DAGCircuit

class qiskit.dagcircuit.DAGCircuit

기반 클래스: object

Quantum circuit as a directed acyclic graph.

There are 3 types of nodes in the graph: inputs, outputs, and operations. The nodes are connected by directed edges that correspond to qubits and bits.

Create an empty circuit.

Attributes

calibrations

Return calibration dictionary.

The custom pulse definition of a given gate is of the form

{‘gate_name’: {(qubits, params): schedule}}

global_phase

Return the global phase of the circuit.

node_counter

Returns the number of nodes in the dag.

wires

Return a list of the wires in order.

Methods

add_calibration(gate, qubits, schedule, params=None)

Register a low-level, custom pulse definition for the given gate.

매개변수:

• gate (Union[Gate, str]) – Gate information.

• qubits (Union[int, Tuple[int]]) – List of qubits to be measured.

• schedule (Schedule) – Schedule information.

• params (Optional[List[Union[float, Parameter]]]) – A list of parameters.

예외 발생:

Exception – if the gate is of type string and params is None.

add_clbits(clbits)

Add individual clbit wires.

add_creg(creg)

Add all wires in a classical register.

add_qreg(qreg)

Add all wires in a quantum register.

add_qubits(qubits)

Add individual qubit wires.

ancestors(node)

Returns set of the ancestors of a node as DAGOpNodes and DAGInNodes.

apply_operation_back(op, qargs=(), cargs=())

Apply an operation to the output of the circuit.

매개변수:

• op (qiskit.circuit.Operation) – the operation associated with the DAG node

• qargs (tuple[Qubit]) – qubits that op will be applied to

• cargs (tuple[Clbit]) – cbits that op will be applied to

반환:

the node for the op that was added to the dag

반환 형식:

DAGOpNode

예외 발생:

DAGCircuitError – if a leaf node is connected to multiple outputs

apply_operation_front(op, qargs=(), cargs=())

Apply an operation to the input of the circuit.

매개변수:

• op (qiskit.circuit.Operation) – the operation associated with the DAG node

• qargs (tuple[Qubit]) – qubits that op will be applied to

• cargs (tuple[Clbit]) – cbits that op will be applied to

반환:

the node for the op that was added to the dag

반환 형식:

DAGOpNode

예외 발생:

DAGCircuitError – if initial nodes connected to multiple out edges

bfs_successors(node)

Returns an iterator of tuples of (DAGNode, [DAGNodes]) where the DAGNode is the current node and [DAGNode] is its successors in BFS order.

classical_predecessors(node)

Returns iterator of the predecessors of a node that are connected by a classical edge as DAGOpNodes and DAGInNodes.

classical_successors(node)

Returns iterator of the successors of a node that are connected by a classical edge as DAGOpNodes and DAGInNodes.

collect_1q_runs()

Return a set of non-conditional runs of 1q “op” nodes.

collect_2q_runs()

Return a set of non-conditional runs of 2q “op” nodes.

collect_runs(namelist)

Return a set of non-conditional runs of “op” nodes with the given names.

For example, “… h q[0]; cx q[0],q[1]; cx q[0],q[1]; h q[1]; ..” would produce the tuple of cx nodes as an element of the set returned from a call to collect_runs([“cx”]). If instead the cx nodes were “cx q[0],q[1]; cx q[1],q[0];”, the method would still return the pair in a tuple. The namelist can contain names that are not in the circuit’s basis.

Nodes must have only one successor to continue the run.

compose(other, qubits=None, clbits=None, front=False, inplace=True)

Compose the other circuit onto the output of this circuit.

A subset of input wires of other are mapped to a subset of output wires of this circuit.

other can be narrower or of equal width to self.

매개변수:

• other (DAGCircuit) – circuit to compose with self

• qubits (list[Qubit|int]) – qubits of self to compose onto.

• clbits (list[Clbit|int]) – clbits of self to compose onto.

• front (bool) – If True, front composition will be performed (not implemented yet)

• inplace (bool) – If True, modify the object. Otherwise return composed circuit.

반환:

the composed dag (returns None if inplace==True).

반환 형식:

DAGCircuit

예외 발생:

DAGCircuitError – if other is wider or there are duplicate edge mappings.

copy_empty_like()

Return a copy of self with the same structure but empty.

That structure includes:

• name and other metadata

• global phase

• duration

• all the qubits and clbits, including the registers.

반환:

An empty copy of self.

반환 형식:

DAGCircuit

count_ops(*, recurse=True)

Count the occurrences of operation names.

매개변수:

recurse (bool) – if True (default), then recurse into control-flow operations. In all cases, this counts only the number of times the operation appears in any possible block; both branches of if-elses are counted, and for- and while-loop blocks are only counted once.

반환:

a mapping of operation names to the number of times it appears.

반환 형식:

Mapping[str, int]

count_ops_longest_path()

Count the occurrences of operation names on the longest path.

Returns a dictionary of counts keyed on the operation name.

depth(*, recurse=False)

Return the circuit depth. If there is control flow present, this count may only be an estimate, as the complete control-flow path cannot be statically known.

매개변수:

recurse (bool) – if True, then recurse into control-flow operations. For loops with known-length iterators are counted as if the loop had been manually unrolled (i.e. with each iteration of the loop body written out explicitly). If-else blocks take the longer case of the two branches. While loops are counted as if the loop body runs once only. Defaults to False and raises DAGCircuitError if any control flow is present, to avoid silently returning a nonsensical number.

반환:

the circuit depth

반환 형식:

int

예외 발생:

• DAGCircuitError – if not a directed acyclic graph

• DAGCircuitError – if unknown control flow is present in a recursive call, or any control flow is present in a non-recursive call.

descendants(node)

Returns set of the descendants of a node as DAGOpNodes and DAGOutNodes.

draw(scale=0.7, filename=None, style='color')

Draws the dag circuit.

This function needs pydot, which in turn needs Graphviz to be installed.

매개변수:

• scale (float) – scaling factor

• filename (str) – file path to save image to (format inferred from name)

• style (str) – ‘plain’: B&W graph; ‘color’ (default): color input/output/op nodes

반환:

if in Jupyter notebook and not saving to file, otherwise None.

반환 형식:

Ipython.display.Image

edges(nodes=None)

Iterator for edge values and source and dest node

This works by returning the output edges from the specified nodes. If no nodes are specified all edges from the graph are returned.

매개변수:

nodes (DAGOpNode, DAGInNode, or DAGOutNode|list(DAGOpNode, DAGInNode, or DAGOutNode) – Either a list of nodes or a single input node. If none is specified, all edges are returned from the graph.

생성:

edge –

the edge in the same format as out_edges the tuple

(source node, destination node, edge data)

find_bit(bit)

Finds locations in the circuit, by mapping the Qubit and Clbit to positional index BitLocations is defined as: BitLocations = namedtuple(“BitLocations”, (“index”, “registers”))

매개변수:

bit (Bit) – The bit to locate.

반환:

A 2-tuple. The first element (index)

contains the index at which the Bit can be found (in either qubits, clbits, depending on its type). The second element (registers) is a list of (register, index) pairs with an entry for each Register in the circuit which contains the Bit (and the index in the Register at which it can be found).

반환 형식:

namedtuple(int, List[Tuple(Register, int)])

Raises:

DAGCircuitError: If the supplied Bit was of an unknown type. DAGCircuitError: If the supplied Bit could not be found on the circuit.

front_layer()

Return a list of op nodes in the first layer of this dag.

gate_nodes()

Get the list of gate nodes in the dag.

반환:

the list of DAGOpNodes that represent gates.

반환 형식:

list[DAGOpNode]

has_calibration_for(node)

Return True if the dag has a calibration defined for the node operation. In this case, the operation does not need to be translated to the device basis.

idle_wires(ignore=None)

Return idle wires.

매개변수:

ignore (list(str)) – List of node names to ignore. Default: []

생성:

Bit – Bit in idle wire.

예외 발생:

DAGCircuitError – If the DAG is invalid

is_predecessor(node, node_pred)

Checks if a second node is in the predecessors of node.

is_successor(node, node_succ)

Checks if a second node is in the successors of node.

layers()

Yield a shallow view on a layer of this DAGCircuit for all d layers of this circuit.

A layer is a circuit whose gates act on disjoint qubits, i.e., a layer has depth 1. The total number of layers equals the circuit depth d. The layers are indexed from 0 to d-1 with the earliest layer at index 0. The layers are constructed using a greedy algorithm. Each returned layer is a dict containing {“graph”: circuit graph, “partition”: list of qubit lists}.

The returned layer contains new (but semantically equivalent) DAGOpNodes, DAGInNodes, and DAGOutNodes. These are not the same as nodes of the original dag, but are equivalent via DAGNode.semantic_eq(node1, node2).

TODO: Gates that use the same cbits will end up in different layers as this is currently implemented. This may not be the desired behavior.

longest_path()

Returns the longest path in the dag as a list of DAGOpNodes, DAGInNodes, and DAGOutNodes.

multi_qubit_ops()

Get list of 3+ qubit operations. Ignore directives like snapshot and barrier.

multigraph_layers()

Yield layers of the multigraph.

named_nodes(*names)

Get the set of “op” nodes with the given name.

node(node_id)

Get the node in the dag.

매개변수:

node_id (int) – Node identifier.

반환:

the node.

반환 형식:

node

nodes()

Iterator for node values.

생성:

node – the node.

nodes_on_wire(wire, only_ops=False)

Iterator for nodes that affect a given wire.

매개변수:

• wire (Bit) – the wire to be looked at.

• only_ops (bool) – True if only the ops nodes are wanted; otherwise, all nodes are returned.

생성:

Iterator – the successive nodes on the given wire

예외 발생:

DAGCircuitError – if the given wire doesn’t exist in the DAG

num_clbits()

Return the total number of classical bits used by the circuit.

num_qubits()

Return the total number of qubits used by the circuit. num_qubits() replaces former use of width(). DAGCircuit.width() now returns qubits + clbits for consistency with Circuit.width() [qiskit-terra #2564].

num_tensor_factors()

Compute how many components the circuit can decompose into.

op_nodes(op=None, include_directives=True)

Get the list of “op” nodes in the dag.

매개변수:

• op (Type) – qiskit.circuit.Operation subclass op nodes to return. If None, return all op nodes.

• include_directives (bool) – include barrier, snapshot etc.

반환:

the list of node ids containing the given op.

반환 형식:

list[DAGOpNode]

predecessors(node)

Returns iterator of the predecessors of a node as DAGOpNodes and DAGInNodes.

properties()

Return a dictionary of circuit properties.

quantum_causal_cone(qubit)

Returns causal cone of a qubit.

A qubit’s causal cone is the set of qubits that can influence the output of that qubit through interactions, whether through multi-qubit gates or operations. Knowing the causal cone of a qubit can be useful when debugging faulty circuits, as it can help identify which wire(s) may be causing the problem.

This method does not consider any classical data dependency in the DAGCircuit, classical bit wires are ignored for the purposes of building the causal cone.

매개변수:

qubit (Qubit) – The output qubit for which we want to find the causal cone.

반환:

The set of qubits whose interactions affect qubit.

반환 형식:

Set[Qubit]

quantum_predecessors(node)

Returns iterator of the predecessors of a node that are connected by a quantum edge as DAGOpNodes and DAGInNodes.

quantum_successors(node)

Returns iterator of the successors of a node that are connected by a quantum edge as Opnodes and DAGOutNodes.

remove_all_ops_named(opname)

Remove all operation nodes with the given name.

remove_ancestors_of(node)

Remove all of the ancestor operation nodes of node.

remove_clbits(*clbits)

Remove classical bits from the circuit. All bits MUST be idle. Any registers with references to at least one of the specified bits will also be removed.

매개변수:

clbits (List[Clbit]) – The bits to remove.

예외 발생:

DAGCircuitError – a clbit is not a Clbit, is not in the circuit, or is not idle.

remove_cregs(*cregs)

Remove classical registers from the circuit, leaving underlying bits in place.

예외 발생:

• DAGCircuitError – a creg is not a ClassicalRegister, or is not in

• the circuit. –

remove_descendants_of(node)

Remove all of the descendant operation nodes of node.

remove_nonancestors_of(node)

Remove all of the non-ancestors operation nodes of node.

remove_nondescendants_of(node)

Remove all of the non-descendants operation nodes of node.

remove_op_node(node)

Remove an operation node n.

Add edges from predecessors to successors.

remove_qregs(*qregs)

Remove classical registers from the circuit, leaving underlying bits in place.

예외 발생:

• DAGCircuitError – a qreg is not a QuantumRegister, or is not in

• the circuit. –

remove_qubits(*qubits)

Remove quantum bits from the circuit. All bits MUST be idle. Any registers with references to at least one of the specified bits will also be removed.

매개변수:

qubits (List[Qubit]) – The bits to remove.

예외 발생:

DAGCircuitError – a qubit is not a Qubit, is not in the circuit, or is not idle.

replace_block_with_op(node_block, op, wire_pos_map, cycle_check=True)

Replace a block of nodes with a single node.

This is used to consolidate a block of DAGOpNodes into a single operation. A typical example is a block of gates being consolidated into a single UnitaryGate representing the unitary matrix of the block.

매개변수:

• node_block (List[DAGNode]) – A list of dag nodes that represents the node block to be replaced

• op (qiskit.circuit.Operation) – The operation to replace the block with

• wire_pos_map (Dict[Bit, int]) – The dictionary mapping the bits to their positions in the output qargs or cargs. This is necessary to reconstruct the arg order over multiple gates in the combined single op node. If a Bit is not in the dictionary, it will not be added to the args; this can be useful when dealing with control-flow operations that have inherent bits in their condition or target fields.

• cycle_check (bool) – When set to True this method will check that replacing the provided node_block with a single node would introduce a cycle (which would invalidate the DAGCircuit) and will raise a DAGCircuitError if a cycle would be introduced. This checking comes with a run time penalty. If you can guarantee that your input node_block is a contiguous block and won’t introduce a cycle when it’s contracted to a single node, this can be set to False to improve the runtime performance of this method.

예외 발생:

DAGCircuitError – if cycle_check is set to True and replacing the specified block introduces a cycle or if node_block is empty.

반환:

The op node that replaces the block.

반환 형식:

DAGOpNode

reverse_ops()

Reverse the operations in the self circuit.

반환:

the reversed dag.

반환 형식:

DAGCircuit

separable_circuits(remove_idle_qubits=False)

Decompose the circuit into sets of qubits with no gates connecting them.

매개변수:

remove_idle_qubits (bool) – Flag denoting whether to remove idle qubits from the separated circuits. If False, each output circuit will contain the same number of qubits as self.

반환:

The circuits resulting from separating self into sets

of disconnected qubits

반환 형식:

List[DAGCircuit]

Each DAGCircuit instance returned by this method will contain the same number of clbits as self. The global phase information in self will not be maintained in the subcircuits returned by this method.

serial_layers()

Yield a layer for all gates of this circuit.

A serial layer is a circuit with one gate. The layers have the same structure as in layers().

size(*, recurse=False)

Return the number of operations. If there is control flow present, this count may only be an estimate, as the complete control-flow path cannot be statically known.

매개변수:

recurse (bool) – if True, then recurse into control-flow operations. For loops with known-length iterators are counted unrolled. If-else blocks sum both of the two branches. While loops are counted as if the loop body runs once only. Defaults to False and raises DAGCircuitError if any control flow is present, to avoid silently returning a mostly meaningless number.

반환:

the circuit size

반환 형식:

int

예외 발생:

DAGCircuitError – if an unknown ControlFlowOp is present in a call with recurse=True, or any control flow is present in a non-recursive call.

substitute_node(node, op, inplace=False, propagate_condition=True)

Replace an DAGOpNode with a single operation. qargs, cargs and conditions for the new operation will be inferred from the node to be replaced. The new operation will be checked to match the shape of the replaced operation.

매개변수:

• node (DAGOpNode) – Node to be replaced

• op (qiskit.circuit.Operation) – The qiskit.circuit.Operation instance to be added to the DAG

• inplace (bool) – Optional, default False. If True, existing DAG node will be modified to include op. Otherwise, a new DAG node will be used.

• propagate_condition (bool) – Optional, default True. If True, a condition on the node to be replaced will be applied to the new op. This is the legacy behaviour. If either node is a control-flow operation, this will be ignored. If the op already has a condition, DAGCircuitError is raised.

반환:

the new node containing the added operation.

반환 형식:

DAGOpNode

예외 발생:

• DAGCircuitError – If replacement operation was incompatible with

• location of target node. –

substitute_node_with_dag(node, input_dag, wires=None, propagate_condition=True)

Replace one node with dag.

매개변수:

• node (DAGOpNode) – node to substitute

• input_dag (DAGCircuit) – circuit that will substitute the node

• wires (list[Bit] | Dict[Bit, Bit]) – gives an order for (qu)bits in the input circuit. If a list, then the bits refer to those in the input_dag, and the order gets matched to the node wires by qargs first, then cargs, then conditions. If a dictionary, then a mapping of bits in the input_dag to those that the node acts on.

• propagate_condition (bool) – If True (default), then any condition attribute on the operation within node is propagated to each node in the input_dag. If False, then the input_dag is assumed to faithfully implement suitable conditional logic already. This is ignored for ControlFlowOps (i.e. treated as if it is False); replacements of those must already fulfil the same conditional logic or this function would be close to useless for them.

반환:

maps node IDs from input_dag to their new node incarnations in self.

반환 형식:

dict

예외 발생:

DAGCircuitError – if met with unexpected predecessor/successors

successors(node)

Returns iterator of the successors of a node as DAGOpNodes and DAGOutNodes.

swap_nodes(node1, node2)

Swap connected nodes e.g. due to commutation.

매개변수:

• node1 (OpNode) – predecessor node

• node2 (OpNode) – successor node

예외 발생:

DAGCircuitError – if either node is not an OpNode or nodes are not connected

topological_nodes(key=None)

Yield nodes in topological order.

매개변수:

key (Callable) – A callable which will take a DAGNode object and return a string sort key. If not specified the sort_key attribute will be used as the sort key for each node.

반환:

node in topological order

반환 형식:

generator(DAGOpNode, DAGInNode, or DAGOutNode)

topological_op_nodes(key=None)

Yield op nodes in topological order.

Allowed to pass in specific key to break ties in top order

매개변수:

key (Callable) – A callable which will take a DAGNode object and return a string sort key. If not specified the sort_key attribute will be used as the sort key for each node.

반환:

op node in topological order

반환 형식:

generator(DAGOpNode)

two_qubit_ops()

Get list of 2 qubit operations. Ignore directives like snapshot and barrier.

width()

Return the total number of qubits + clbits used by the circuit. This function formerly returned the number of qubits by the calculation return len(self._wires) - self.num_clbits() but was changed by issue #2564 to return number of qubits + clbits with the new function DAGCircuit.num_qubits replacing the former semantic of DAGCircuit.width().