Reference documentation for deal.II version 9.0.0
Public Member Functions | Static Public Member Functions | Private Attributes | List of all members
LinearAlgebra::CUDAWrappers::Vector< Number > Class Template Reference

#include <deal.II/lac/cuda_vector.h>

Inheritance diagram for LinearAlgebra::CUDAWrappers::Vector< Number >:
[legend]

Public Member Functions

 Vector ()
 
 Vector (const Vector< Number > &V)
 
 Vector (const size_type n)
 
 ~Vector ()
 
void reinit (const size_type n, const bool omit_zeroing_entries=false)
 
virtual void reinit (const VectorSpaceVector< Number > &V, const bool omit_zeroing_entries=false) override
 
virtual void import (const ReadWriteVector< Number > &V, VectorOperation::values operation, std::shared_ptr< const CommunicationPatternBase > communication_pattern=std::shared_ptr< const CommunicationPatternBase >()) override
 
virtual Vector< Number > & operator= (const Number s) override
 
virtual Vector< Number > & operator*= (const Number factor) override
 
virtual Vector< Number > & operator/= (const Number factor) override
 
virtual Vector< Number > & operator+= (const VectorSpaceVector< Number > &V) override
 
virtual Vector< Number > & operator-= (const VectorSpaceVector< Number > &V) override
 
virtual Number operator* (const VectorSpaceVector< Number > &V) const override
 
virtual void add (const Number a) override
 
virtual void add (const Number a, const VectorSpaceVector< Number > &V) override
 
virtual void add (const Number a, const VectorSpaceVector< Number > &V, const Number b, const VectorSpaceVector< Number > &W) override
 
virtual void sadd (const Number s, const Number a, const VectorSpaceVector< Number > &V) override
 
virtual void scale (const VectorSpaceVector< Number > &scaling_factors) override
 
virtual void equ (const Number a, const VectorSpaceVector< Number > &V) override
 
virtual bool all_zero () const override
 
virtual value_type mean_value () const override
 
virtual real_type l1_norm () const override
 
virtual real_type l2_norm () const override
 
virtual real_type linfty_norm () const override
 
virtual Number add_and_dot (const Number a, const VectorSpaceVector< Number > &V, const VectorSpaceVector< Number > &W) override
 
Number * get_values () const
 
virtual size_type size () const override
 
virtual ::IndexSet locally_owned_elements () const override
 
virtual void print (std::ostream &out, const unsigned int precision=2, const bool scientific=true, const bool across=true) const override
 
virtual std::size_t memory_consumption () const override
 
- Public Member Functions inherited from LinearAlgebra::VectorSpaceVector< Number >
virtual void compress (VectorOperation::values)
 
virtual ~VectorSpaceVector ()=default
 

Static Public Member Functions

static ::ExceptionBaseExcVectorTypeNotCompatible ()
 

Private Attributes

Number * val
 
size_type n_elements
 

Detailed Description

template<typename Number>
class LinearAlgebra::CUDAWrappers::Vector< Number >

This class implements a vector using CUDA for use on Nvidia GPUs. This class is derived from the LinearAlgebra::VectorSpaceVector class.

Note
Only float and double are supported.
See also
CUDAWrappers
Author
Karl Ljungkvist, Bruno Turcksin, 2016

Definition at line 50 of file cuda_vector.h.

Constructor & Destructor Documentation

◆ Vector() [1/3]

template<typename Number>
LinearAlgebra::CUDAWrappers::Vector< Number >::Vector ( )

Constructor. Create a vector of dimension zero.

◆ Vector() [2/3]

template<typename Number>
LinearAlgebra::CUDAWrappers::Vector< Number >::Vector ( const Vector< Number > &  V)

Copy constructor.

◆ Vector() [3/3]

template<typename Number>
LinearAlgebra::CUDAWrappers::Vector< Number >::Vector ( const size_type  n)
explicit

Constructor. Set dimension to n and initialize all elements with zero.

The constructor is made explicit to avoid accident like this: v=0;. Presumably, the user wants to set every elements of the vector to zero, but instead, what happens is this call: v=Vector<Number>(0);, i.e. the vector is replaced by one of length zero.

◆ ~Vector()

template<typename Number>
LinearAlgebra::CUDAWrappers::Vector< Number >::~Vector ( )

Destructor.

Member Function Documentation

◆ reinit() [1/2]

template<typename Number>
void LinearAlgebra::CUDAWrappers::Vector< Number >::reinit ( const size_type  n,
const bool  omit_zeroing_entries = false 
)

Reinit functionality. The flag omit_zeroing_entries determines whether the vector should be filled with zero (false) or left untouched (true).

◆ reinit() [2/2]

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::reinit ( const VectorSpaceVector< Number > &  V,
const bool  omit_zeroing_entries = false 
)
overridevirtual

Change the dimension to that of the vector V. The elements of V are not copied.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ import()

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::import ( const ReadWriteVector< Number > &  V,
VectorOperation::values  operation,
std::shared_ptr< const CommunicationPatternBase communication_pattern = std::shared_ptr< const CommunicationPatternBase >() 
)
overridevirtual

Import all the element from the input vector V. VectorOperation::values operation is used to decide if the elements int V should be added to the current vector or replace the current elements. The last parameter is not used. It is only used for distributed vectors. This is the function that should be used to copy a vector to the GPU.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator=()

template<typename Number>
virtual Vector<Number>& LinearAlgebra::CUDAWrappers::Vector< Number >::operator= ( const Number  s)
overridevirtual

Sets all elements of the vector to the scalar s. This operation is only allowed if s is equal to zero.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator*=()

template<typename Number>
virtual Vector<Number>& LinearAlgebra::CUDAWrappers::Vector< Number >::operator*= ( const Number  factor)
overridevirtual

Multiply the entive vector by a fixed factor.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator/=()

template<typename Number>
virtual Vector<Number>& LinearAlgebra::CUDAWrappers::Vector< Number >::operator/= ( const Number  factor)
overridevirtual

Divide the entire vector by a fixed factor.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator+=()

template<typename Number>
virtual Vector<Number>& LinearAlgebra::CUDAWrappers::Vector< Number >::operator+= ( const VectorSpaceVector< Number > &  V)
overridevirtual

Add the vector V to the present one.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator-=()

template<typename Number>
virtual Vector<Number>& LinearAlgebra::CUDAWrappers::Vector< Number >::operator-= ( const VectorSpaceVector< Number > &  V)
overridevirtual

Subtract the vector V from the present one.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ operator*()

template<typename Number>
virtual Number LinearAlgebra::CUDAWrappers::Vector< Number >::operator* ( const VectorSpaceVector< Number > &  V) const
overridevirtual

Return the scalar product of two vectors.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ add() [1/3]

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::add ( const Number  a)
overridevirtual

Add to all components. Note that a is a scalar not a vector.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ add() [2/3]

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::add ( const Number  a,
const VectorSpaceVector< Number > &  V 
)
overridevirtual

Simple addition of a multiple of a vector, i.e. *this += a*V.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ add() [3/3]

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::add ( const Number  a,
const VectorSpaceVector< Number > &  V,
const Number  b,
const VectorSpaceVector< Number > &  W 
)
overridevirtual

Multiple addition of scaled vectors, i.e. *this += a*V.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ sadd()

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::sadd ( const Number  s,
const Number  a,
const VectorSpaceVector< Number > &  V 
)
overridevirtual

Scaling and simple addition of a multiple of a vector, i.e. *this = s*(*this)+a*V

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ scale()

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::scale ( const VectorSpaceVector< Number > &  scaling_factors)
overridevirtual

Scale each element of this vector by the corresponding element in the argument. This function is mostly meant to simulate multiplication (and immediate re-assignment) by a diagonal scaling matrix.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ equ()

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::equ ( const Number  a,
const VectorSpaceVector< Number > &  V 
)
overridevirtual

Assignment *this = a*V.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ all_zero()

template<typename Number>
virtual bool LinearAlgebra::CUDAWrappers::Vector< Number >::all_zero ( ) const
overridevirtual

Return whether the vector contains only elements with value zero.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ mean_value()

template<typename Number>
virtual value_type LinearAlgebra::CUDAWrappers::Vector< Number >::mean_value ( ) const
overridevirtual

Return the mean value of all the entries of this vector.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ l1_norm()

template<typename Number>
virtual real_type LinearAlgebra::CUDAWrappers::Vector< Number >::l1_norm ( ) const
overridevirtual

Return the l1 norm of the vector (i.e., the sum of the absolute values of all entries among all processors).

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ l2_norm()

template<typename Number>
virtual real_type LinearAlgebra::CUDAWrappers::Vector< Number >::l2_norm ( ) const
overridevirtual

Return the l2 norm of the vector (i.e., the square root of the sum of the square of all entries among all processors).

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ linfty_norm()

template<typename Number>
virtual real_type LinearAlgebra::CUDAWrappers::Vector< Number >::linfty_norm ( ) const
overridevirtual

Return the maximum norm of the vector (i.e., the maximum absolute value among all entries and among all processors).

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ add_and_dot()

template<typename Number>
virtual Number LinearAlgebra::CUDAWrappers::Vector< Number >::add_and_dot ( const Number  a,
const VectorSpaceVector< Number > &  V,
const VectorSpaceVector< Number > &  W 
)
overridevirtual

Perform a combined operation of a vector addition and a subsequent inner product, returning the value of the inner product. In other words, the result of this function is the same as if the user called

this->add(a, V);
return_value = *this * W;

The reason this function exists is that this operation involves less memory transfer than calling the two functions separately. This method only needs to load three vectors, this, V, W, whereas calling separate methods means to load the calling vector this twice. Since most vector operations are memory transfer limited, this reduces the time by 25% (or 50% if W equals this).

For complex-valued vectors, the scalar product in the second step is implemented as \(\left<v,w\right>=\sum_i v_i \bar{w_i}\).

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ get_values()

template<typename Number >
Number * Vector< Number >::get_values ( ) const
inline

Return the pointer to the underlying array.

Definition at line 282 of file cuda_vector.h.

◆ size()

template<typename Number >
Vector< Number >::size_type Vector< Number >::size ( ) const
inlineoverridevirtual

Return the size of the vector.

Implements LinearAlgebra::VectorSpaceVector< Number >.

Definition at line 291 of file cuda_vector.h.

◆ locally_owned_elements()

template<typename Number >
IndexSet Vector< Number >::locally_owned_elements ( ) const
inlineoverridevirtual

Return an index set that describe which elements of this vector are owned by the current processor, i.e. [0, size).

Implements LinearAlgebra::VectorSpaceVector< Number >.

Definition at line 299 of file cuda_vector.h.

◆ print()

template<typename Number>
virtual void LinearAlgebra::CUDAWrappers::Vector< Number >::print ( std::ostream &  out,
const unsigned int  precision = 2,
const bool  scientific = true,
const bool  across = true 
) const
overridevirtual

Print the vector to the output stream out.

Implements LinearAlgebra::VectorSpaceVector< Number >.

◆ memory_consumption()

template<typename Number>
virtual std::size_t LinearAlgebra::CUDAWrappers::Vector< Number >::memory_consumption ( ) const
overridevirtual

Return the memory consumption of this class in bytes.

Implements LinearAlgebra::VectorSpaceVector< Number >.

Member Data Documentation

◆ val

template<typename Number>
Number* LinearAlgebra::CUDAWrappers::Vector< Number >::val
private

Pointer to the array of elements of this vector.

Definition at line 269 of file cuda_vector.h.

◆ n_elements

template<typename Number>
size_type LinearAlgebra::CUDAWrappers::Vector< Number >::n_elements
private

Number of elements in the vector.

Definition at line 274 of file cuda_vector.h.


The documentation for this class was generated from the following file: