GNU Fortran compiler: Difference between revisions
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|<code>-cpp</code> | |<code>-cpp</code> | ||
|Turns on the C-preprocessor, to evaluate <tt>#if</tt> and <tt>#define</tt> statements in the source code. | |Turns on the C-preprocessor, to evaluate <tt>#if</tt> and <tt>#define</tt> statements in the source code. | ||
|Default setting | |||
|-valign="top" | |||
|<code>-w</code> | |||
|Turns off most warnings by default. | |||
|Default setting | |Default setting | ||
Revision as of 21:28, 21 September 2016
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Compilation options
Compiler options
Optimization options
Option | Description | How invoked in GEOS-Chem? |
---|---|---|
List of commonly-used compilation options
Here are the IFORT compilation options currently used by GEOS-Chem:
Option | Description | How invoked in GEOS-Chem? |
---|---|---|
Normal compiler settings | ||
-cpp
|
Turns on the C-preprocessor, to evaluate #if and #define statements in the source code. | Default setting |
-w
|
Turns off most warnings by default. | Default setting |
-std=legacy
|
Tells GNU Fortran not to halt compilation when encountering code that does not adhere to the Fortran 95, 2003, or 2008 standards. Gfortran is a much stricter compiler, so turning this option on will tell Gfortran to be more lenient. | Default setting |
-fautomatic
|
This option places local variables (scalars and arrays of all types), except those declared as SAVE, on the run-time stack. It is as if the variables were declared with the AUTOMATIC attribute. It does not affect variables that have the SAVE attribute or ALLOCATABLE attribute, or variables that appear in an EQUIVALENCE statement or in a common block. | Default setting |
-fconvert-big-endian
|
Specifies that the format will be big endian for integer data and big endian IEEE floating-point for real and complex data. This only affects file I/O to/from binary files (such as binary punch files) but not ASCII, netCDF, or other file formats. | Default setting |
-fno-align-commons
|
Prevents the compiler from padding bytes anywhere in common blocks and structures. Padding can affect numerical precision. | Default setting |
-O3
|
Optimizes the source code for speed, without taking too many liberties with numerical precision. For more information, please see the optimization options section above. | Default setting |
-funroll-loops
|
Typically improves performance on code using iterative DO loops by unrolling them and is probably generally appropriate for Fortran, though it is not turned on at any optimization level. Note that outer loop unrolling isn't done specifically; decisions about whether to unroll a loop are made on the basis of its instruction count.
Also, no `loop discovery'1 is done, so only loops written with DO benefit from loop optimizations, including—but not limited to—unrolling. Loops written with IF and GOTO are not currently recognized as such. This option unrolls only iterative DO loops, not DO WHILE loops. |
Default setting |
-fp-model source
|
Rounds intermediate results to source-defined precision and enables value-safe optimizations. Basically, this tells the compiler not to take too many liberties with how numerical expressions are evaluated. For more information about this option, please see our precision-safe optimization section below. This option can be disabled by compiling GEOS-Chem with the PRECISE=no Makefile option. | Default setting |
Special compiler settings | ||
-fdefault-real-8 | This option tells the compiler to treat variables that are declared as REAL as REAL*8
NOTE: This option is not used globally, but is only applied to certain indidvidual files (mostly from third-party codes like ISORROPIA. Current GEOS-Chem programming practice is to use either REAL*4 or REAL*8 instead of REAL, which avoids confusion. |
Used as needed |
-fdefault-real-8 | This option tells the compiler to treat variables that are declared as REAL as REAL*8
NOTE: This option is not used globally, but is only applied to certain indidvidual files (mostly from third-party codes like ISORROPIA. Current GEOS-Chem programming practice is to use either REAL*4 or REAL*8 instead of REAL, which avoids confusion. |
Used as needed |
-mcmodel=medium | This option is used to tell IFORT to use more than 2GB of static memory. This avoids a specific type of memory error that can occur if you compile GEOS-Chem for use with an extremely high-resolution grid (e.g. 0.25° x 0.3125° nested grid). | Default setting |
Settings only used for debugging | ||
-debug all | Tells the compiler turn on all debug error output. | DEBUG=yes |
-g | Tells the compiler to generate full debugging information in the object file. This will cause a debugger (like Totalview) to display the actual lines of source code, instead of hexadecimal addresses (which is gibberish to anyone except hardware engineers). | DEBUG=yes |
-O0 | Turns off all optimization. Source code instructions (e.g. DO loops, IF blocks) and numerical expressions are evaluated in precisely the order in which they are listed, without being internally rewritten by the optimizer. This is necessary for using a debugger (like Totalview). | DEBUG=yes |
-fcheck-bounds | Check for array-out-of-bounds errors. This is invoked when you compile GEOS-Chem with the BOUNDS=yes Makefile option. NOTE: Only use -CB for debugging, as this option will cause GEOS-Chem to execute more slowly! | DEBUG=yes |
-fcheck-array-temporaries | Checks to see if any array temporaries are created. Depending on how you write your subroutine and function calls, the compiler may need to create a temporary array to hold the values in the array before it passes them to the subroutine. For detailed information, please see our Passing array arguments efficiently in GEOS-Chem wiki page. | DEBUG=yes |
-Warray-temporaries | Prints info about array temporaries. Use in conjunction with -fcheck-array-temporaries
|
DEBUG=yes |
-backtrace | This option tells the compiler to generate extra information in the object file to provide source file traceback information when a severe error occurs at run time. When the severe error occurs, source file, routine name, and line number correlation information is displayed along with call stack hexadecimal addresses (program counter trace). This option increases the size of the executable program, but has no impact on run-time execution speeds. It functions independently of the debug option. | TRACEBACK=yes |
-fpe0 | This option will cause GEOS-Chem to halt if any type of floating-point error is encountered. This can happen if an equation results in a denormal value, e.g. NaN, or +/-Infinity. Common causes of floating-point errors are divisions where the denominator becomes zero. NOTE: The default compiler setting is -fpe3, which will convert many of these denormal values to zeros and then continue execution. |
FPE=yes |
-ftrapuv | This option will assign a large numeric value to all local automatic variables. This makes it easier to identify numerical errors caused by improper initialization. | FPE=yes |
--Bob Y. 11:21, 3 October 2013 (EDT)
Typical settings for a GEOS-Chem simulation
The normal GEOS-Chem build uses the following IFORT compiler flags:
-cpp -w -O2 -auto -noalign -convert big_endian -vec-report0 -fp-model source -openmp
whereas a debugging run (meant to execute in a debugger such as TotalView) will typically use these flags:
-cpp -w -O0 -auto -noalign -convert big_endian -g -DDEBUG -check arg_temp_created -debug all -fp-model source -fpe0 -ftrapuv -check bounds
NOTE: In order to avoid running out of memory if you compiling GEOS-Chem at extremely high resolution (e.g. the 0.25° x 0.3125° nested grids), we recommend adding the following flags:
-mcmodel=medium -shared-intel
These are automatically set when you compile with the NETCDF=yes or HDF=yes compiler options (in GEOS-Chem v9-01-03 and higher).
--Bob Y. 17:34, 29 February 2012 (EST)