eesupp/inc/CPP_EEOPTIONS.h

C $Header: /u/gcmpack/models/MITgcmUV/eesupp/inc/CPP_EEOPTIONS.h,v 1.13 2000/03/14 16:16:01 adcroft Exp $
C
C     /==========================================================\
C     | CPP_EEOPTIONS.h                                          |
C     |==========================================================|
C     | C preprocessor "execution environment" supporting        |
C     | flags. Use this file to set flags controlling the        |
C     | execution environment in which a model runs - as opposed |
C     | to the dynamical problem the model solves.               |
C     | Note: Many options are implemented with both compile time|
C     |       and run-time switches. This allows options to be   |
C     |       removed altogether, made optional at run-time or   |
C     |       to be permanently enabled. This convention helps   |
C     |       with the data-dependence analysis performed by the |
C     |       adjoint model compiler. This data dependency       |
C     |       analysis can be upset by runtime switches that it  |
C     |       is unable to recoginise as being fixed for the     |
C     |       duration of an integration.                        |
C     |       A reasonable way to use these flags is to          |
C     |       set all options as selectable at runtime but then  |
C     |       once an experimental configuration has been        |
C     |       identified, rebuild the code with the appropriate  |
C     |       options set at compile time.                       |
C     \==========================================================/

#ifndef _CPP_EEOPTIONS_H_
#define _CPP_EEOPTIONS_H_

C     In general the following convention applies:
C     ALLOW  - indicates an feature will be included but it may
C     CAN      have a run-time flag to allow it to be switched
C              on and off.
C              If ALLOW or CAN directives are "undef'd" this generally
C              means that the feature will not be available i.e. it
C              will not be included in the compiled code and so no
C              run-time option to use the feature will be available.
C
C     ALWAYS - indicates the choice will be fixed at compile time
C              so no run-time option will be present

C     Flag used to indicate whether Fortran formatted write
C     and read are threadsafe. On SGI the routines can be thread
C     safe, on Sun it is not possible - if you are unsure then
C     undef this option.
#undef  FMTFTN_IO_THREADSAFE

C--   Control MPI based parallel processing
#undef  ALLOW_USE_MPI
#undef  ALWAYS_USE_MPI
 
C--   Control use of communication that might overlap computation.
C     Under MPI selects/deselects "non-blocking" sends and receives.
#define ALLOW_ASYNC_COMMUNICATION
#undef  ALLOW_ASYNC_COMMUNICATION
#undef  ALWAYS_USE_ASYNC_COMMUNICATION
C--   Control use of communication that is atomic to computation.
C     Under MPI selects/deselects "blocking" sends and receives.
#define ALLOW_SYNC_COMMUNICATION
#undef  ALWAYS_USE_SYNC_COMMUNICATION

C--   Control use of JAM routines for Artic network
C     These invoke optimized versions of "exchange" and "sum" that
C     utilize the programmable aspect of Artic cards.
#undef  LETS_MAKE_JAM
#undef  JAM_WITH_TWO_PROCS_PER_NODE

C--   Control storage of floating point operands
C     On many systems it improves performance only to use
C     8-byte precision for time stepped variables.
C     Constant in time terms ( geometric factors etc.. )
C     can use 4-byte precision, reducing memory utilisation and
C     boosting performance because of a smaller working
C     set size. However, on vector CRAY systems this degrades
C     performance.
#define REAL4_IS_SLOW
 
C--   Control use of "double" precision constants.
C     Use D0 where it means REAL*8 but not where it means REAL*16
#define D0 d0

C--   Control XY periodicity in processor to grid mappings
C     Note: Model code does not need to know whether a domain is 
C           periodic because it has overlap regions for every box.
C           Model assume that these values have been
C           filled in some way.
#undef  ALWAYS_PREVENT_X_PERIODICITY
#undef  ALWAYS_PREVENT_Y_PERIODICITY
#define CAN_PREVENT_X_PERIODICITY
#define CAN_PREVENT_Y_PERIODICITY

#endif /* _CPP_EEOPTIONS_H_ */

#include "CPP_EEMACROS.h"
1	adcroft	1.14	C $Header: /u/gcmpack/models/MITgcmUV/eesupp/inc/CPP_EEOPTIONS.h,v 1.13 2000/03/14 16:16:01 adcroft Exp $
2	cnh	1.1	C
3			C /==========================================================\
4			C \| CPP_EEOPTIONS.h \|
5			C \|==========================================================\|
6			C \| C preprocessor "execution environment" supporting \|
7			C \| flags. Use this file to set flags controlling the \|
8			C \| execution environment in which a model runs - as opposed \|
9			C \| to the dynamical problem the model solves. \|
10			C \| Note: Many options are implemented with both compile time\|
11			C \| and run-time switches. This allows options to be \|
12			C \| removed altogether, made optional at run-time or \|
13			C \| to be permanently enabled. This convention helps \|
14			C \| with the data-dependence analysis performed by the \|
15			C \| adjoint model compiler. This data dependency \|
16			C \| analysis can be upset by runtime switches that it \|
17			C \| is unable to recoginise as being fixed for the \|
18			C \| duration of an integration. \|
19			C \| A reasonable way to use these flags is to \|
20			C \| set all options as selectable at runtime but then \|
21			C \| once an experimental configuration has been \|
22			C \| identified, rebuild the code with the appropriate \|
23			C \| options set at compile time. \|
24			C \==========================================================/
25
26	adcroft	1.4	#ifndef _CPP_EEOPTIONS_H_
27			#define _CPP_EEOPTIONS_H_
28
29	cnh	1.1	C In general the following convention applies:
30			C ALLOW - indicates an feature will be included but it may
31			C CAN have a run-time flag to allow it to be switched
32			C on and off.
33			C If ALLOW or CAN directives are "undef'd" this generally
34			C means that the feature will not be available i.e. it
35			C will not be included in the compiled code and so no
36			C run-time option to use the feature will be available.
37			C
38			C ALWAYS - indicates the choice will be fixed at compile time
39			C so no run-time option will be present
40
41			C Flag used to indicate whether Fortran formatted write
42			C and read are threadsafe. On SGI the routines can be thread
43			C safe, on Sun it is not possible - if you are unsure then
44			C undef this option.
45			#undef FMTFTN_IO_THREADSAFE
46
47			C-- Control MPI based parallel processing
48	cnh	1.8	#undef ALLOW_USE_MPI
49			#undef ALWAYS_USE_MPI
50	cnh	1.1
51			C-- Control use of communication that might overlap computation.
52			C Under MPI selects/deselects "non-blocking" sends and receives.
53			#define ALLOW_ASYNC_COMMUNICATION
54			#undef ALLOW_ASYNC_COMMUNICATION
55			#undef ALWAYS_USE_ASYNC_COMMUNICATION
56			C-- Control use of communication that is atomic to computation.
57			C Under MPI selects/deselects "blocking" sends and receives.
58			#define ALLOW_SYNC_COMMUNICATION
59			#undef ALWAYS_USE_SYNC_COMMUNICATION
60	adcroft	1.13
61			C-- Control use of JAM routines for Artic network
62			C These invoke optimized versions of "exchange" and "sum" that
63			C utilize the programmable aspect of Artic cards.
64			#undef LETS_MAKE_JAM
65			#undef JAM_WITH_TWO_PROCS_PER_NODE
66	cnh	1.1
67			C-- Control storage of floating point operands
68			C On many systems it improves performance only to use
69			C 8-byte precision for time stepped variables.
70			C Constant in time terms ( geometric factors etc.. )
71			C can use 4-byte precision, reducing memory utilisation and
72			C boosting performance because of a smaller working
73			C set size. However, on vector CRAY systems this degrades
74			C performance.
75	cnh	1.8	#define REAL4_IS_SLOW
76	cnh	1.1
77			C-- Control use of "double" precision constants.
78			C Use D0 where it means REAL8 but not where it means REAL16
79			#define D0 d0
80
81			C-- Control XY periodicity in processor to grid mappings
82			C Note: Model code does not need to know whether a domain is
83			C periodic because it has overlap regions for every box.
84	cnh	1.10	C Model assume that these values have been
85	cnh	1.1	C filled in some way.
86			#undef ALWAYS_PREVENT_X_PERIODICITY
87			#undef ALWAYS_PREVENT_Y_PERIODICITY
88			#define CAN_PREVENT_X_PERIODICITY
89			#define CAN_PREVENT_Y_PERIODICITY
90
91	adcroft	1.14	#endif /* _CPP_EEOPTIONS_H_ */
92	cnh	1.3
93	adcroft	1.14	#include "CPP_EEMACROS.h"