mirror of https://github.com/xzeldon/htop.git
689 lines
27 KiB
Plaintext
689 lines
27 KiB
Plaintext
Introduction
|
|
|
|
hwloc provides command line tools and a C API to obtain the hierarchical map of
|
|
key computing elements, such as: NUMA memory nodes, shared caches, processor
|
|
sockets, processor cores, and processing units (logical processors or
|
|
"threads"). hwloc also gathers various attributes such as cache and memory
|
|
information, and is portable across a variety of different operating systems
|
|
and platforms.
|
|
|
|
hwloc primarily aims at helping high-performance computing (HPC) applications,
|
|
but is also applicable to any project seeking to exploit code and/or data
|
|
locality on modern computing platforms.
|
|
|
|
Note that the hwloc project represents the merger of the libtopology project
|
|
from INRIA and the Portable Linux Processor Affinity (PLPA) sub-project from
|
|
Open MPI. Both of these prior projects are now deprecated. The first hwloc
|
|
release was essentially a "re-branding" of the libtopology code base, but with
|
|
both a few genuinely new features and a few PLPA-like features added in. Prior
|
|
releases of hwloc included documentation about switching from PLPA to hwloc;
|
|
this documentation has been dropped on the assumption that everyone who was
|
|
using PLPA has already switched to hwloc.
|
|
|
|
hwloc supports the following operating systems:
|
|
|
|
* Linux (including old kernels not having sysfs topology information, with
|
|
knowledge of cpusets, offline CPUs, ScaleMP vSMP, and Kerrighed support)
|
|
* Solaris
|
|
* AIX
|
|
* Darwin / OS X
|
|
* FreeBSD and its variants, such as kFreeBSD/GNU
|
|
* OSF/1 (a.k.a., Tru64)
|
|
* HP-UX
|
|
* Microsoft Windows
|
|
|
|
hwloc only reports the number of processors on unsupported operating systems;
|
|
no topology information is available.
|
|
|
|
For development and debugging purposes, hwloc also offers the ability to work
|
|
on "fake" topologies:
|
|
|
|
* Symmetrical tree of resources generated from a list of level arities
|
|
* Remote machine simulation through the gathering of Linux sysfs topology
|
|
files
|
|
|
|
hwloc can display the topology in a human-readable format, either in graphical
|
|
mode (X11), or by exporting in one of several different formats, including:
|
|
plain text, PDF, PNG, and FIG (see CLI Examples below). Note that some of the
|
|
export formats require additional support libraries.
|
|
|
|
hwloc offers a programming interface for manipulating topologies and objects.
|
|
It also brings a powerful CPU bitmap API that is used to describe topology
|
|
objects location on physical/logical processors. See the Programming Interface
|
|
below. It may also be used to binding applications onto certain cores or memory
|
|
nodes. Several utility programs are also provided to ease command-line
|
|
manipulation of topology objects, binding of processes, and so on.
|
|
|
|
Installation
|
|
|
|
hwloc (http://www.open-mpi.org/projects/hwloc/) is available under the BSD
|
|
license. It is hosted as a sub-project of the overall Open MPI project (http://
|
|
www.open-mpi.org/). Note that hwloc does not require any functionality from
|
|
Open MPI -- it is a wholly separate (and much smaller!) project and code base.
|
|
It just happens to be hosted as part of the overall Open MPI project.
|
|
|
|
Nightly development snapshots are available on the web site. Additionally, the
|
|
code can be directly checked out of Subversion:
|
|
|
|
shell$ svn checkout http://svn.open-mpi.org/svn/hwloc/trunk hwloc-trunk
|
|
shell$ cd hwloc-trunk
|
|
shell$ ./autogen.sh
|
|
|
|
Note that GNU Autoconf >=2.63, Automake >=1.10 and Libtool >=2.2.6 are required
|
|
when building from a Subversion checkout.
|
|
|
|
Installation by itself is the fairly common GNU-based process:
|
|
|
|
shell$ ./configure --prefix=...
|
|
shell$ make
|
|
shell$ make install
|
|
|
|
The hwloc command-line tool "lstopo" produces human-readable topology maps, as
|
|
mentioned above. It can also export maps to the "fig" file format. Support for
|
|
PDF, Postscript, and PNG exporting is provided if the "Cairo" development
|
|
package can be found when hwloc is configured and build. Similarly, lstopo's
|
|
XML support requires the libxml2 development package.
|
|
|
|
CLI Examples
|
|
|
|
On a 4-socket 2-core machine with hyperthreading, the lstopo tool may show the
|
|
following graphical output:
|
|
|
|
dudley.png
|
|
|
|
Here's the equivalent output in textual form:
|
|
|
|
Machine (16GB)
|
|
Socket L#0 + L3 L#0 (4096KB)
|
|
L2 L#0 (1024KB) + L1 L#0 (16KB) + Core L#0
|
|
PU L#0 (P#0)
|
|
PU L#1 (P#8)
|
|
L2 L#1 (1024KB) + L1 L#1 (16KB) + Core L#1
|
|
PU L#2 (P#4)
|
|
PU L#3 (P#12)
|
|
Socket L#1 + L3 L#1 (4096KB)
|
|
L2 L#2 (1024KB) + L1 L#2 (16KB) + Core L#2
|
|
PU L#4 (P#1)
|
|
PU L#5 (P#9)
|
|
L2 L#3 (1024KB) + L1 L#3 (16KB) + Core L#3
|
|
PU L#6 (P#5)
|
|
PU L#7 (P#13)
|
|
Socket L#2 + L3 L#2 (4096KB)
|
|
L2 L#4 (1024KB) + L1 L#4 (16KB) + Core L#4
|
|
PU L#8 (P#2)
|
|
PU L#9 (P#10)
|
|
L2 L#5 (1024KB) + L1 L#5 (16KB) + Core L#5
|
|
PU L#10 (P#6)
|
|
PU L#11 (P#14)
|
|
Socket L#3 + L3 L#3 (4096KB)
|
|
L2 L#6 (1024KB) + L1 L#6 (16KB) + Core L#6
|
|
PU L#12 (P#3)
|
|
PU L#13 (P#11)
|
|
L2 L#7 (1024KB) + L1 L#7 (16KB) + Core L#7
|
|
PU L#14 (P#7)
|
|
PU L#15 (P#15)
|
|
|
|
Finally, here's the equivalent output in XML. Long lines were artificially
|
|
broken for document clarity (in the real output, each XML tag is on a single
|
|
line), and only socket #0 is shown for brevity:
|
|
|
|
<?xml version="1.0" encoding="UTF-8"?>
|
|
<!DOCTYPE topology SYSTEM "hwloc.dtd">
|
|
<topology>
|
|
<object type="Machine" os_level="-1" os_index="0" cpuset="0x0000ffff"
|
|
complete_cpuset="0x0000ffff" online_cpuset="0x0000ffff"
|
|
allowed_cpuset="0x0000ffff"
|
|
dmi_board_vendor="Dell Computer Corporation" dmi_board_name="0RD318"
|
|
local_memory="16648183808">
|
|
<page_type size="4096" count="4064498"/>
|
|
<page_type size="2097152" count="0"/>
|
|
<object type="Socket" os_level="-1" os_index="0" cpuset="0x00001111"
|
|
complete_cpuset="0x00001111" online_cpuset="0x00001111"
|
|
allowed_cpuset="0x00001111">
|
|
<object type="Cache" os_level="-1" cpuset="0x00001111"
|
|
complete_cpuset="0x00001111" online_cpuset="0x00001111"
|
|
allowed_cpuset="0x00001111" cache_size="4194304" depth="3"
|
|
cache_linesize="64">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000101"
|
|
complete_cpuset="0x00000101" online_cpuset="0x00000101"
|
|
allowed_cpuset="0x00000101" cache_size="1048576" depth="2"
|
|
cache_linesize="64">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000101"
|
|
complete_cpuset="0x00000101" online_cpuset="0x00000101"
|
|
allowed_cpuset="0x00000101" cache_size="16384" depth="1"
|
|
cache_linesize="64">
|
|
<object type="Core" os_level="-1" os_index="0" cpuset="0x00000101"
|
|
complete_cpuset="0x00000101" online_cpuset="0x00000101"
|
|
allowed_cpuset="0x00000101">
|
|
<object type="PU" os_level="-1" os_index="0" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001"/>
|
|
<object type="PU" os_level="-1" os_index="8" cpuset="0x00000100"
|
|
complete_cpuset="0x00000100" online_cpuset="0x00000100"
|
|
allowed_cpuset="0x00000100"/>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
<object type="Cache" os_level="-1" cpuset="0x00001010"
|
|
complete_cpuset="0x00001010" online_cpuset="0x00001010"
|
|
allowed_cpuset="0x00001010" cache_size="1048576" depth="2"
|
|
cache_linesize="64">
|
|
<object type="Cache" os_level="-1" cpuset="0x00001010"
|
|
complete_cpuset="0x00001010" online_cpuset="0x00001010"
|
|
allowed_cpuset="0x00001010" cache_size="16384" depth="1"
|
|
cache_linesize="64">
|
|
<object type="Core" os_level="-1" os_index="1" cpuset="0x00001010"
|
|
complete_cpuset="0x00001010" online_cpuset="0x00001010"
|
|
allowed_cpuset="0x00001010">
|
|
<object type="PU" os_level="-1" os_index="4" cpuset="0x00000010"
|
|
complete_cpuset="0x00000010" online_cpuset="0x00000010"
|
|
allowed_cpuset="0x00000010"/>
|
|
<object type="PU" os_level="-1" os_index="12" cpuset="0x00001000"
|
|
complete_cpuset="0x00001000" online_cpuset="0x00001000"
|
|
allowed_cpuset="0x00001000"/>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
<!-- ...other sockets listed here ... -->
|
|
</object>
|
|
</topology>
|
|
|
|
On a 4-socket 2-core Opteron NUMA machine, the lstopo tool may show the
|
|
following graphical output:
|
|
|
|
hagrid.png
|
|
|
|
Here's the equivalent output in textual form:
|
|
|
|
Machine (32GB)
|
|
NUMANode L#0 (P#0 8190MB) + Socket L#0
|
|
L2 L#0 (1024KB) + L1 L#0 (64KB) + Core L#0 + PU L#0 (P#0)
|
|
L2 L#1 (1024KB) + L1 L#1 (64KB) + Core L#1 + PU L#1 (P#1)
|
|
NUMANode L#1 (P#1 8192MB) + Socket L#1
|
|
L2 L#2 (1024KB) + L1 L#2 (64KB) + Core L#2 + PU L#2 (P#2)
|
|
L2 L#3 (1024KB) + L1 L#3 (64KB) + Core L#3 + PU L#3 (P#3)
|
|
NUMANode L#2 (P#2 8192MB) + Socket L#2
|
|
L2 L#4 (1024KB) + L1 L#4 (64KB) + Core L#4 + PU L#4 (P#4)
|
|
L2 L#5 (1024KB) + L1 L#5 (64KB) + Core L#5 + PU L#5 (P#5)
|
|
NUMANode L#3 (P#3 8192MB) + Socket L#3
|
|
L2 L#6 (1024KB) + L1 L#6 (64KB) + Core L#6 + PU L#6 (P#6)
|
|
L2 L#7 (1024KB) + L1 L#7 (64KB) + Core L#7 + PU L#7 (P#7)
|
|
|
|
And here's the equivalent output in XML. Similar to above, line breaks were
|
|
added and only PU #0 is shown for brevity:
|
|
|
|
<?xml version="1.0" encoding="UTF-8"?>
|
|
<!DOCTYPE topology SYSTEM "hwloc.dtd">
|
|
<topology>
|
|
<object type="Machine" os_level="-1" os_index="0" cpuset="0x000000ff"
|
|
complete_cpuset="0x000000ff" online_cpuset="0x000000ff"
|
|
allowed_cpuset="0x000000ff" nodeset="0x000000ff"
|
|
complete_nodeset="0x000000ff" allowed_nodeset="0x000000ff"
|
|
dmi_board_vendor="TYAN Computer Corp" dmi_board_name="S4881 ">
|
|
<page_type size="4096" count="0"/>
|
|
<page_type size="2097152" count="0"/>
|
|
<object type="NUMANode" os_level="-1" os_index="0" cpuset="0x00000003"
|
|
complete_cpuset="0x00000003" online_cpuset="0x00000003"
|
|
allowed_cpuset="0x00000003" nodeset="0x00000001"
|
|
complete_nodeset="0x00000001" allowed_nodeset="0x00000001"
|
|
local_memory="7514177536">
|
|
<page_type size="4096" count="1834516"/>
|
|
<page_type size="2097152" count="0"/>
|
|
<object type="Socket" os_level="-1" os_index="0" cpuset="0x00000003"
|
|
complete_cpuset="0x00000003" online_cpuset="0x00000003"
|
|
allowed_cpuset="0x00000003" nodeset="0x00000001"
|
|
complete_nodeset="0x00000001" allowed_nodeset="0x00000001">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001" nodeset="0x00000001"
|
|
complete_nodeset="0x00000001" allowed_nodeset="0x00000001"
|
|
cache_size="1048576" depth="2" cache_linesize="64">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001" nodeset="0x00000001"
|
|
complete_nodeset="0x00000001" allowed_nodeset="0x00000001"
|
|
cache_size="65536" depth="1" cache_linesize="64">
|
|
<object type="Core" os_level="-1" os_index="0"
|
|
cpuset="0x00000001" complete_cpuset="0x00000001"
|
|
online_cpuset="0x00000001" allowed_cpuset="0x00000001"
|
|
nodeset="0x00000001" complete_nodeset="0x00000001"
|
|
allowed_nodeset="0x00000001">
|
|
<object type="PU" os_level="-1" os_index="0" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001" nodeset="0x00000001"
|
|
complete_nodeset="0x00000001" allowed_nodeset="0x00000001"/>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
<!-- ...more objects listed here ... -->
|
|
</topology>
|
|
|
|
On a 2-socket quad-core Xeon (pre-Nehalem, with 2 dual-core dies into each
|
|
socket):
|
|
|
|
emmett.png
|
|
|
|
Here's the same output in textual form:
|
|
|
|
Machine (16GB)
|
|
Socket L#0
|
|
L2 L#0 (4096KB)
|
|
L1 L#0 (32KB) + Core L#0 + PU L#0 (P#0)
|
|
L1 L#1 (32KB) + Core L#1 + PU L#1 (P#4)
|
|
L2 L#1 (4096KB)
|
|
L1 L#2 (32KB) + Core L#2 + PU L#2 (P#2)
|
|
L1 L#3 (32KB) + Core L#3 + PU L#3 (P#6)
|
|
Socket L#1
|
|
L2 L#2 (4096KB)
|
|
L1 L#4 (32KB) + Core L#4 + PU L#4 (P#1)
|
|
L1 L#5 (32KB) + Core L#5 + PU L#5 (P#5)
|
|
L2 L#3 (4096KB)
|
|
L1 L#6 (32KB) + Core L#6 + PU L#6 (P#3)
|
|
L1 L#7 (32KB) + Core L#7 + PU L#7 (P#7)
|
|
|
|
And the same output in XML (line breaks added, only PU #0 shown):
|
|
|
|
<?xml version="1.0" encoding="UTF-8"?>
|
|
<!DOCTYPE topology SYSTEM "hwloc.dtd">
|
|
<topology>
|
|
<object type="Machine" os_level="-1" os_index="0" cpuset="0x000000ff"
|
|
complete_cpuset="0x000000ff" online_cpuset="0x000000ff"
|
|
allowed_cpuset="0x000000ff" dmi_board_vendor="Dell Inc."
|
|
dmi_board_name="0NR282" local_memory="16865292288">
|
|
<page_type size="4096" count="4117503"/>
|
|
<page_type size="2097152" count="0"/>
|
|
<object type="Socket" os_level="-1" os_index="0" cpuset="0x00000055"
|
|
complete_cpuset="0x00000055" online_cpuset="0x00000055"
|
|
allowed_cpuset="0x00000055">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000011"
|
|
complete_cpuset="0x00000011" online_cpuset="0x00000011"
|
|
allowed_cpuset="0x00000011" cache_size="4194304" depth="2"
|
|
cache_linesize="64">
|
|
<object type="Cache" os_level="-1" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001" cache_size="32768" depth="1"
|
|
cache_linesize="64">
|
|
<object type="Core" os_level="-1" os_index="0" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001">
|
|
<object type="PU" os_level="-1" os_index="0" cpuset="0x00000001"
|
|
complete_cpuset="0x00000001" online_cpuset="0x00000001"
|
|
allowed_cpuset="0x00000001"/>
|
|
</object>
|
|
</object>
|
|
<object type="Cache" os_level="-1" cpuset="0x00000010"
|
|
complete_cpuset="0x00000010" online_cpuset="0x00000010"
|
|
allowed_cpuset="0x00000010" cache_size="32768" depth="1"
|
|
cache_linesize="64">
|
|
<object type="Core" os_level="-1" os_index="1" cpuset="0x00000010"
|
|
complete_cpuset="0x00000010" online_cpuset="0x00000010"
|
|
allowed_cpuset="0x00000010">
|
|
<object type="PU" os_level="-1" os_index="4" cpuset="0x00000010"
|
|
complete_cpuset="0x00000010" online_cpuset="0x00000010"
|
|
allowed_cpuset="0x00000010"/>
|
|
</object>
|
|
</object>
|
|
</object>
|
|
<!-- ...more objects listed here ... -->
|
|
</topology>
|
|
|
|
Programming Interface
|
|
|
|
The basic interface is available in hwloc.h. It essentially offers low-level
|
|
routines for advanced programmers that want to manually manipulate objects and
|
|
follow links between them. Documentation for everything in hwloc.h are provided
|
|
later in this document. Developers should also look at hwloc/helper.h (and also
|
|
in this document, which provides good higher-level topology traversal examples.
|
|
|
|
To precisely define the vocabulary used by hwloc, a Terms and Definitions
|
|
section is available and should probably be read first.
|
|
|
|
Each hwloc object contains a cpuset describing the list of processing units
|
|
that it contains. These bitmaps may be used for CPU binding and Memory binding.
|
|
hwloc offers an extensive bitmap manipulation interface in hwloc/bitmap.h.
|
|
|
|
Moreover, hwloc also comes with additional helpers for interoperability with
|
|
several commonly used environments. See the Interoperability With Other
|
|
Software section for details.
|
|
|
|
The complete API documentation is available in a full set of HTML pages, man
|
|
pages, and self-contained PDF files (formatted for both both US letter and A4
|
|
formats) in the source tarball in doc/doxygen-doc/.
|
|
|
|
NOTE: If you are building the documentation from a Subversion checkout, you
|
|
will need to have Doxygen and pdflatex installed -- the documentation will be
|
|
built during the normal "make" process. The documentation is installed during
|
|
"make install" to $prefix/share/doc/hwloc/ and your systems default man page
|
|
tree (under $prefix, of course).
|
|
|
|
Portability
|
|
|
|
As shown in CLI Examples, hwloc can obtain information on a wide variety of
|
|
hardware topologies. However, some platforms and/or operating system versions
|
|
will only report a subset of this information. For example, on an PPC64-based
|
|
system with 32 cores (each with 2 hardware threads) running a default
|
|
2.6.18-based kernel from RHEL 5.4, hwloc is only able to glean information
|
|
about NUMA nodes and processor units (PUs). No information about caches,
|
|
sockets, or cores is available.
|
|
|
|
Similarly, Operating System have varying support for CPU and memory binding,
|
|
e.g. while some Operating Systems provide interfaces for all kinds of CPU and
|
|
memory bindings, some others provide only interfaces for a limited number of
|
|
kinds of CPU and memory binding, and some do not provide any binding interface
|
|
at all. Hwloc's binding functions would then simply return the ENOSYS error
|
|
(Function not implemented), meaning that the underlying Operating System does
|
|
not provide any interface for them. CPU binding and Memory binding provide more
|
|
information on which hwloc binding functions should be preferred because
|
|
interfaces for them are usually available on the supported Operating Systems.
|
|
|
|
Here's the graphical output from lstopo on this platform when Simultaneous
|
|
Multi-Threading (SMT) is enabled:
|
|
|
|
ppc64-with-smt.png
|
|
|
|
And here's the graphical output from lstopo on this platform when SMT is
|
|
disabled:
|
|
|
|
ppc64-without-smt.png
|
|
|
|
Notice that hwloc only sees half the PUs when SMT is disabled. PU #15, for
|
|
example, seems to change location from NUMA node #0 to #1. In reality, no PUs
|
|
"moved" -- they were simply re-numbered when hwloc only saw half as many.
|
|
Hence, PU #15 in the SMT-disabled picture probably corresponds to PU #30 in the
|
|
SMT-enabled picture.
|
|
|
|
This same "PUs have disappeared" effect can be seen on other platforms -- even
|
|
platforms / OSs that provide much more information than the above PPC64 system.
|
|
This is an unfortunate side-effect of how operating systems report information
|
|
to hwloc.
|
|
|
|
Note that upgrading the Linux kernel on the same PPC64 system mentioned above
|
|
to 2.6.34, hwloc is able to discover all the topology information. The
|
|
following picture shows the entire topology layout when SMT is enabled:
|
|
|
|
ppc64-full-with-smt.png
|
|
|
|
Developers using the hwloc API or XML output for portable applications should
|
|
therefore be extremely careful to not make any assumptions about the structure
|
|
of data that is returned. For example, per the above reported PPC topology, it
|
|
is not safe to assume that PUs will always be descendants of cores.
|
|
|
|
Additionally, future hardware may insert new topology elements that are not
|
|
available in this version of hwloc. Long-lived applications that are meant to
|
|
span multiple different hardware platforms should also be careful about making
|
|
structure assumptions. For example, there may someday be an element "lower"
|
|
than a PU, or perhaps a new element may exist between a core and a PU.
|
|
|
|
API Example
|
|
|
|
The following small C example (named ``hwloc-hello.c'') prints the topology of
|
|
the machine and bring the process to the first logical processor of the second
|
|
core of the machine.
|
|
|
|
/* Example hwloc API program.
|
|
*
|
|
* Copyright ? 2009-2010 INRIA. All rights reserved.
|
|
* Copyright ? 2009-2011 Universit? Bordeaux 1
|
|
* Copyright ? 2009-2010 Cisco Systems, Inc. All rights reserved.
|
|
* See COPYING in top-level directory.
|
|
*
|
|
* hwloc-hello.c
|
|
*/
|
|
|
|
#include <hwloc.h>
|
|
#include <errno.h>
|
|
#include <stdio.h>
|
|
#include <string.h>
|
|
|
|
static void print_children(hwloc_topology_t topology, hwloc_obj_t obj,
|
|
int depth)
|
|
{
|
|
char string[128];
|
|
unsigned i;
|
|
|
|
hwloc_obj_snprintf(string, sizeof(string), topology, obj, "#", 0);
|
|
printf("%*s%s\n", 2*depth, "", string);
|
|
for (i = 0; i < obj->arity; i++) {
|
|
print_children(topology, obj->children[i], depth + 1);
|
|
}
|
|
}
|
|
|
|
int main(void)
|
|
{
|
|
int depth;
|
|
unsigned i, n;
|
|
unsigned long size;
|
|
int levels;
|
|
char string[128];
|
|
int topodepth;
|
|
hwloc_topology_t topology;
|
|
hwloc_cpuset_t cpuset;
|
|
hwloc_obj_t obj;
|
|
|
|
/* Allocate and initialize topology object. */
|
|
hwloc_topology_init(&topology);
|
|
|
|
/* ... Optionally, put detection configuration here to ignore
|
|
some objects types, define a synthetic topology, etc....
|
|
|
|
The default is to detect all the objects of the machine that
|
|
the caller is allowed to access. See Configure Topology
|
|
Detection. */
|
|
|
|
/* Perform the topology detection. */
|
|
hwloc_topology_load(topology);
|
|
|
|
/* Optionally, get some additional topology information
|
|
in case we need the topology depth later. */
|
|
topodepth = hwloc_topology_get_depth(topology);
|
|
|
|
/*****************************************************************
|
|
* First example:
|
|
* Walk the topology with an array style, from level 0 (always
|
|
* the system level) to the lowest level (always the proc level).
|
|
*****************************************************************/
|
|
for (depth = 0; depth < topodepth; depth++) {
|
|
printf("*** Objects at level %d\n", depth);
|
|
for (i = 0; i < hwloc_get_nbobjs_by_depth(topology, depth);
|
|
i++) {
|
|
hwloc_obj_snprintf(string, sizeof(string), topology,
|
|
hwloc_get_obj_by_depth(topology, depth, i),
|
|
"#", 0);
|
|
printf("Index %u: %s\n", i, string);
|
|
}
|
|
}
|
|
|
|
/*****************************************************************
|
|
* Second example:
|
|
* Walk the topology with a tree style.
|
|
*****************************************************************/
|
|
printf("*** Printing overall tree\n");
|
|
print_children(topology, hwloc_get_root_obj(topology), 0);
|
|
|
|
/*****************************************************************
|
|
* Third example:
|
|
* Print the number of sockets.
|
|
*****************************************************************/
|
|
depth = hwloc_get_type_depth(topology, HWLOC_OBJ_SOCKET);
|
|
if (depth == HWLOC_TYPE_DEPTH_UNKNOWN) {
|
|
printf("*** The number of sockets is unknown\n");
|
|
} else {
|
|
printf("*** %u socket(s)\n",
|
|
hwloc_get_nbobjs_by_depth(topology, depth));
|
|
}
|
|
|
|
/*****************************************************************
|
|
* Fourth example:
|
|
* Compute the amount of cache that the first logical processor
|
|
* has above it.
|
|
*****************************************************************/
|
|
levels = 0;
|
|
size = 0;
|
|
for (obj = hwloc_get_obj_by_type(topology, HWLOC_OBJ_PU, 0);
|
|
obj;
|
|
obj = obj->parent)
|
|
if (obj->type == HWLOC_OBJ_CACHE) {
|
|
levels++;
|
|
size += obj->attr->cache.size;
|
|
}
|
|
printf("*** Logical processor 0 has %d caches totaling %luKB\n",
|
|
levels, size / 1024);
|
|
|
|
/*****************************************************************
|
|
* Fifth example:
|
|
* Bind to only one thread of the last core of the machine.
|
|
*
|
|
* First find out where cores are, or else smaller sets of CPUs if
|
|
* the OS doesn't have the notion of a "core".
|
|
*****************************************************************/
|
|
depth = hwloc_get_type_or_below_depth(topology, HWLOC_OBJ_CORE);
|
|
|
|
/* Get last core. */
|
|
obj = hwloc_get_obj_by_depth(topology, depth,
|
|
hwloc_get_nbobjs_by_depth(topology, depth) - 1);
|
|
if (obj) {
|
|
/* Get a copy of its cpuset that we may modify. */
|
|
cpuset = hwloc_bitmap_dup(obj->cpuset);
|
|
|
|
/* Get only one logical processor (in case the core is
|
|
SMT/hyperthreaded). */
|
|
hwloc_bitmap_singlify(cpuset);
|
|
|
|
/* And try to bind ourself there. */
|
|
if (hwloc_set_cpubind(topology, cpuset, 0)) {
|
|
char *str;
|
|
int error = errno;
|
|
hwloc_bitmap_asprintf(&str, obj->cpuset);
|
|
printf("Couldn't bind to cpuset %s: %s\n", str, strerror(error));
|
|
free(str);
|
|
}
|
|
|
|
/* Free our cpuset copy */
|
|
hwloc_bitmap_free(cpuset);
|
|
}
|
|
|
|
/*****************************************************************
|
|
* Sixth example:
|
|
* Allocate some memory on the last NUMA node, bind some existing
|
|
* memory to the last NUMA node.
|
|
*****************************************************************/
|
|
/* Get last node. */
|
|
n = hwloc_get_nbobjs_by_type(topology, HWLOC_OBJ_NODE);
|
|
if (n) {
|
|
void *m;
|
|
size = 1024*1024;
|
|
|
|
obj = hwloc_get_obj_by_type(topology, HWLOC_OBJ_NODE, n - 1);
|
|
m = hwloc_alloc_membind_nodeset(topology, size, obj->nodeset,
|
|
HWLOC_MEMBIND_DEFAULT, 0);
|
|
hwloc_free(topology, m, size);
|
|
|
|
m = malloc(size);
|
|
hwloc_set_area_membind_nodeset(topology, m, size, obj->nodeset,
|
|
HWLOC_MEMBIND_DEFAULT, 0);
|
|
free(m);
|
|
}
|
|
|
|
/* Destroy topology object. */
|
|
hwloc_topology_destroy(topology);
|
|
|
|
return 0;
|
|
}
|
|
|
|
hwloc provides a pkg-config executable to obtain relevant compiler and linker
|
|
flags. For example, it can be used thusly to compile applications that utilize
|
|
the hwloc library (assuming GNU Make):
|
|
|
|
CFLAGS += $(pkg-config --cflags hwloc)
|
|
LDLIBS += $(pkg-config --libs hwloc)
|
|
cc hwloc-hello.c $(CFLAGS) -o hwloc-hello $(LDLIBS)
|
|
|
|
On a machine with 4GB of RAM and 2 processor sockets -- each socket of which
|
|
has two processing cores -- the output from running hwloc-hello could be
|
|
something like the following:
|
|
|
|
shell$ ./hwloc-hello
|
|
*** Objects at level 0
|
|
Index 0: Machine(3938MB)
|
|
*** Objects at level 1
|
|
Index 0: Socket#0
|
|
Index 1: Socket#1
|
|
*** Objects at level 2
|
|
Index 0: Core#0
|
|
Index 1: Core#1
|
|
Index 2: Core#3
|
|
Index 3: Core#2
|
|
*** Objects at level 3
|
|
Index 0: PU#0
|
|
Index 1: PU#1
|
|
Index 2: PU#2
|
|
Index 3: PU#3
|
|
*** Printing overall tree
|
|
Machine(3938MB)
|
|
Socket#0
|
|
Core#0
|
|
PU#0
|
|
Core#1
|
|
PU#1
|
|
Socket#1
|
|
Core#3
|
|
PU#2
|
|
Core#2
|
|
PU#3
|
|
*** 2 socket(s)
|
|
shell$
|
|
|
|
Questions and Bugs
|
|
|
|
Questions should be sent to the devel mailing list (http://www.open-mpi.org/
|
|
community/lists/hwloc.php). Bug reports should be reported in the tracker (
|
|
https://svn.open-mpi.org/trac/hwloc/).
|
|
|
|
If hwloc discovers an incorrect topology for your machine, the very first thing
|
|
you should check is to ensure that you have the most recent updates installed
|
|
for your operating system. Indeed, most of hwloc topology discovery relies on
|
|
hardware information retrieved through the operation system (e.g., via the /sys
|
|
virtual filesystem of the Linux kernel). If upgrading your OS or Linux kernel
|
|
does not solve your problem, you may also want to ensure that you are running
|
|
the most recent version of the BIOS for your machine.
|
|
|
|
If those things fail, contact us on the mailing list for additional help.
|
|
Please attach the output of lstopo after having given the --enable-debug option
|
|
to ./configure and rebuilt completely, to get debugging output.
|
|
|
|
History / Credits
|
|
|
|
hwloc is the evolution and merger of the libtopology (http://
|
|
runtime.bordeaux.inria.fr/libtopology/) project and the Portable Linux
|
|
Processor Affinity (PLPA) (http://www.open-mpi.org/projects/plpa/) project.
|
|
Because of functional and ideological overlap, these two code bases and ideas
|
|
were merged and released under the name "hwloc" as an Open MPI sub-project.
|
|
|
|
libtopology was initially developed by the INRIA Runtime Team-Project (http://
|
|
runtime.bordeaux.inria.fr/) (headed by Raymond Namyst (http://
|
|
dept-info.labri.fr/~namyst/). PLPA was initially developed by the Open MPI
|
|
development team as a sub-project. Both are now deprecated in favor of hwloc,
|
|
which is distributed as an Open MPI sub-project.
|
|
|
|
Further Reading
|
|
|
|
The documentation chapters include
|
|
|
|
* Terms and Definitions
|
|
* Command-Line Tools
|
|
* Environment Variables
|
|
* CPU and Memory Binding Overview
|
|
* Interoperability With Other Software
|
|
* Thread Safety
|
|
* Embedding hwloc in Other Software
|
|
* Frequently Asked Questions
|
|
|
|
Make sure to have had a look at those too!
|
|
|
|
-------------------------------------------------------------------------------
|
|
|
|
Generated on Tue Aug 16 2011 19:37:04 for Hardware Locality (hwloc) by doxygen
|
|
1.7.4
|