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- /**
- * \file kernel.hpp
- * \author Dhairya Malhotra, dhairya.malhotra@gmail.com
- * \date 12-20-2011
- * \brief This file contains the definition of the struct Kernel and also the
- * implementation of various kernels for FMM.
- */
- #include <string>
- #include <cstdlib>
- #include <pvfmm_common.hpp>
- #include <mem_mgr.hpp>
- #include <vector.hpp>
- #include <matrix.hpp>
- #ifndef _PVFMM_FMM_KERNEL_HPP_
- #define _PVFMM_FMM_KERNEL_HPP_
- namespace pvfmm{
- template <class T>
- struct Kernel{
- public:
- /**
- * \brief Evaluate potential due to source points at target coordinates.
- * \param[in] r_src Coordinates of source points.
- * \param[in] src_cnt Number of source points.
- * \param[in] v_src Strength of source points.
- * \param[in] r_trg Coordinates of target points.
- * \param[in] trg_cnt Number of target points.
- * \param[out] k_out Output array with potential values.
- */
- typedef void (*Ker_t)(T* r_src, int src_cnt, T* v_src, int dof,
- T* r_trg, int trg_cnt, T* k_out, mem::MemoryManager* mem_mgr);
- /**
- * \brief Constructor.
- */
- Kernel(Ker_t poten, Ker_t dbl_poten, const char* name, int dim_, std::pair<int,int> k_dim,
- size_t dev_poten=(size_t)NULL, size_t dev_dbl_poten=(size_t)NULL);
- /**
- * \brief Initialize the kernel.
- */
- void Initialize(bool verbose=false) const;
- /**
- * \brief Compute the transformation matrix (on the source strength vector)
- * to get potential at target coordinates due to sources at the given
- * coordinates.
- * \param[in] r_src Coordinates of source points.
- * \param[in] src_cnt Number of source points.
- * \param[in] r_trg Coordinates of target points.
- * \param[in] trg_cnt Number of target points.
- * \param[out] k_out Output array with potential values.
- */
- void BuildMatrix(T* r_src, int src_cnt,
- T* r_trg, int trg_cnt, T* k_out) const;
- int dim;
- int ker_dim[2];
- std::string ker_name;
- Ker_t ker_poten;
- Ker_t dbl_layer_poten;
- size_t dev_ker_poten;
- size_t dev_dbl_layer_poten;
- mutable bool init;
- mutable bool scale_invar;
- mutable Vector<T> src_scal;
- mutable Vector<T> trg_scal;
- mutable Vector<Permutation<T> > perm_vec;
- mutable const Kernel<T>* k_s2m;
- mutable const Kernel<T>* k_s2l;
- mutable const Kernel<T>* k_s2t;
- mutable const Kernel<T>* k_m2m;
- mutable const Kernel<T>* k_m2l;
- mutable const Kernel<T>* k_m2t;
- mutable const Kernel<T>* k_l2l;
- mutable const Kernel<T>* k_l2t;
- private:
- Kernel();
- };
- template<typename T, void (*A)(T*, int, T*, int, T*, int, T*, mem::MemoryManager* mem_mgr),
- void (*B)(T*, int, T*, int, T*, int, T*, mem::MemoryManager* mem_mgr)>
- Kernel<T> BuildKernel(const char* name, int dim, std::pair<int,int> k_dim,
- const Kernel<T>* k_s2m=NULL, const Kernel<T>* k_s2l=NULL, const Kernel<T>* k_s2t=NULL,
- const Kernel<T>* k_m2m=NULL, const Kernel<T>* k_m2l=NULL, const Kernel<T>* k_m2t=NULL,
- const Kernel<T>* k_l2l=NULL, const Kernel<T>* k_l2t=NULL){
- size_t dev_ker_poten ;
- size_t dev_dbl_layer_poten;
- #ifdef __INTEL_OFFLOAD
- #pragma offload target(mic:0)
- #endif
- {
- dev_ker_poten =(size_t)((typename Kernel<T>::Ker_t)A);
- dev_dbl_layer_poten=(size_t)((typename Kernel<T>::Ker_t)B);
- }
- Kernel<T> K(A, B, name, dim, k_dim,
- dev_ker_poten, dev_dbl_layer_poten);
- K.k_s2m=k_s2m;
- K.k_s2l=k_s2l;
- K.k_s2t=k_s2t;
- K.k_m2m=k_m2m;
- K.k_m2l=k_m2l;
- K.k_m2t=k_m2t;
- K.k_l2l=k_l2l;
- K.k_l2t=k_l2t;
- return K;
- }
- template<typename T, void (*A)(T*, int, T*, int, T*, int, T*, mem::MemoryManager* mem_mgr)>
- Kernel<T> BuildKernel(const char* name, int dim, std::pair<int,int> k_dim,
- const Kernel<T>* k_s2m=NULL, const Kernel<T>* k_s2l=NULL, const Kernel<T>* k_s2t=NULL,
- const Kernel<T>* k_m2m=NULL, const Kernel<T>* k_m2l=NULL, const Kernel<T>* k_m2t=NULL,
- const Kernel<T>* k_l2l=NULL, const Kernel<T>* k_l2t=NULL){
- size_t dev_ker_poten ;
- #ifdef __INTEL_OFFLOAD
- #pragma offload target(mic:0)
- #endif
- {
- dev_ker_poten =(size_t)((typename Kernel<T>::Ker_t)A);
- }
- Kernel<T> K(A, NULL, name, dim, k_dim,
- dev_ker_poten, (size_t)NULL);
- K.k_s2m=k_s2m;
- K.k_s2l=k_s2l;
- K.k_s2t=k_s2t;
- K.k_m2m=k_m2m;
- K.k_m2l=k_m2l;
- K.k_m2t=k_m2t;
- K.k_l2l=k_l2l;
- K.k_l2t=k_l2t;
- return K;
- }
- }//end namespace
- #ifdef __INTEL_OFFLOAD
- #pragma offload_attribute(push,target(mic))
- #endif
- namespace pvfmm{ // Predefined Kernel-functions
- template<class T>
- struct LaplaceKernel{
- inline static const Kernel<T>& potential();
- inline static const Kernel<T>& gradient();
- };
- template<class T>
- struct StokesKernel{
- inline static const Kernel<T>& velocity();
- inline static const Kernel<T>& pressure();
- inline static const Kernel<T>& stress ();
- inline static const Kernel<T>& vel_grad();
- };
- template<class T>
- struct BiotSavartKernel{
- inline static const Kernel<T>& potential();
- };
- template<class T>
- struct HelmholtzKernel{
- inline static const Kernel<T>& potential();
- };
- }//end namespace
- #ifdef __INTEL_OFFLOAD
- #pragma offload_attribute(pop)
- #endif
- #include <kernel.txx>
- #endif //_PVFMM_FMM_KERNEL_HPP_
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