Development/Intel Compiler: Difference between revisions
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Aside from that the suite also includes the TBB (Threading Building Blocks) and IPP (Integrated Performance Primitives) libraries. |
Aside from that the suite also includes the TBB (Threading Building Blocks) and IPP (Integrated Performance Primitives) libraries. |
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More information about the MPI versions of the Intel Compiler is available in our |
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* [[BwHPC_BPG_for_Parallel_Programming|BwHPC_BPG_for_Parallel_Programming]]. |
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= Versions and Availability = |
= Versions and Availability = |
Revision as of 10:30, 22 December 2015
Description | Content |
---|---|
module load | compiler/intel |
Availability | bwUniCluster | BwForCluster_Chemistry |
License | Commercial. See $INTEL_HOME/install-doc/EULA.txt. | Intel Product Licensig FAQ |
Citing | n/a |
Links | Intel C-Compiler Homepage |
Graphical Interface | Yes (Intel Debugger GUI-Verison) |
Included modules | icc | icpc | ifort | idb |
Introduction
The Intel Compiler of the Intel Composer XE Suite consists of tools to compile and debug C, C++ and Fortran programs:
icc | Intel C compiler |
icpc | Intel C++ compiler |
ifort | Intel Fortran compiler |
idb | Intel debugger in GUI mode |
idbc | Intel debugger in console mode |
Aside from that the suite also includes the TBB (Threading Building Blocks) and IPP (Integrated Performance Primitives) libraries.
More information about the MPI versions of the Intel Compiler is available in our
Versions and Availability
A list of versions currently available on all bwHPC-C5-Clusters can be obtained from the
Cluster Information System CIS
{{#widget:Iframe |url=https://cis-hpc.uni-konstanz.de/prod.cis/bwUniCluster/compiler/intel |width=99% |height=460 }} On the command line interface of any bwHPC cluster you'll get a list of available versions by using the command 'module avail compiler/intel'.
$ : bwUniCluster $ module avail compiler/intel ------------------------ /opt/bwhpc/common/modulefiles ------------------------- compiler/intel/12.1 compiler/intel/14.0 compiler/intel/13.1 compiler/intel/15.0(default)
Loading the module
Default Version
You can load the default version of the Intel Compiler with the command 'module load compiler/intel'.
$ module avail compiler/intel ------------------------ /opt/bwhpc/common/modulefiles ------------------------- compiler/intel/12.1 compiler/intel/14.0 compiler/intel/13.1 compiler/intel/15.0(default) $ module load compiler/intel $ module list Currently Loaded Modulefiles: 1) compiler/intel/15.0(default)
Here, we got the "default" version 15.0 (example).
The module will try to load modules it needs to function.
If loading the module fails, check if you have already loaded the module
with 'module list'.
Specific (newer or older) Version
If you wish to load a specific (older or newer) version (if available), you can do so using e.g. 'module load compiler/intel/version' to load the version you desires.
$ module avail compiler/intel ------------------------ /opt/bwhpc/common/modulefiles ------------------------- compiler/intel/12.1 compiler/intel/14.0 compiler/intel/13.1 compiler/intel/15.0(default) $ module load compiler/intel/14.0 $ module list Currently Loaded Modulefiles: 1) compiler/intel/14.0
Intel C-Compiler "version 14.0" is loaded now (example).
Intel C-Compiler-Specific Environments
To see a list of all Intel C-Compiler environments set by the 'module load'-command use the command module show compiler/intel.
Example (excerpt, default version)
$ module show compiler/intel # output is revised ------------------------------------------------------------------- /opt/bwhpc/common/modulefiles/compiler/intel/15.0: [...] INTEL_VERSION = 15.0.3 INTEL_HOME = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187 INTEL_BIN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/bin/intel64 INTEL_LIB_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64 INTEL_LIB_MIC = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/mic INTEL_LIB_MICMPI = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/mpirt/lib/mic INTEL_INC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/include INTEL_MAN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/man/en_US INTEL_DOC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/Documentation/en_US GDB_VERSION = 15.0.3 GDB_HOME = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64 GDB_BIN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/bin GDB_LIB_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/libipt/intel64/lib GDB_INC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/include GDB_INF_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/share/info GDB_MAN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/share/man ICC_VERSION = 15.0.3 ICC_HOME = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187 ICC_BIN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/bin/intel64 ICC_LIB_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64 ICC_INC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/include ICC_MAN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/man/en_US ICC_DOC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/Documentation/en_US IFORT_VERSION = 15.0.3 IFORT_HOME = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187 IFORT_BIN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/bin/intel64 IFORT_LIB_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64 IFORT_INC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/include IFORT_MAN_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/man/en_US IFORT_DOC_DIR = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/Documentation/en_US LANGUAGE_TERRITORY = en_US PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/bin/intel64:$PATH LD_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187:$LD_LIBRARY_PATH/composer_xe_2015.3.187/compiler/lib/intel64 LD_RUN_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64:$LD_RUN_PATH MIC_LD_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/mpirt/lib/mic:$MIC_LD_LIBRARY_PATH MIC_LD_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/mic:$MIC_LD_LIBRARY_PATH MIC_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/mpirt/lib/mic:$MIC_LIBRARY_PATH MIC_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/mic:$MIC_LIBRARY_PATH LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64:$LIBRARY_PATH MANPATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/man/en_US:$MANPATH NLSPATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/compiler/lib/intel64/locale/%l_%t/%N:$NLSPATH INTEL_PYTHONHOME = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/python/intel64:$INTEL_PYTHONHOME PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/bin:$PATH LD_LIBRARY_PATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/libipt/intel64/lib:$LD_LIBRARY_PATH MANPATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/share/man:$MANPATH INFOPATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/share/info:$INFOPATH NLSPATH = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/debugger/gdb/intel64/share/locale/%l_%t/%N:$NLSPATH INTEL_LICENSE_FILE = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/composer_xe_2015.3.187/licenses CC = icc CXX = icpc F77 = ifort FC = ifort F90 = ifort TEST_MODULE_SCRIPT = /opt/bwhpc/common/compiler/intel/compxe.2015.3.187/install-doc/test-compiler-intel.sh TEST_MODULE_NAME = compiler/intel/15.0 [...]
Documentation
Online documentation
Local documentation
For version specific documentation see the help page of the module. For example 'module help compiler/intel' will show the information for the default version.
$ module help compiler/intel ----------- Module Specific Help for 'compiler/intel/15.0' -------- This module provides the Intel(R) compiler suite version 15.0.3 via commands 'icc', 'icpc' and 'ifort' (version 15.0.3), the debugger 'gdb-ia' (version 7.8.3) as well as the Intel(R) Threading Building Blocks TBB (version 4.3.5) and the Integrated Performance Primitives IPP libraries (version 8.2.2) (for details see also 'http://software.intel.com/en-us/intel-compilers/'). The related Math Kernel Library MKL module is 'numlib/mkl/11.2.3'. The related Intel MPI module is 'mpi/impi/5.0.3-intel-15.0'. The Intel 'icpc' should work well with GNU compiler version 4.4 to 4.8. Before using TBB or IPP setup the corresponding environment, e.g. for 64bit+bash source $INTEL_HOME/tbb/bin/tbbvars.sh intel64 source $INTEL_HOME/ipp/bin/ippvars.sh intel64 Commands: icc # Intel(R) C compiler icpc # Intel(R) C++ compiler ifort # Intel(R) Fortran compiler gdb-ia # Intel version of GNU debugger # idb is not available anymore in Intel compiler suite 2015. Local documentation: Man pages: man icc; man icpc; man ifort; man gdb-ia firefox $INTEL_DOC_DIR/beginusing_lc.htm firefox $INTEL_DOC_DIR/beginusing_lf.htm The html-pages are very detailed and cover TBB and IPP as well as MKL. For some Intel(R) compiler option examples, hints on how to compile 32bit code and solutions for less common problems see the tips and troubleshooting doc: $INTEL_DOC_DIR/intel-compiler-tips-and-troubleshooting.txt For details on library and include dirs please call module show compiler/intel/15.0 [...]
Manual Pages
For detailed lists of the different program options consult the particular man page
$ man icc $ man icpc $ man ifort $ man idb
Debugger
GUI
The Intel Debugger is an Eclipse Rich Client Platform based GUI driven Debugger with exciting features for parallelism and threading.
Start the GUI-debugger with the command 'idb [binary-file-name] &'.
Console Mode
Intel Debugger
The console-mode Intel debugger will be started using the command 'idbc [binary-file]'.
idbc module_avail_grep Intel(R) Debugger for applications running on Intel(R) 64, Version 13.0, Build [80.483.23] ------------------ object file name: module_avail_grep Reading symbols from /pfs/data2/home/kn/kn_kn/kn_pop235844/module_avail_grep...done. (idb) help List of classes of commands: breakpoints -- Commands for manipulation with breakpoints. data -- Examining data. extensions -- Idb extension commands. files -- Specifying and examing files. obscure -- Obscure features. openmp -- OpenMP support. parallel -- MPI support. running -- Running the program. stack -- Examining the stack. status -- Status inquiries. support -- Support facilities. To display help on a particular command, enter "help" followed by the command name. Command name abbreviations are allowed if unambiguous.
GNU for Intel Debugger
To debug applications natively on IA-32 or Intel64 Architecture systems, you may also use GDB with the following command: 'gdb-ia'.
The actual debugger usage is the same as for the GNU Project Debugger. Extensions for IA-32/Intel 64Architecture are described in the debugger documentation.
$ gdb-ia ./structure [...] GNU gdb (GDB) 7.5-1.0.81 Copyright (C) 2012 Free Software Foundation, Inc; (C) 2013-2014 Intel Corp. License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html> This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law. Type "show copying" and "show warranty" for details. This GDB was configured as "x86_64-unknown-linux-gnu". For information about how to find Technical Support, Product Updates, User Forums, FAQs, tips and tricks, and other support information, please visit: <http://www.intel.com/software/products/support/>... Reading symbols from /pfs/data1/software_uc1/bwhpc/common/bio/structure/2.3.4/console/structure...done. [...] (gdb)
Optimizations
You can turn on various optimization options to enhance the performance of your program. Which options are the best depends on the specific program and can be determined by benchmarking your code. A command which gives good performance and a decent file size is
icc -xHost -O2 ex.c.
There are more aggressive optimization flags and levels (e.g. -O3 or -fast and implied options) but the compiled programs can get quite large due to inlining. Additionally the compilation process will probably take longer. Moreover it may happen that the compiled program is even slower -- or may require installation of additional statically-linked libraries. Such a command would be for example:
icc -fast ex.c
Profiling
Profiling an application means augmenting the compiled binary with information on execution counts per source-line (and basic blocks) -- e.g. one may see how many times an if-statement has been evaluated to true. To do so, compile your code with the profile flag:
icc -p ex.c -o ex.
Using the gprof tool, one may manually inspect execution count of each executed line of source code.
For compiler optimization, recompile Your source using
icc -prof-gen ex.c -o ex
then execute the most co]]mmon and typical use-case of your application, and then recompile using the generated profile count (and using optimization):
icc -prof-use -O2 ex.c -o ex.
Further literature
A tutorial on optimization can be found at Compiler-Essentials.pdf
and to get the different optimization options execute
icc -help opt
icc -help advanced
or the previously described catch-all option -v --help.