7.13 psb_amx — Global maximum absolute value

call psb_amx(ctxt, dat [, root, mode, request])

This subroutine implements a maximum absolute value reduction operation based on the underlying communication library.

Type:
Synchronous.
On Entry
ctxt
the communication context identifying the virtual parallel machine.
Scope: global.
Type: required.
Intent: in.
Specified as: an integer variable.
dat
The local contribution to the global maximum.
Scope: local.
Type: required.
Intent: inout.
Specified as: an integer, real or complex variable, which may be a scalar, or a rank 1 or 2 array.  Type, kind, rank and size must agree on all processes.
root
Process to hold the final value, or -1 to make it available on all processes.
Scope: global.
Type: optional.
Intent: in.
Specified as: an integer value -1 <= root <= np - 1, default -1.
mode
Whether the call is started in non-blocking mode and completed later, or is executed synchronously.
Scope: global.
Type: optional.
Intent: in.
Specified as: an integer value. The action to be taken is determined by its bit fields, which can be set with bitwise OR. Basic action values are psb_collective_start_, psb_collective_end_. Default: both fields are selected (i.e. require synchronous completion).
request
A request variable to check for operation completion.
Scope: local.
Type: optional.
Intent: inout.
If mode does not specify synchronous completion, then this variable must be present.

On Return
dat
On destination process(es), the result of the maximum operation.
Scope: global.
Type: required.
Intent: inout.
Specified as: an integer, real or complex variable, which may be a scalar, or a rank 1 or 2 array.  Type, kind, rank and size must agree on all processes.
request
A request variable to check for operation completion.
Scope: local.
Type: optional.
Intent: inout.
If mode does not specify synchronous completion, then this variable must be present.

Notes

  1. The dat argument is both input and output, and its value may be changed even on processes different from the final result destination.
  2. The mode argument can be built with the bitwise IOR() operator; in the following example, the argument is forcing immediate completion, hence the request argument needs not be specified:

      call psb_amx(ctxt,dat,mode=ior(psb_collective_start_,psb_collective_end_))
    

  3. When splitting the operation in two calls, the dat argument must not be accessed between calls:

      call psb_amx(ctxt,dat,mode=psb_collective_start_,request=amx_request)
      ....... ! Do not access dat
      call psb_amx(ctxt,dat,mode=psb_collective_end_,request=amx_request)