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void | dgemm_ (char *, char *, int *, int *, int *, double *, double *, int *, double *, int *, double *, double *, int *) |
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void | dgetrf_ (int *, int *, double *, int *, int *, int *) |
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void | dgetrs_ (char *, int *, int *, double *, int *, int *, double *, int *, int *) |
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void | dgetri_ (int *N, double *A, int *LDA, int *IPIV, double *WORK, int *LWORK, int *INFO) |
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void | dsyevr_ (char *JOBZ, char *RANGE, char *UPLO, int *N, double *A, int *LDA, double *VL, double *VU, int *IL, int *IU, double *ABSTOL, int *M, double *W, double *Z, int *LDZ, int *ISUPPZ, double *WORK, int *LWORK, int *IWORK, int *LIWORK, int *INFO) |
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void | dsyev_ (char *JOBZ, char *UPLO, int *N, double *A, int *LDA, double *W, double *WORK, int *LWORK, int *INFO) |
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void | dsygv_ (int *ITYPE, char *JOBZ, char *UPLO, int *N, double *A, int *LDA, double *B, int *LDB, double *W, double *WORK, int *LWORK, int *INFO) |
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void | dgesvd_ (char *JOBU, char *JOBVT, int *M, int *N, double *A, int *LDA, double *S, double *U, int *LDU, double *VT, int *LDVT, double *WORK, int *LWORK, int *INFO) |
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void | dtrsm_ (char *side, char *uplo, char *transa, char *diag, int *m, int *n, double *alpha, double *a, int *lda, double *b, int *ldb) |
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void | mfem::dsyevr_Eigensystem (DenseMatrix &a, Vector &ev, DenseMatrix *evect) |
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void | mfem::dsyev_Eigensystem (DenseMatrix &a, Vector &ev, DenseMatrix *evect) |
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void | mfem::dsygv_Eigensystem (DenseMatrix &a, DenseMatrix &b, Vector &ev, DenseMatrix *evect) |
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void | mfem::Add (const DenseMatrix &A, const DenseMatrix &B, double alpha, DenseMatrix &C) |
| C = A + alpha*B. More...
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void | mfem::Add (double alpha, const double *A, double beta, const double *B, DenseMatrix &C) |
| C = alpha*A + beta*B. More...
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void | mfem::Add (double alpha, const DenseMatrix &A, double beta, const DenseMatrix &B, DenseMatrix &C) |
| C = alpha*A + beta*B. More...
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bool | mfem::LinearSolve (DenseMatrix &A, double *X, double TOL=1.e-9) |
| Solves the dense linear system, A * X = B for X More...
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void | mfem::Mult (const DenseMatrix &b, const DenseMatrix &c, DenseMatrix &a) |
| Matrix matrix multiplication. A = B * C. More...
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void | mfem::AddMult_a (double alpha, const DenseMatrix &b, const DenseMatrix &c, DenseMatrix &a) |
| Matrix matrix multiplication. A += alpha * B * C. More...
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void | mfem::AddMult (const DenseMatrix &b, const DenseMatrix &c, DenseMatrix &a) |
| Matrix matrix multiplication. A += B * C. More...
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void | mfem::CalcAdjugate (const DenseMatrix &a, DenseMatrix &adja) |
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void | mfem::CalcAdjugateTranspose (const DenseMatrix &a, DenseMatrix &adjat) |
| Calculate the transposed adjugate of a matrix (for NxN matrices, N=1,2,3) More...
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void | mfem::CalcInverse (const DenseMatrix &a, DenseMatrix &inva) |
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void | mfem::CalcInverseTranspose (const DenseMatrix &a, DenseMatrix &inva) |
| Calculate the inverse transpose of a matrix (for NxN matrices, N=1,2,3) More...
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void | mfem::CalcOrtho (const DenseMatrix &J, Vector &n) |
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void | mfem::MultAAt (const DenseMatrix &a, DenseMatrix &aat) |
| Calculate the matrix A.At. More...
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void | mfem::AddMultADAt (const DenseMatrix &A, const Vector &D, DenseMatrix &ADAt) |
| ADAt += A D A^t, where D is diagonal. More...
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void | mfem::MultADAt (const DenseMatrix &A, const Vector &D, DenseMatrix &ADAt) |
| ADAt = A D A^t, where D is diagonal. More...
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void | mfem::MultABt (const DenseMatrix &A, const DenseMatrix &B, DenseMatrix &ABt) |
| Multiply a matrix A with the transpose of a matrix B: A*Bt. More...
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void | mfem::MultADBt (const DenseMatrix &A, const Vector &D, const DenseMatrix &B, DenseMatrix &ADBt) |
| ADBt = A D B^t, where D is diagonal. More...
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void | mfem::AddMultABt (const DenseMatrix &A, const DenseMatrix &B, DenseMatrix &ABt) |
| ABt += A * B^t. More...
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void | mfem::AddMultADBt (const DenseMatrix &A, const Vector &D, const DenseMatrix &B, DenseMatrix &ADBt) |
| ADBt = A D B^t, where D is diagonal. More...
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void | mfem::AddMult_a_ABt (double a, const DenseMatrix &A, const DenseMatrix &B, DenseMatrix &ABt) |
| ABt += a * A * B^t. More...
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void | mfem::MultAtB (const DenseMatrix &A, const DenseMatrix &B, DenseMatrix &AtB) |
| Multiply the transpose of a matrix A with a matrix B: At*B. More...
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void | mfem::AddMult_a_AAt (double a, const DenseMatrix &A, DenseMatrix &AAt) |
| AAt += a * A * A^t. More...
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void | mfem::Mult_a_AAt (double a, const DenseMatrix &A, DenseMatrix &AAt) |
| AAt = a * A * A^t. More...
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void | mfem::MultVVt (const Vector &v, DenseMatrix &vvt) |
| Make a matrix from a vector V.Vt. More...
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void | mfem::MultVWt (const Vector &v, const Vector &w, DenseMatrix &VWt) |
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void | mfem::AddMultVWt (const Vector &v, const Vector &w, DenseMatrix &VWt) |
| VWt += v w^t. More...
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void | mfem::AddMultVVt (const Vector &v, DenseMatrix &VWt) |
| VVt += v v^t. More...
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void | mfem::AddMult_a_VWt (const double a, const Vector &v, const Vector &w, DenseMatrix &VWt) |
| VWt += a * v w^t. More...
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void | mfem::AddMult_a_VVt (const double a, const Vector &v, DenseMatrix &VVt) |
| VVt += a * v v^t. More...
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void | mfem::BatchLUFactor (DenseTensor &Mlu, Array< int > &P, const double TOL=0.0) |
| Compute the LU factorization of a batch of matrices. More...
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void | mfem::BatchLUSolve (const DenseTensor &Mlu, const Array< int > &P, Vector &X) |
| Solve batch linear systems. More...
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