class ov::pass::GRUCellDecomposition¶
Overview¶
GRUCellDecomposition transformation decomposes GRUCell layer with inputs X, H, W, R, B to Add, Split, MatMul, Multiply and Subtract ops according to the formula: (.) - Denotes element-wise multiplication. More…
#include <gru_cell_decomposition.hpp>
class GRUCellDecomposition: public ov::pass::MatcherPass
{
public:
// methods
OPENVINO_RTTI("GRUCellDecomposition", "0");
};
Inherited Members¶
public:
// typedefs
typedef DiscreteTypeInfo type_info_t;
// methods
bool get_property(const PassPropertyMask& prop_mask) const;
void set_name(const std::string& name);
std::string get_name() const;
void set_callback(const param_callback& callback);
virtual void set_pass_config(const std::shared_ptr<PassConfig>& pass_config);
std::shared_ptr<PassConfig> get_pass_config();
bool m_transformation_callback(const std::shared_ptr<const Node>& node);
bool transformation_callback(const std::shared_ptr<const Node>& node);
virtual const type_info_t& get_type_info() const = 0;
OPENVINO_RTTI("ov::pass::MatcherPass");
MatcherPass& operator = (const MatcherPass&);
bool apply(std::shared_ptr<ov::Node> node);
template <typename T, class... Args>
std::shared_ptr<T> register_new_node(Args&&... args);
template <typename T>
std::shared_ptr<T> register_new_node(const std::shared_ptr<T>& node);
std::shared_ptr<ov::Node> register_new_node_(const std::shared_ptr<ov::Node>& node);
const std::vector<std::shared_ptr<ov::Node>>& get_new_nodes();
void clear_new_nodes();
std::shared_ptr<pattern::Matcher> get_matcher();
Detailed Documentation¶
GRUCellDecomposition transformation decomposes GRUCell layer with inputs X, H, W, R, B to Add, Split, MatMul, Multiply and Subtract ops according to the formula: (.) - Denotes element-wise multiplication.
Denotes dot product. f, g - are activation functions
zt = f(Xt*(Wz^T) + Ht-1*(Rz^T) + Wbz + Rbz) rt = f(Xt*(Wr^T) + Ht-1*(Rr^T) + Wbr + Rbr) ht = g(Xt*(Wh^T) + (rt (.) Ht-1)*(Rh^T) + Rbh + Wbh) # when linear_before_reset := false # (default) ht = g(Xt*(Wh^T) + (rt (.) (Ht-1*(Rh^T) + Rbh)) + Wbh) # when linear_before_reset:= true Ht = (1 - zt) (.) ht + zt (.) Ht-1