Re: Allocated large blocks of memory on 64 bit linux.
From: Avi Kivity
Date: Wed Sep 20 2006 - 08:21:09 EST
Chris Jefferson wrote:
I apologise for this slightly off-topic message, but I believe it can
best be answered here, and hope the question may be interesting.
Many libraries have some kind of dynamically sized container (for
example C++'s std::vector). When the container is full a new block of
memory, typically double the original size, is allocated and the old
data copied across.
On a 64 bit architecture, where the memory space is massive, it seems
at first glance a sensible thing to do might be to first make a buffer
of size 4k, and then when this fills up, just straight to something
huge, like 1MB or even 1GB, as the memory space is effectively
infinate compared to the physical memory. Obvious most of this buffer
may never be written to, as the object never grows large enough to
fill it.
What is the overhead of allocating memory which is never used? Is this
A 1MB virtual area which has just one page instantiated has (amortized)
2KB cost in page tables, while a similar 1GB mapping has 8KB cost.
That's a 50%-200% overhead which is quite bad. Also cache line usage is
worse since each pte needs a full cache line (two for the 1GB version) now.
In addition, the virtual address space is not infinite. On x86-64,
userspace has 47 bits = 128 TB, enough for 128K of these 1G mappings, so
your program would exhaust it after allocating 128,000 buffers, which is
less than a gigabyte of physical RAM.
--
error compiling committee.c: too many arguments to function
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