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Nektar::Collections::PhysDeriv_SumFac_Quad Class Referencefinal

Phys deriv operator using sum-factorisation (Quad) More...

Inheritance diagram for Nektar::Collections::PhysDeriv_SumFac_Quad:
[legend]

Public Member Functions

 ~PhysDeriv_SumFac_Quad () final
 
void operator() (const Array< OneD, const NekDouble > &input, Array< OneD, NekDouble > &output0, Array< OneD, NekDouble > &output1, Array< OneD, NekDouble > &output2, Array< OneD, NekDouble > &wsp) override final
 Perform operation. More...
 
void operator() (int dir, const Array< OneD, const NekDouble > &input, Array< OneD, NekDouble > &output, Array< OneD, NekDouble > &wsp) override final
 
virtual void CheckFactors (StdRegions::FactorMap factors, int coll_phys_offset) override
 Check the validity of the supplied factor map. More...
 
- Public Member Functions inherited from Nektar::Collections::Operator
 Operator (std::vector< StdRegions::StdExpansionSharedPtr > pCollExp, std::shared_ptr< CoalescedGeomData > GeomData, StdRegions::FactorMap factors)
 Constructor. More...
 
virtual COLLECTIONS_EXPORT void operator() (const Array< OneD, const NekDouble > &input, Array< OneD, NekDouble > &output0, Array< OneD, NekDouble > &output1, Array< OneD, NekDouble > &output2, Array< OneD, NekDouble > &wsp=NullNekDouble1DArray)=0
 Perform operation. More...
 
virtual COLLECTIONS_EXPORT void operator() (int dir, const Array< OneD, const NekDouble > &input, Array< OneD, NekDouble > &output, Array< OneD, NekDouble > &wsp=NullNekDouble1DArray)=0
 
virtual COLLECTIONS_EXPORT ~Operator ()
 
virtual COLLECTIONS_EXPORT void CheckFactors (StdRegions::FactorMap factors, int coll_phys_offset)=0
 Check the validity of the supplied factor map. More...
 
unsigned int GetWspSize ()
 Get the size of the required workspace. More...
 
unsigned int GetNumElmt ()
 Get expansion pointer. More...
 
StdRegions::StdExpansionSharedPtr GetExpSharedPtr ()
 Get expansion pointer. More...
 

Protected Attributes

int m_coordim
 
const int m_nquad0
 
const int m_nquad1
 
Array< TwoD, const NekDoublem_derivFac
 
NekDoublem_Deriv0
 
NekDoublem_Deriv1
 
- Protected Attributes inherited from Nektar::Collections::Operator
bool m_isDeformed
 
StdRegions::StdExpansionSharedPtr m_stdExp
 
unsigned int m_numElmt
 
unsigned int m_nqe
 
unsigned int m_wspSize
 

Private Member Functions

 PhysDeriv_SumFac_Quad (vector< StdRegions::StdExpansionSharedPtr > pCollExp, CoalescedGeomDataSharedPtr pGeomData, StdRegions::FactorMap factors)
 

Detailed Description

Phys deriv operator using sum-factorisation (Quad)

Definition at line 886 of file PhysDeriv.cpp.

Constructor & Destructor Documentation

◆ ~PhysDeriv_SumFac_Quad()

Nektar::Collections::PhysDeriv_SumFac_Quad::~PhysDeriv_SumFac_Quad ( )
inlinefinal

Definition at line 891 of file PhysDeriv.cpp.

892 {
893 }

◆ PhysDeriv_SumFac_Quad()

Nektar::Collections::PhysDeriv_SumFac_Quad::PhysDeriv_SumFac_Quad ( vector< StdRegions::StdExpansionSharedPtr pCollExp,
CoalescedGeomDataSharedPtr  pGeomData,
StdRegions::FactorMap  factors 
)
inlineprivate

Definition at line 1032 of file PhysDeriv.cpp.

1035 : Operator(pCollExp, pGeomData, factors),
1036 m_nquad0(m_stdExp->GetNumPoints(0)),
1037 m_nquad1(m_stdExp->GetNumPoints(1))
1038 {
1039 LibUtilities::PointsKeyVector PtsKey = m_stdExp->GetPointsKeys();
1040 m_coordim = pCollExp[0]->GetCoordim();
1041
1042 m_derivFac = pGeomData->GetDerivFactors(pCollExp);
1043
1044 m_Deriv0 = &((m_stdExp->GetBasis(0)->GetD())->GetPtr())[0];
1045 m_Deriv1 = &((m_stdExp->GetBasis(1)->GetD())->GetPtr())[0];
1046 m_wspSize = 2 * m_nquad0 * m_nquad1 * m_numElmt;
1047 }
Nektar::Collections::Operator::m_stdExp
StdRegions::StdExpansionSharedPtr m_stdExp
Definition: Operator.h:165
Nektar::Collections::Operator::Operator
Operator(std::vector< StdRegions::StdExpansionSharedPtr > pCollExp, std::shared_ptr< CoalescedGeomData > GeomData, StdRegions::FactorMap factors)
Constructor.
Definition: Operator.cpp:43
Nektar::Collections::PhysDeriv_SumFac_Quad::m_nquad1
const int m_nquad1
Definition: PhysDeriv.cpp:1026
Nektar::Collections::PhysDeriv_SumFac_Quad::m_Deriv0
NekDouble * m_Deriv0
Definition: PhysDeriv.cpp:1028
Nektar::Collections::PhysDeriv_SumFac_Quad::m_nquad0
const int m_nquad0
Definition: PhysDeriv.cpp:1025
Nektar::Collections::PhysDeriv_SumFac_Quad::m_coordim
int m_coordim
Definition: PhysDeriv.cpp:1024
Nektar::Collections::PhysDeriv_SumFac_Quad::m_Deriv1
NekDouble * m_Deriv1
Definition: PhysDeriv.cpp:1029
Nektar::Collections::PhysDeriv_SumFac_Quad::m_derivFac
Array< TwoD, const NekDouble > m_derivFac
Definition: PhysDeriv.cpp:1027
Nektar::LibUtilities::PointsKeyVector
std::vector< PointsKey > PointsKeyVector
Definition: Points.h:236
Nektar::VarcoeffHashingTest::factors
StdRegions::ConstFactorMap factors
Definition: TestVarcoeffHashing.cpp:52

References m_coordim, m_Deriv0, m_Deriv1, m_derivFac, m_nquad0, m_nquad1, Nektar::Collections::Operator::m_numElmt, Nektar::Collections::Operator::m_stdExp, and Nektar::Collections::Operator::m_wspSize.

Member Function Documentation

◆ CheckFactors()

virtual void Nektar::Collections::PhysDeriv_SumFac_Quad::CheckFactors ( StdRegions::FactorMap  factors,
int  coll_phys_offset 
)
inlineoverridevirtual

Check the validity of the supplied factor map.

Implements Nektar::Collections::Operator.

Definition at line 1016 of file PhysDeriv.cpp.

1018 {
1019 boost::ignore_unused(factors, coll_phys_offset);
1020 ASSERTL0(false, "Not valid for this operator.");
1021 }
ASSERTL0
#define ASSERTL0(condition, msg)
Definition: ErrorUtil.hpp:215

References ASSERTL0, and Nektar::VarcoeffHashingTest::factors.

◆ operator()() [1/2]

void Nektar::Collections::PhysDeriv_SumFac_Quad::operator() ( const Array< OneD, const NekDouble > &  input,
Array< OneD, NekDouble > &  output0,
Array< OneD, NekDouble > &  output1,
Array< OneD, NekDouble > &  output2,
Array< OneD, NekDouble > &  wsp 
)
inlinefinaloverridevirtual

Perform operation.

Implements Nektar::Collections::Operator.

Definition at line 895 of file PhysDeriv.cpp.

900 {
901
902 const int nqtot = m_nquad0 * m_nquad1;
903 const int nqcol = nqtot * m_numElmt;
904
905 ASSERTL1(wsp.size() == m_wspSize, "Incorrect workspace size");
906 ASSERTL1(input.size() >= nqcol, "Incorrect input size");
907
908 Array<OneD, NekDouble> diff0(nqcol, wsp);
909 Array<OneD, NekDouble> diff1(nqcol, wsp + nqcol);
910
911 Blas::Dgemm('N', 'N', m_nquad0, m_nquad1 * m_numElmt, m_nquad0, 1.0,
912 m_Deriv0, m_nquad0, input.get(), m_nquad0, 0.0, diff0.get(),
913 m_nquad0);
914
915 int cnt = 0;
916 for (int i = 0; i < m_numElmt; ++i, cnt += nqtot)
917 {
918 Blas::Dgemm('N', 'T', m_nquad0, m_nquad1, m_nquad1, 1.0,
919 input.get() + cnt, m_nquad0, m_Deriv1, m_nquad1, 0.0,
920 diff1.get() + cnt, m_nquad0);
921 }
922
923 if (m_isDeformed)
924 {
925 Vmath::Vmul(nqcol, m_derivFac[0], 1, diff0, 1, output0, 1);
926 Vmath::Vvtvp(nqcol, m_derivFac[1], 1, diff1, 1, output0, 1, output0,
927 1);
928 Vmath::Vmul(nqcol, m_derivFac[2], 1, diff0, 1, output1, 1);
929 Vmath::Vvtvp(nqcol, m_derivFac[3], 1, diff1, 1, output1, 1, output1,
930 1);
931
932 if (m_coordim == 3)
933 {
934 Vmath::Vmul(nqcol, m_derivFac[4], 1, diff0, 1, output2, 1);
935 Vmath::Vvtvp(nqcol, m_derivFac[5], 1, diff1, 1, output2, 1,
936 output2, 1);
937 }
938 }
939 else
940 {
941 Array<OneD, NekDouble> t;
942 for (int e = 0; e < m_numElmt; ++e)
943 {
944 Vmath::Smul(m_nqe, m_derivFac[0][e], diff0 + e * m_nqe, 1,
945 t = output0 + e * m_nqe, 1);
946 Vmath::Svtvp(m_nqe, m_derivFac[1][e], diff1 + e * m_nqe, 1,
947 output0 + e * m_nqe, 1, t = output0 + e * m_nqe,
948 1);
949
950 Vmath::Smul(m_nqe, m_derivFac[2][e], diff0 + e * m_nqe, 1,
951 t = output1 + e * m_nqe, 1);
952 Vmath::Svtvp(m_nqe, m_derivFac[3][e], diff1 + e * m_nqe, 1,
953 output1 + e * m_nqe, 1, t = output1 + e * m_nqe,
954 1);
955 }
956
957 if (m_coordim == 3)
958 {
959 for (int e = 0; e < m_numElmt; ++e)
960 {
961 Vmath::Smul(m_nqe, m_derivFac[4][e], diff0 + e * m_nqe, 1,
962 t = output2 + e * m_nqe, 1);
963 Vmath::Svtvp(m_nqe, m_derivFac[5][e], diff1 + e * m_nqe, 1,
964 output2 + e * m_nqe, 1,
965 t = output2 + e * m_nqe, 1);
966 }
967 }
968 }
969 }
ASSERTL1
#define ASSERTL1(condition, msg)
Assert Level 1 – Debugging which is used whether in FULLDEBUG or DEBUG compilation mode....
Definition: ErrorUtil.hpp:249
Blas::Dgemm
static void Dgemm(const char &transa, const char &transb, const int &m, const int &n, const int &k, const double &alpha, const double *a, const int &lda, const double *b, const int &ldb, const double &beta, double *c, const int &ldc)
BLAS level 3: Matrix-matrix multiply C = A x B where op(A)[m x k], op(B)[k x n], C[m x n] DGEMM perfo...
Definition: Blas.hpp:385
Vmath::Vmul
void Vmul(int n, const T *x, const int incx, const T *y, const int incy, T *z, const int incz)
Multiply vector z = x*y.
Definition: Vmath.cpp:207
Vmath::Svtvp
void Svtvp(int n, const T alpha, const T *x, const int incx, const T *y, const int incy, T *z, const int incz)
svtvp (scalar times vector plus vector): z = alpha*x + y
Definition: Vmath.cpp:617
Vmath::Vvtvp
void Vvtvp(int n, const T *w, const int incw, const T *x, const int incx, const T *y, const int incy, T *z, const int incz)
vvtvp (vector times vector plus vector): z = w*x + y
Definition: Vmath.cpp:569
Vmath::Smul
void Smul(int n, const T alpha, const T *x, const int incx, T *y, const int incy)
Scalar multiply y = alpha*x.
Definition: Vmath.cpp:245

References ASSERTL1, Blas::Dgemm(), m_coordim, m_Deriv0, m_Deriv1, m_derivFac, Nektar::Collections::Operator::m_isDeformed, Nektar::Collections::Operator::m_nqe, m_nquad0, m_nquad1, Nektar::Collections::Operator::m_numElmt, Nektar::Collections::Operator::m_wspSize, Vmath::Smul(), Vmath::Svtvp(), Vmath::Vmul(), and Vmath::Vvtvp().

◆ operator()() [2/2]

void Nektar::Collections::PhysDeriv_SumFac_Quad::operator() ( int  dir,
const Array< OneD, const NekDouble > &  input,
Array< OneD, NekDouble > &  output,
Array< OneD, NekDouble > &  wsp 
)
inlinefinaloverridevirtual

Implements Nektar::Collections::Operator.

Definition at line 971 of file PhysDeriv.cpp.

974 {
975 const int nqtot = m_nquad0 * m_nquad1;
976 const int nqcol = nqtot * m_numElmt;
977
978 ASSERTL1(wsp.size() == m_wspSize, "Incorrect workspace size");
979 ASSERTL1(input.size() >= nqcol, "Incorrect input size");
980
981 Array<OneD, NekDouble> diff0(nqcol, wsp);
982 Array<OneD, NekDouble> diff1(nqcol, wsp + nqcol);
983
984 Blas::Dgemm('N', 'N', m_nquad0, m_nquad1 * m_numElmt, m_nquad0, 1.0,
985 m_Deriv0, m_nquad0, input.get(), m_nquad0, 0.0, diff0.get(),
986 m_nquad0);
987
988 int cnt = 0;
989 for (int i = 0; i < m_numElmt; ++i, cnt += nqtot)
990 {
991 Blas::Dgemm('N', 'T', m_nquad0, m_nquad1, m_nquad1, 1.0,
992 input.get() + cnt, m_nquad0, m_Deriv1, m_nquad1, 0.0,
993 diff1.get() + cnt, m_nquad0);
994 }
995
996 if (m_isDeformed)
997 {
998 Vmath::Vmul(nqcol, m_derivFac[2 * dir], 1, diff0, 1, output, 1);
999 Vmath::Vvtvp(nqcol, m_derivFac[2 * dir + 1], 1, diff1, 1, output, 1,
1000 output, 1);
1001 }
1002 else
1003 {
1004 Array<OneD, NekDouble> t;
1005 for (int e = 0; e < m_numElmt; ++e)
1006 {
1007 Vmath::Smul(m_nqe, m_derivFac[2 * dir][e], diff0 + e * m_nqe, 1,
1008 t = output + e * m_nqe, 1);
1009 Vmath::Svtvp(m_nqe, m_derivFac[2 * dir + 1][e],
1010 diff1 + e * m_nqe, 1, output + e * m_nqe, 1,
1011 t = output + e * m_nqe, 1);
1012 }
1013 }
1014 }

References ASSERTL1, Blas::Dgemm(), m_Deriv0, m_Deriv1, m_derivFac, Nektar::Collections::Operator::m_isDeformed, Nektar::Collections::Operator::m_nqe, m_nquad0, m_nquad1, Nektar::Collections::Operator::m_numElmt, Nektar::Collections::Operator::m_wspSize, Vmath::Smul(), Vmath::Svtvp(), Vmath::Vmul(), and Vmath::Vvtvp().

Member Data Documentation

◆ m_coordim

int Nektar::Collections::PhysDeriv_SumFac_Quad::m_coordim
protected

Definition at line 1024 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

◆ m_Deriv0

NekDouble* Nektar::Collections::PhysDeriv_SumFac_Quad::m_Deriv0
protected

Definition at line 1028 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

◆ m_Deriv1

NekDouble* Nektar::Collections::PhysDeriv_SumFac_Quad::m_Deriv1
protected

Definition at line 1029 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

◆ m_derivFac

Array<TwoD, const NekDouble> Nektar::Collections::PhysDeriv_SumFac_Quad::m_derivFac
protected

Definition at line 1027 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

◆ m_nquad0

const int Nektar::Collections::PhysDeriv_SumFac_Quad::m_nquad0
protected

Definition at line 1025 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

◆ m_nquad1

const int Nektar::Collections::PhysDeriv_SumFac_Quad::m_nquad1
protected

Definition at line 1026 of file PhysDeriv.cpp.

Referenced by operator()(), and PhysDeriv_SumFac_Quad().

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