{
	\code{\link{object.size}(a)} for the (approximate) size of \R object
	\code{a}.
	}
	\keyword{environment}