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Stokhos_MonoProjPCEBasisImp.hpp
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41 
42 #include "Teuchos_Assert.hpp"
43 #include "Teuchos_BLAS.hpp"
44 #include "Teuchos_LAPACK.hpp"
45 #include "Teuchos_TimeMonitor.hpp"
46 #include "Teuchos_SerialDenseHelpers.hpp"
47 
48 template <typename ordinal_type, typename value_type>
49 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
50 MonoProjPCEBasis(
51  ordinal_type p,
52  const Stokhos::OrthogPolyApprox<ordinal_type, value_type>& pce,
53  const Stokhos::Quadrature<ordinal_type, value_type>& quad,
54  const Stokhos::Sparse3Tensor<ordinal_type, value_type>& Cijk,
55  bool limit_integration_order_) :
56  RecurrenceBasis<ordinal_type, value_type>("Monomial Projection", p, true),
57  limit_integration_order(limit_integration_order_),
58  pce_sz(pce.basis()->size()),
59  pce_norms(pce.basis()->norm_squared()),
60  a(pce_sz),
61  b(pce_sz),
62  basis_vecs(pce_sz, p+1),
63  new_pce(p+1)
64 {
65  // If the original basis is normalized, we can use the standard QR
66  // factorization. For simplicity, we renormalize the PCE coefficients
67  // for a normalized basis
68  Stokhos::OrthogPolyApprox<ordinal_type, value_type> normalized_pce(pce);
69  for (ordinal_type i=0; i<pce_sz; i++) {
70  pce_norms[i] = std::sqrt(pce_norms[i]);
71  normalized_pce[i] *= pce_norms[i];
72  }
73 
74  // Evaluate PCE at quad points
75  ordinal_type nqp = quad.size();
76  Teuchos::Array<value_type> pce_vals(nqp);
77  const Teuchos::Array<value_type>& weights = quad.getQuadWeights();
78  const Teuchos::Array< Teuchos::Array<value_type> >& quad_points =
79  quad.getQuadPoints();
80  const Teuchos::Array< Teuchos::Array<value_type> >& basis_values =
81  quad.getBasisAtQuadPoints();
82  for (ordinal_type i=0; i<nqp; i++) {
83  pce_vals[i] = normalized_pce.evaluate(quad_points[i], basis_values[i]);
84  }
85 
86  // Form Kylov matrix up to order pce_sz
87  matrix_type K(pce_sz, pce_sz);
88 
89  // Compute matrix
90  matrix_type A(pce_sz, pce_sz);
91  typedef Stokhos::Sparse3Tensor<ordinal_type, value_type> Cijk_type;
92  for (typename Cijk_type::k_iterator k_it = Cijk.k_begin();
93  k_it != Cijk.k_end(); ++k_it) {
94  ordinal_type k = index(k_it);
95  for (typename Cijk_type::kj_iterator j_it = Cijk.j_begin(k_it);
96  j_it != Cijk.j_end(k_it); ++j_it) {
97  ordinal_type j = index(j_it);
98  value_type val = 0;
99  for (typename Cijk_type::kji_iterator i_it = Cijk.i_begin(j_it);
100  i_it != Cijk.i_end(j_it); ++i_it) {
101  ordinal_type i = index(i_it);
102  value_type c = value(i_it) / (pce_norms[j]*pce_norms[k]);
103  val += pce[i]*c;
104  }
105  A(k,j) = val;
106  }
107  }
108 
109  // Each column i is given by projection of the i-th order monomial
110  // onto original basis
111  vector_type u0 = Teuchos::getCol(Teuchos::View, K, 0);
112  u0(0) = 1.0;
113  for (ordinal_type i=1; i<pce_sz; i++)
114  u0(i) = 0.0;
115  for (ordinal_type k=1; k<pce_sz; k++) {
116  vector_type u = Teuchos::getCol(Teuchos::View, K, k);
117  vector_type up = Teuchos::getCol(Teuchos::View, K, k-1);
118  u.multiply(Teuchos::NO_TRANS, Teuchos::NO_TRANS, 1.0, A, up, 0.0);
119  }
120  /*
121  for (ordinal_type j=0; j<pce_sz; j++) {
122  for (ordinal_type i=0; i<pce_sz; i++) {
123  value_type val = 0.0;
124  for (ordinal_type k=0; k<nqp; k++)
125  val += weights[k]*std::pow(pce_vals[k],j)*basis_values[k][i];
126  K(i,j) = val;
127  }
128  }
129  */
130 
131  std::cout << K << std::endl << std::endl;
132 
133  // Compute QR factorization of K
134  ordinal_type ws_size, info;
135  value_type ws_size_query;
136  Teuchos::Array<value_type> tau(pce_sz);
137  Teuchos::LAPACK<ordinal_type,value_type> lapack;
138  lapack.GEQRF(pce_sz, pce_sz, K.values(), K.stride(), &tau[0],
139  &ws_size_query, -1, &info);
140  TEUCHOS_TEST_FOR_EXCEPTION(info != 0, std::logic_error,
141  "GEQRF returned value " << info);
142  ws_size = static_cast<ordinal_type>(ws_size_query);
143  Teuchos::Array<value_type> work(ws_size);
144  lapack.GEQRF(pce_sz, pce_sz, K.values(), K.stride(), &tau[0],
145  &work[0], ws_size, &info);
146  TEUCHOS_TEST_FOR_EXCEPTION(info != 0, std::logic_error,
147  "GEQRF returned value " << info);
148 
149  // Get Q
150  lapack.ORGQR(pce_sz, pce_sz, pce_sz, K.values(), K.stride(), &tau[0],
151  &ws_size_query, -1, &info);
152  TEUCHOS_TEST_FOR_EXCEPTION(info != 0, std::logic_error,
153  "ORGQR returned value " << info);
154  ws_size = static_cast<ordinal_type>(ws_size_query);
155  work.resize(ws_size);
156  lapack.ORGQR(pce_sz, pce_sz, pce_sz, K.values(), K.stride(), &tau[0],
157  &work[0], ws_size, &info);
158  TEUCHOS_TEST_FOR_EXCEPTION(info != 0, std::logic_error,
159  "ORGQR returned value " << info);
160 
161  // Get basis vectors
162  for (ordinal_type j=0; j<p+1; j++)
163  for (ordinal_type i=0; i<pce_sz; i++)
164  basis_vecs(i,j) = K(i,j);
165 
166 
167  // Compute T = Q'*A*Q
168  matrix_type prod(pce_sz,pce_sz);
169  prod.multiply(Teuchos::TRANS, Teuchos::NO_TRANS, 1.0, K, A, 0.0);
170  matrix_type T(pce_sz,pce_sz);
171  T.multiply(Teuchos::NO_TRANS, Teuchos::NO_TRANS, 1.0, prod, K, 0.0);
172 
173  //std::cout << T << std::endl;
174 
175  // Recursion coefficients are diagonal and super diagonal
176  b[0] = 1.0;
177  for (ordinal_type i=0; i<pce_sz-1; i++) {
178  a[i] = T(i,i);
179  b[i+1] = T(i,i+1);
180  }
181  a[pce_sz-1] = T(pce_sz-1,pce_sz-1);
182 
183  // Setup rest of basis
184  this->setup();
185 
186  // Project original PCE into the new basis
187  vector_type u(pce_sz);
188  for (ordinal_type i=0; i<pce_sz; i++)
189  u[i] = normalized_pce[i];
190  new_pce.multiply(Teuchos::TRANS, Teuchos::NO_TRANS, 1.0, basis_vecs, u,
191  0.0);
192  for (ordinal_type i=0; i<=p; i++)
193  new_pce[i] /= this->norms[i];
194 }
195 
196 template <typename ordinal_type, typename value_type>
197 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
198 ~MonoProjPCEBasis()
199 {
200 }
201 
202 template <typename ordinal_type, typename value_type>
203 void
204 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
205 getQuadPoints(ordinal_type quad_order,
206  Teuchos::Array<value_type>& quad_points,
207  Teuchos::Array<value_type>& quad_weights,
208  Teuchos::Array< Teuchos::Array<value_type> >& quad_values) const
209 {
210 #ifdef STOKHOS_TEUCHOS_TIME_MONITOR
211  TEUCHOS_FUNC_TIME_MONITOR("Stokhos::MonoProjPCEBasis -- compute Gauss points");
212 #endif
213 
214  // Call base class
215  ordinal_type num_points =
216  static_cast<ordinal_type>(std::ceil((quad_order+1)/2.0));
217 
218  // We can't always reliably generate quadrature points of order > 2*p
219  // when using sparse grids for the underlying quadrature
220  if (limit_integration_order && quad_order > 2*this->p)
221  quad_order = 2*this->p;
222  Stokhos::RecurrenceBasis<ordinal_type,value_type>::getQuadPoints(quad_order,
223  quad_points,
224  quad_weights,
225  quad_values);
226 
227  // Fill in the rest of the points with zero weight
228  if (quad_weights.size() < num_points) {
229  ordinal_type old_size = quad_weights.size();
230  quad_weights.resize(num_points);
231  quad_points.resize(num_points);
232  quad_values.resize(num_points);
233  for (ordinal_type i=old_size; i<num_points; i++) {
234  quad_weights[i] = value_type(0);
235  quad_points[i] = quad_points[0];
236  quad_values[i].resize(this->p+1);
237  evaluateBases(quad_points[i], quad_values[i]);
238  }
239  }
240 }
241 
242 template <typename ordinal_type, typename value_type>
243 Teuchos::RCP<Stokhos::OneDOrthogPolyBasis<ordinal_type,value_type> >
244 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
245 cloneWithOrder(ordinal_type p) const
246 {
247  return Teuchos::rcp(new Stokhos::MonoProjPCEBasis<ordinal_type,value_type>(
248  p,*this));
249 }
250 
251 template <typename ordinal_type, typename value_type>
252 value_type
253 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
254 getNewCoeffs(ordinal_type i) const
255 {
256  return new_pce[i];
257 }
258 
259 template <typename ordinal_type, typename value_type>
260 void
261 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
262 transformCoeffs(const value_type *in, value_type *out) const
263 {
264  // Transform coefficients to normalized basis
265  Teuchos::BLAS<ordinal_type, value_type> blas;
266  blas.GEMV(Teuchos::NO_TRANS, pce_sz, this->p+1,
267  value_type(1.0), basis_vecs.values(), pce_sz,
268  in, ordinal_type(1), value_type(0.0), out, ordinal_type(1));
269 
270  // Transform from normalized to original
271  for (ordinal_type i=0; i<pce_sz; i++)
272  out[i] /= pce_norms[i];
273 }
274 
275 template <typename ordinal_type, typename value_type>
276 bool
277 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
278 computeRecurrenceCoefficients(ordinal_type n,
279  Teuchos::Array<value_type>& alpha,
280  Teuchos::Array<value_type>& beta,
281  Teuchos::Array<value_type>& delta,
282  Teuchos::Array<value_type>& gamma) const
283 {
284  // Get recurrence coefficients from the full set we already computed
285  for (ordinal_type i=0; i<n; i++) {
286  alpha[i] = a[i];
287  beta[i] = b[i];
288  delta[i] = value_type(1.0);
289  gamma[i] = b[i];
290 
291  std::cout << "i = " << i << " alpha = " << alpha[i] << " beta = " << beta[i]
292  << " gamma = " << gamma[i] << std::endl;
293  }
294 
295  return true;
296 }
297 
298 template <typename ordinal_type, typename value_type>
299 Stokhos::MonoProjPCEBasis<ordinal_type, value_type>::
300 MonoProjPCEBasis(ordinal_type p, const MonoProjPCEBasis& basis) :
301  RecurrenceBasis<ordinal_type, value_type>("Lanczos PCE", p, false),
302  limit_integration_order(basis.limit_integration_order),
303  pce_sz(basis.pce_sz),
304  pce_norms(basis.pce_norms),
305  a(basis.a),
306  b(basis.b),
307  basis_vecs(basis.basis_vecs),
308  new_pce(basis.new_pce)
309 {
310  this->setup();
311 }
Stokhos::MonoProjPCEBasis::MonoProjPCEBasis
MonoProjPCEBasis(ordinal_type p, const Stokhos::OrthogPolyApprox< ordinal_type, value_type > &pce, const Stokhos::Quadrature< ordinal_type, value_type > &quad, const Stokhos::Sparse3Tensor< ordinal_type, value_type > &Cijk, bool limit_integration_order=false)
Constructor.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:50
Teuchos_Assert.hpp
Teuchos::Array::size
size_type size() const
Stokhos::MonoProjPCEBasis
Generates three-term recurrence using the Lanczos procedure applied to a polynomial chaos expansion i...
Definition: Stokhos_MonoProjPCEBasis.hpp:62
Stokhos::Quadrature::getQuadWeights
virtual const Teuchos::Array< value_type > & getQuadWeights() const =0
Get quadrature weights.
Stokhos::Sparse3Tensor::i_begin
kji_iterator i_begin(const kj_iterator &j) const
Iterator pointing to first i entry for given j and k.
Definition: Stokhos_Sparse3TensorImp.hpp:383
Teuchos::Array::resize
void resize(size_type new_size, const value_type &x=value_type())
Stokhos::Sparse3Tensor::j_end
kj_iterator j_end(const k_iterator &k) const
Iterator pointing to last j entry for given k.
Definition: Stokhos_Sparse3TensorImp.hpp:347
Stokhos::MonoProjPCEBasis::getQuadPoints
virtual void getQuadPoints(ordinal_type quad_order, Teuchos::Array< value_type > &points, Teuchos::Array< value_type > &weights, Teuchos::Array< Teuchos::Array< value_type > > &values) const
Get Gauss quadrature points, weights, and values of basis at points.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:205
Teuchos::NO_TRANS
NO_TRANS
Teuchos::SerialDenseMatrix::values
ScalarType * values() const
Teuchos::LAPACK::ORGQR
void ORGQR(const OrdinalType &m, const OrdinalType &n, const OrdinalType &k, ScalarType *A, const OrdinalType &lda, const ScalarType *TAU, ScalarType *WORK, const OrdinalType &lwork, OrdinalType *info) const
TotalOrderBasisUnitTest::value_type
double value_type
Definition: Stokhos_LexicographicTreeBasisUnitTest.cpp:70
Teuchos::rcp
TEUCHOS_DEPRECATED RCP< T > rcp(T *p, Dealloc_T dealloc, bool owns_mem)
true
true
Definition: Stokhos_LanczosUnitTest.cpp:267
Teuchos::BLAS< ordinal_type, value_type >
Stokhos::Quadrature
Abstract base class for quadrature methods.
Definition: Stokhos_Quadrature.hpp:54
Stokhos::Sparse3Tensor::j_begin
kj_iterator j_begin(const k_iterator &k) const
Iterator pointing to first j entry for given k.
Definition: Stokhos_Sparse3TensorImp.hpp:335
Stokhos::Sparse3Tensor
Data structure storing a sparse 3-tensor C(i,j,k) in a a compressed format.
Definition: Stokhos_Sparse3Tensor.hpp:56
Sparse3TensorUnitTest::Cijk_type
Stokhos::Sparse3Tensor< int, double > Cijk_type
Definition: Stokhos_Sparse3TensorUnitTest.cpp:52
Teuchos_LAPACK.hpp
Teuchos_TimeMonitor.hpp
Teuchos::SerialDenseMatrix::stride
OrdinalType stride() const
Teuchos::RCP
Teuchos::Array< value_type >
val
expr val()
Teuchos::TRANS
TRANS
TotalOrderBasisUnitTest::ordinal_type
int ordinal_type
Definition: Stokhos_LexicographicTreeBasisUnitTest.cpp:69
Stokhos::MonoProjPCEBasis::computeRecurrenceCoefficients
virtual bool computeRecurrenceCoefficients(ordinal_type n, Teuchos::Array< value_type > &alpha, Teuchos::Array< value_type > &beta, Teuchos::Array< value_type > &delta, Teuchos::Array< value_type > &gamma) const
Compute recurrence coefficients.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:278
Stokhos::OrthogPolyApprox::evaluate
value_type evaluate(const Teuchos::Array< value_type > &point) const
Evaluate polynomial approximation at a point.
Definition: Stokhos_OrthogPolyApproxImp.hpp:248
Stokhos::Quadrature::getBasisAtQuadPoints
virtual const Teuchos::Array< Teuchos::Array< value_type > > & getBasisAtQuadPoints() const =0
Get values of basis at quadrature points.
Stokhos::RecurrenceBasis
Implementation of OneDOrthogPolyBasis based on the general three-term recurrence relationship:
Definition: Stokhos_RecurrenceBasis.hpp:85
Sacado::UQ::sqrt
KOKKOS_INLINE_FUNCTION PCE< Storage > sqrt(const PCE< Storage > &a)
Definition: Sacado_UQ_PCE_Imp.hpp:878
Stokhos::MonoProjPCEBasis::getNewCoeffs
value_type getNewCoeffs(ordinal_type i) const
Get new coefficients in this new basis.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:254
j
j
Definition: Sacado_Fad_Exp_MP_Vector.hpp:527
Teuchos::DefaultBLASImpl::GEMV
void GEMV(ETransp trans, const OrdinalType &m, const OrdinalType &n, const alpha_type alpha, const A_type *A, const OrdinalType &lda, const x_type *x, const OrdinalType &incx, const beta_type beta, ScalarType *y, const OrdinalType &incy) const
Stokhos::Quadrature::getQuadPoints
virtual const Teuchos::Array< Teuchos::Array< value_type > > & getQuadPoints() const =0
Get quadrature points.
Stokhos::OrthogPolyApprox< ordinal_type, value_type >
A
Teuchos::SerialDenseVector< OrdinalType, ValueType >
Teuchos_BLAS.hpp
Stokhos::MonoProjPCEBasis::cloneWithOrder
virtual Teuchos::RCP< OneDOrthogPolyBasis< ordinal_type, value_type > > cloneWithOrder(ordinal_type p) const
Clone this object with the option of building a higher order basis.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:245
Teuchos::LAPACK::GEQRF
void GEQRF(const OrdinalType &m, const OrdinalType &n, ScalarType *A, const OrdinalType &lda, ScalarType *TAU, ScalarType *WORK, const OrdinalType &lwork, OrdinalType *info) const
Stokhos::RecurrenceBasis::getQuadPoints
virtual void getQuadPoints(ordinal_type quad_order, Teuchos::Array< value_type > &points, Teuchos::Array< value_type > &weights, Teuchos::Array< Teuchos::Array< value_type > > &values) const
Compute quadrature points, weights, and values of basis polynomials at given set of points points.
Definition: Stokhos_RecurrenceBasisImp.hpp:344
Teuchos::SerialDenseMatrix< OrdinalType, ValueType >
Stokhos::MonoProjPCEBasis::~MonoProjPCEBasis
~MonoProjPCEBasis()
Destructor.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:198
TEUCHOS_FUNC_TIME_MONITOR
#define TEUCHOS_FUNC_TIME_MONITOR(FUNCNAME)
AlgebraicExpansionUnitTest::setup
UnitTestSetup< int, double > setup
Definition: Stokhos_AlgebraicExpansionUnitTest.cpp:238
Teuchos::SerialDenseMatrix::multiply
int multiply(ETransp transa, ETransp transb, ScalarType alpha, const SerialDenseMatrix< OrdinalType, ScalarType > &A, const SerialDenseMatrix< OrdinalType, ScalarType > &B, ScalarType beta)
Stokhos::Sparse3Tensor::k_begin
k_iterator k_begin() const
Iterator pointing to first k entry.
Definition: Stokhos_Sparse3TensorImp.hpp:287
Teuchos::LAPACK< ordinal_type, value_type >
Teuchos_SerialDenseHelpers.hpp
n
int n
TEUCHOS_TEST_FOR_EXCEPTION
#define TEUCHOS_TEST_FOR_EXCEPTION(throw_exception_test, Exception, msg)
Teuchos::View
View
Definition: Kokkos_View_MP_Vector_Interlaced.hpp:180
Stokhos::MonoProjPCEBasis::transformCoeffs
void transformCoeffs(const value_type *in, value_type *out) const
Map expansion coefficients from this basis to original.
Definition: Stokhos_MonoProjPCEBasisImp.hpp:262
Stokhos::Sparse3Tensor::i_end
kji_iterator i_end(const kj_iterator &j) const
Iterator pointing to last i entry for given j and k.
Definition: Stokhos_Sparse3TensorImp.hpp:395
Stokhos::Quadrature::size
virtual ordinal_type size() const =0
Get number of quadrature points.
Stokhos::Sparse3Tensor::k_end
k_iterator k_end() const
Iterator pointing to last k entry.
Definition: Stokhos_Sparse3TensorImp.hpp:299
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