class QPanda::PartialAmplitudeQVM¶
Overview¶
Quantum machine for partial amplitude simulation. More…
#include <PartialAmplitudeQVM.h> class PartialAmplitudeQVM: public QPanda::QVM, private QPanda::TraversalInterface { public: // fields PartialAmplitudeGraph m_graph_backend; // methods virtual void init(); virtual std::map<std::string, bool> directlyRun(QProg& qProg); template <typename _Ty> void run(_Ty& node); qcomplex_t PMeasure_bin_index(std::string); qcomplex_t PMeasure_dec_index(std::string); stat_map PMeasure_subset(const std::vector<std::string>&); prob_dict getProbDict(const QVec&); prob_dict probRunDict( QProg& prog, const QVec& ); virtual prob_vec getProbList(const QVec&); prob_vec probRunList( QProg&, const QVec& ); void execute( std::shared_ptr<AbstractQGateNode>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractClassicalProg>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractQuantumMeasure>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractQuantumReset>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractQuantumCircuit>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractQuantumProgram>, std::shared_ptr<QNode> ); void execute( std::shared_ptr<AbstractControlFlowNode>, std::shared_ptr<QNode> ); };
Inherited Members¶
public: // methods virtual Qubit* allocateQubitThroughPhyAddress(size_t) = 0; virtual Qubit* allocateQubitThroughVirAddress(size_t) = 0; virtual void init() = 0; virtual QMachineStatus* getStatus() const = 0; virtual std::map<std::string, bool> directlyRun(QProg& qProg) = 0; virtual std::map<std::string, size_t> runWithConfiguration(QProg&, std::vector<ClassicalCondition>&, rapidjson::Document&) = 0; virtual std::map<std::string, size_t> runWithConfiguration(QProg&, std::vector<ClassicalCondition>&, int) = 0; virtual std::map<GateType, size_t> getGateTimeMap() const = 0; virtual void finalize() = 0; virtual QStat getQState() const = 0; virtual size_t getVirtualQubitAddress(Qubit*) const = 0; virtual bool swapQubitPhysicalAddress(Qubit*, Qubit*) = 0; virtual void setConfig(const Configuration&) = 0; virtual Qubit* allocateQubit() = 0; virtual QVec allocateQubits(size_t) = 0; virtual ClassicalCondition allocateCBit() = 0; virtual ClassicalCondition allocateCBit(size_t) = 0; virtual std::vector<ClassicalCondition> allocateCBits(size_t) = 0; virtual void Free_Qubit(Qubit*) = 0; virtual void Free_Qubits(QVec&) = 0; virtual void Free_CBit(ClassicalCondition&) = 0; virtual void Free_CBits(std::vector<ClassicalCondition>&) = 0; virtual size_t getAllocateQubit() = 0; virtual size_t getAllocateCMem() = 0; virtual void setConfigure(const Configuration&) = 0; virtual Qubit* qAlloc() = 0; virtual QVec qAllocMany(size_t qubit_count) = 0; virtual ClassicalCondition cAlloc() = 0; virtual ClassicalCondition cAlloc(size_t) = 0; virtual std::vector<ClassicalCondition> cAllocMany(size_t) = 0; virtual void qFree(Qubit*) = 0; virtual void qFreeAll(QVec&) = 0; virtual void cFree(ClassicalCondition&) = 0; virtual void cFreeAll(std::vector<ClassicalCondition>&) = 0; virtual size_t getAllocateQubitNum() = 0; virtual size_t getAllocateCMemNum() = 0; virtual void initState(const QStat& state = {}, const QVec& qlist = {}) = 0; virtual size_t get_allocate_qubits(QVec&) = 0; virtual size_t get_allocate_cbits(std::vector<ClassicalCondition>&) = 0; virtual double get_expectation(QProg, const QHamiltonian&, const QVec&) = 0; virtual double get_expectation(QProg, const QHamiltonian&, const QVec&, int) = 0; virtual void initState(const QStat& state = {}, const QVec& qlist = {}); virtual Qubit* allocateQubitThroughPhyAddress(size_t); virtual Qubit* allocateQubitThroughVirAddress(size_t); virtual QMachineStatus* getStatus() const; virtual QResult* getResult(); virtual std::map<std::string, bool> getResultMap(); virtual void finalize(); virtual std::map<std::string, bool> directlyRun(QProg& qProg); virtual std::map<std::string, size_t> runWithConfiguration(QProg&, std::vector<ClassicalCondition>&, rapidjson::Document&); virtual std::map<std::string, size_t> runWithConfiguration(QProg&, std::vector<ClassicalCondition>&, int); virtual std::map<std::string, size_t> runWithConfiguration(QProg&, std::vector<int>&, int); virtual std::map<GateType, size_t> getGateTimeMap() const; virtual QStat getQState() const; virtual size_t getVirtualQubitAddress(Qubit*) const; virtual bool swapQubitPhysicalAddress(Qubit*, Qubit*); virtual void set_random_engine(RandomEngine* rng); virtual void setConfig(const Configuration& config); virtual Qubit* allocateQubit(); virtual QVec allocateQubits(size_t); virtual ClassicalCondition allocateCBit(); virtual std::vector<ClassicalCondition> allocateCBits(size_t); virtual ClassicalCondition allocateCBit(size_t); virtual size_t getAllocateQubit(); virtual size_t getAllocateCMem(); virtual void Free_Qubit(Qubit*); virtual void Free_Qubits(QVec&); virtual void Free_CBit(ClassicalCondition&); virtual void Free_CBits(std::vector<ClassicalCondition>&); virtual void setConfigure(const Configuration&); virtual Qubit* qAlloc(); virtual QVec qAllocMany(size_t qubit_count); virtual ClassicalCondition cAlloc(); virtual ClassicalCondition cAlloc(size_t); virtual std::vector<ClassicalCondition> cAllocMany(size_t); virtual void qFree(Qubit*); virtual void qFreeAll(QVec&); virtual void cFree(ClassicalCondition&); virtual void cFreeAll(std::vector<ClassicalCondition>&); virtual size_t getAllocateQubitNum(); virtual size_t getAllocateCMemNum(); virtual size_t get_allocate_qubits(QVec&); virtual size_t get_allocate_cbits(std::vector<ClassicalCondition>&); virtual double get_expectation(QProg, const QHamiltonian&, const QVec&); virtual double get_expectation(QProg, const QHamiltonian&, const QVec&, int); virtual void execute( std::shared_ptr<AbstractQGateNode> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractQuantumMeasure> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractQuantumReset> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractControlFlowNode> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractQuantumCircuit> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractQuantumProgram> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args ); virtual void execute( std::shared_ptr<AbstractClassicalProg> cur_node, std::shared_ptr<QNode> parent_node, Args&&... func_args );
Detailed Documentation¶
Quantum machine for partial amplitude simulation.
See also:
Methods¶
virtual void init()
init
Returns:
void
virtual std::map<std::string, bool> directlyRun(QProg& qProg)
directlyRun
Parameters:
QProg& |
quantum program |
Returns:
std::map<std::string, bool>
qcomplex_t PMeasure_bin_index(std::string)
PMeasure by binary index.
example: PMeasure_bin_index(“0000000000”)
Parameters:
std::string |
binary index |
Returns:
qstate_type double
qcomplex_t PMeasure_dec_index(std::string)
PMeasure by decimal index.
example: PMeasure_dec_index(“1”)
Parameters:
std::string |
decimal index |
Returns:
qstate_type double
stat_map PMeasure_subset(const std::vector<std::string>&)
PMeasure_subset.
output example: <0000000110:0.000167552>
Parameters:
qubits vec |
|
std::vector<std::string> |
Returns:
prob_map std::map<std::string, qstate_type>