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what is the maximum amount of memory for a single process in UNIX and Linux and windows? how to calculate that? How much user address space and kernel address space for 4 GB of RAM?

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2 Answers 2

How much user address space and kernel address space for 4 GB of RAM?

The address space of a process is divided into two parts,

User space: On standard 32 bit x86_64 architecture maximum addressable memory is 4GB, out of which addresses from 0x00000000 to 0xbfffffff = (3GB) meant for code, data segments and this region can be addressed when user process executing both either in user or kernel mode.

Kernel space: Similarly from address 0xc0000000 to 0xffffffff = (1GB) meant for kernel virtual address space and can only addressed when the process executes in Kernel mode.

This particular address space split on x86 is determined by the value of PAGE_OFFSET. Referring to Linux 3.11.1v page_32_types.h and page_64_types.h, page offset is defined as below,


Where Kconfig defines a default value of default 0xC0000000 also with other address split options available.

Similarly for 64 bit,

#define __PAGE_OFFSET _AC(0xffff880000000000, UL).

On 64 bit architecture 3G/1G split doesn't hold anymore due to huge address space. As per the source latest Linux version has given above offset as offset.

When I see my 64 bit x86_64 architecture, a 32 bit process can have entire 4GB of user address space and kernel will hold address range above 4GB. Interestingly on modern 64 bit x86_64 CPU's not all address lines are enabled to provide us 2^64 = 16 exabytes of virtual address space. Perhaps on AMD64/x86 architectures has 48/42 lower bits enabled respectively resulting to 2^48 = 256TB of address space. Now this definitely improves performance with large amounts of RAM, at the same time question arises how it is efficiently managed with the OS limitations.

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On Linux systems, see man ulimit


It says:

The ulimit builtin is used to set the resource usage limits of the shell and any processes spawned by it. If a new limit value is omitted, the current value of the limit of the resource is printed.

ulimit -a prints out all current values with switch options, other switches, e.g. ulimit -n prints out no. of max. open files.

Unfortunatelly, "max memory size" tells "unlimited", which means that it is not limited by system administrator.

You can view the memory size by

cat /proc/meminfo

Which results something like:

MemTotal:        4048744 kB
MemFree:          465504 kB
Buffers:          316192 kB
Cached:          1306740 kB
SwapCached:          508 kB
Active:          1744884 kB

So, if ulimit says "unlimited", the MemFree is all yours. Almost.

Don't forget that malloc() (and new operator, which calls malloc()) is a STDLIB function, so if you call malloc(100) 10 times, there will be lot of "slack", follow link to learn why.

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okay, I'll update –  ern0 Sep 25 '13 at 14:13
great that you have updated answere –  Satpal Sep 25 '13 at 14:26

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