ideal_gas_kernel.f90

!Crown Copyright 2012 AWE.
!
! This file is part of CloverLeaf.
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!>  @brief Fortran ideal gas kernel.
!>  @author Wayne Gaudin
!>  @details Calculates the pressure and sound speed for the mesh chunk using
!>  the ideal gas equation of state, with a fixed gamma of 1.4.

MODULE ideal_gas_kernel_module

CONTAINS

SUBROUTINE ideal_gas_kernel(x_min,x_max,y_min,y_max,                &
                            density,                                &
                            energy,                                 &
                            pressure,                               &
                            soundspeed                              )                              

  IMPLICIT NONE

  INTEGER :: x_min,x_max,y_min,y_max
  REAL(KIND=8), DIMENSION(x_min-2:x_max+2,y_min-2:y_max+2) :: density
  REAL(KIND=8), DIMENSION(x_min-2:x_max+2,y_min-2:y_max+2) :: energy
  REAL(KIND=8), DIMENSION(x_min-2:x_max+2,y_min-2:y_max+2) :: pressure
  REAL(KIND=8), DIMENSION(x_min-2:x_max+2,y_min-2:y_max+2) :: soundspeed

  INTEGER :: j,k

  REAL(KIND=8) :: sound_speed_squared,v,pressurebyenergy,pressurebyvolume

!$OMP PARALLEL
!$OMP DO PRIVATE(v,pressurebyenergy,pressurebyvolume,sound_speed_squared)
  DO k=y_min,y_max
    DO j=x_min,x_max
      v=1.0_8/density(j,k)
      pressure(j,k)=(1.4_8-1.0_8)*density(j,k)*energy(j,k)
      pressurebyenergy=(1.4_8-1.0_8)*density(j,k)
      pressurebyvolume=-density(j,k)*pressure(j,k)
      sound_speed_squared=v*v*(pressure(j,k)*pressurebyenergy-pressurebyvolume)
      soundspeed(j,k)=SQRT(sound_speed_squared)
    ENDDO
  ENDDO
!$OMP END DO
!$OMP END PARALLEL

END SUBROUTINE ideal_gas_kernel

END MODULE ideal_gas_kernel_module