Neko  0.9.0
A portable framework for high-order spectral element flow simulations
sigma.f90
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35 module sigma
36  use num_types, only : rp
37  use field, only : field_t
38  use les_model, only : les_model_t
39  use dofmap , only : dofmap_t
41  use json_module, only : json_file
42  use utils, only : neko_error
43  use neko_config, only : neko_bcknd_device
44  use sigma_cpu, only : sigma_compute_cpu
46  use coefs, only : coef_t
47  implicit none
48  private
49 
52  type, public, extends(les_model_t) :: sigma_t
54  real(kind=rp) :: c
55  contains
57  procedure, pass(this) :: init => sigma_init
59  procedure, pass(this) :: init_from_components => sigma_init_from_components
61  procedure, pass(this) :: free => sigma_free
63  procedure, pass(this) :: compute => sigma_compute
64  end type sigma_t
65 
66 contains
71  subroutine sigma_init(this, dofmap, coef, json)
72  class(sigma_t), intent(inout) :: this
73  type(dofmap_t), intent(in) :: dofmap
74  type(coef_t), intent(in) :: coef
75  type(json_file), intent(inout) :: json
76  character(len=:), allocatable :: nut_name
77  real(kind=rp) :: c
78  character(len=:), allocatable :: delta_type
79 
80  call json_get_or_default(json, "nut_field", nut_name, "nut")
81  call json_get_or_default(json, "delta_type", delta_type, "pointwise")
82  ! Based on C = 1.35 as default values
83  call json_get_or_default(json, "c", c, 1.35_rp)
84 
85  call sigma_init_from_components(this, dofmap, coef, c, nut_name, delta_type)
86  end subroutine sigma_init
87 
93  subroutine sigma_init_from_components(this, dofmap, coef, c, nut_name, &
94  delta_type)
95  class(sigma_t), intent(inout) :: this
96  type(dofmap_t), intent(in) :: dofmap
97  type(coef_t), intent(in) :: coef
98  real(kind=rp) :: c
99  character(len=*), intent(in) :: nut_name
100  character(len=*), intent(in) :: delta_type
101 
102  call this%free()
103 
104  call this%init_base(dofmap, coef, nut_name, delta_type)
105 
106  this%c = c
107 
108  end subroutine sigma_init_from_components
109 
111  subroutine sigma_free(this)
112  class(sigma_t), intent(inout) :: this
113 
114  call this%free_base()
115  end subroutine sigma_free
116 
120  subroutine sigma_compute(this, t, tstep)
121  class(sigma_t), intent(inout) :: this
122  real(kind=rp), intent(in) :: t
123  integer, intent(in) :: tstep
124 
125  if (neko_bcknd_device .eq. 1) then
126  call sigma_compute_device(t, tstep, this%coef, this%nut, this%delta, &
127  this%c)
128  else
129  call sigma_compute_cpu(t, tstep, this%coef, this%nut, this%delta, &
130  this%c)
131  end if
132 
133  end subroutine sigma_compute
134 
135 end module sigma
Retrieves a parameter by name or assigns a provided default value. In the latter case also adds the m...
Definition: json_utils.f90:54
Retrieves a parameter by name or throws an error.
Definition: json_utils.f90:45
Coefficients.
Definition: coef.f90:34
Defines a mapping of the degrees of freedom.
Definition: dofmap.f90:35
Defines a field.
Definition: field.f90:34
Utilities for retrieving parameters from the case files.
Definition: json_utils.f90:34
Implements les_model_t.
Definition: les_model.f90:35
Build configurations.
Definition: neko_config.f90:34
integer, parameter neko_bcknd_device
Definition: neko_config.f90:44
integer, parameter, public rp
Global precision used in computations.
Definition: num_types.f90:12
Implements the CPU kernel for the sigma_t type. Following Nicoud et al. "Using singular values to bui...
Definition: sigma_cpu.f90:38
subroutine, public sigma_compute_cpu(t, tstep, coef, nut, delta, c)
Compute eddy viscosity on the CPU.
Definition: sigma_cpu.f90:62
Implements the device kernel for the sigma_t type.
subroutine, public sigma_compute_device(t, tstep, coef, nut, delta, c)
Compute eddy viscosity on device.
Implements sigma_t.
Definition: sigma.f90:35
subroutine sigma_compute(this, t, tstep)
Compute eddy viscosity.
Definition: sigma.f90:121
subroutine sigma_init_from_components(this, dofmap, coef, c, nut_name, delta_type)
Constructor from components.
Definition: sigma.f90:95
subroutine sigma_init(this, dofmap, coef, json)
Constructor.
Definition: sigma.f90:72
subroutine sigma_free(this)
Destructor for the les_model_t (base) class.
Definition: sigma.f90:112
Utilities.
Definition: utils.f90:35
Coefficients defined on a given (mesh, ) tuple. Arrays use indices (i,j,k,e): element e,...
Definition: coef.f90:55
Base abstract type for LES models based on the Boussinesq approximation.
Definition: les_model.f90:51
Implements the Sigma LES model.
Definition: sigma.f90:52