Qid (reference) in projects: dports - OpenGrok search results

Project(s)

Full Search
Definition
Symbol
File Path
History
Type

Searched refs:Qid (Results 1 – 25 of 1161) sorted by relevance

12 3 4 5 6 7 8 9 10 >>...47

/dports/science/py-OpenFermion/OpenFermion-1.3.0/src/openfermion/circuits/trotter/algorithms/
H A D	split_operator.py	`76 qubits: Sequence[cirq.Qid], argument 115 qubits: Sequence[cirq.Qid], argument 117 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 122 qubits: Sequence[cirq.Qid], argument 181 qubits: Sequence[cirq.Qid], argument 183 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 188 qubits: Sequence[cirq.Qid], argument 230 qubits: Sequence[cirq.Qid], argument 232 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 283 qubits: Sequence[cirq.Qid], argument [all …]`
H A D	linear_swap_network.py	`60 qubits: Sequence[cirq.Qid], argument 100 qubits: Sequence[cirq.Qid], argument 105 if not isinstance(control_qubit, cirq.Qid): 148 qubits: Sequence[cirq.Qid], argument 169 qubits: Sequence[cirq.Qid], argument 171 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 176 qubits: Sequence[cirq.Qid], argument 188 qubits: Sequence[cirq.Qid], argument 218 qubits: Sequence[cirq.Qid], argument 220 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: [all …]`
H A D	low_rank.py	`140 qubits: Sequence[cirq.Qid], argument 188 qubits: Sequence[cirq.Qid], argument 189 control_qubit: Optional[cirq.Qid] = None argument 190 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 199 qubits: Sequence[cirq.Qid], argument 212 qubits: Sequence[cirq.Qid], argument 216 if not isinstance(control_qubit, cirq.Qid): 266 qubits: Sequence[cirq.Qid], argument 267 control_qubit: Optional[cirq.Qid] = None argument 268 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: [all …]`
/dports/biology/mummer/mummer-4.0.0beta2-2-g277dac5/scripts/
H A D	nucmer2xfig.pl	`32 if ($right_end{$Qid} - $left_end{$Qid} > 1000) { 35 print_xfig_line($left_end{$Qid},50,$right_end{$Qid},50,$contigcolor); 36 print_label($left_end{$Qid},50,$right_end{$Qid},$Qid,5); 42 if ($s1 < $left_end{$Qid}) { $left_end{$Qid} = $s1; } 43 if ($e1 > $right_end{$Qid}) { $right_end{$Qid} = $e1; } 47 $left_end{$Qid} = $s1; 48 $right_end{$Qid} = $e1; 56 $prevQid = $Qid; 68 $left_end{$Qid} = $s1; 69 $right_end{$Qid} = $e1; [all …]`
/dports/science/libkml/libkml-1.3.0/tests/kml/regionator/
H A D	regionator_qid_test.cc	`37 root_ = Qid::CreateRoot(); in SetUp() 40 Qid root_; 51 Qid nw = root_.CreateChild(NW); in TEST_F() 52 Qid ne = root_.CreateChild(NE); in TEST_F() 53 Qid sw = root_.CreateChild(SW); in TEST_F() 54 Qid se = root_.CreateChild(SE); in TEST_F() 66 Qid nw = root_.CreateChild(NW); in TEST_F() 67 Qid se = root_.CreateChild(SE); in TEST_F() 75 Qid q0123("q0123"); in TEST_F() 80 Qid deep("q01233211231231231231"); in TEST_F() [all …]`
/dports/science/py-OpenFermion/OpenFermion-1.3.0/src/openfermion/circuits/trotter/
H A D	trotter_algorithm.py	`49 qubits: Sequence[cirq.Qid], argument 50 control_qubit: Optional[cirq.Qid] = None) -> cirq.OP_TREE: argument 65 qubits: Sequence[cirq.Qid], argument 67 control_qubit: Optional[cirq.Qid] = None) -> cirq.OP_TREE: argument 79 qubits: Sequence[cirq.Qid], argument 80 control_qubit: Optional[cirq.Qid] = None argument 81 ) -> Tuple[Sequence[cirq.Qid], Optional[cirq.Qid]]: 92 qubits: Sequence[cirq.Qid], argument 94 control_qubit: Optional[cirq.Qid] = None, argument`
/dports/lang/swi-pl/swipl-8.2.3/packages/odbc/demo/
H A D	wordnet.pl	`17 qid(word(+, -), Qid), 19 odbc_execute(Qid, [Id], row(Word)). 22 qid(word(-, +), Qid), 24 odbc_execute(Qid, [Word], row(Id)). 38 Qid), 39 assert(qid(word(+, -), Qid)), 48 Qid, 51 assert(qid(word(-, +), Qid)), 64 Qid), 65 odbc_execute(Qid, [Id], row(Word)), [all …]`
/dports/lang/maude/maude-2.7.1/tests/Meta/
H A D	metaUp.expected	140 eq '_in_['E:Qid,'_;_['E:Qid,'S:QidSet]] = 'true.Bool [none] . 148 eq '_subset_['_;_['E:Qid,'S:QidSet],'S':QidSet] = '_and-then_['_in_['E:Qid, 152 eq '`[_`]['Q:Qid] = 'th_is_sorts_._____endth['Q:Qid,'including_.['Q:Qid], 158 eq 'delete['E:Qid,'_;_['E:Qid,'S:QidSet]] = 'delete['E:Qid,'S:QidSet] [none] . 209 'Q:Qid [none] . 215 'Q:Qid [none] . 306 eq 'head['__['E:Qid,'L:QidList]] = 'E:Qid [none] . 307 eq 'insert['E:Qid,'S:QidSet] = '_;_['E:Qid,'S:QidSet] [none] . 312 eq 'last['__['L:QidList,'E:Qid]] = 'E:Qid [none] . 321 eq 'occurs['E:Qid,'__['E':Qid,'L:QidList]] = 'if_then_else_fi['_==_['E:Qid, [all …]
/dports/science/libkml/libkml-1.3.0/src/kml/regionator/
H A D	regionator_qid.h	`48 class Qid { 50 Qid() {} in Qid() function 51 Qid(const string& qid) : qid_(qid) {} in Qid() function 52 static Qid CreateRoot() { in CreateRoot() 53 return Qid(kRootName); in CreateRoot() 55 Qid CreateChild(quadrant_t quadrant) const { in CreateChild() 58 return Qid(qid_ + ss.str()); in CreateChild()`
/dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-google/cirq_google/calibration/
H A D	phased_fsim.py	72 ) -> Tuple[Tuple[Tuple[cirq.Qid, cirq.Qid], ...], cirq.Gate]: 81 pairs: List[Tuple[cirq.Qid, cirq.Qid]] = [] 217 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 405 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...] 412 def qubit_to_pair(self) -> MutableMapping[cirq.Qid, Tuple[cirq.Qid, cirq.Qid]]: 485 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 537 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 727 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 844 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 903 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument [all …]
/dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-google/cirq_google/calibration/
H A D	phased_fsim.py	72 ) -> Tuple[Tuple[Tuple[cirq.Qid, cirq.Qid], ...], cirq.Gate]: 81 pairs: List[Tuple[cirq.Qid, cirq.Qid]] = [] 217 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 408 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...] 415 def qubit_to_pair(self) -> MutableMapping[cirq.Qid, Tuple[cirq.Qid, cirq.Qid]]: 488 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 540 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 730 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 847 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 906 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument [all …]
/dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-google/cirq_google/calibration/
H A D	phased_fsim.py	72 ) -> Tuple[Tuple[Tuple[cirq.Qid, cirq.Qid], ...], cirq.Gate]: 81 pairs: List[Tuple[cirq.Qid, cirq.Qid]] = [] 217 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 408 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...] 415 def qubit_to_pair(self) -> MutableMapping[cirq.Qid, Tuple[cirq.Qid, cirq.Qid]]: 488 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 540 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 730 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 847 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 906 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument [all …]
/dports/science/py-cirq-core/Cirq-0.13.1/cirq-google/cirq_google/calibration/
H A D	phased_fsim.py	72 ) -> Tuple[Tuple[Tuple[cirq.Qid, cirq.Qid], ...], cirq.Gate]: 81 pairs: List[Tuple[cirq.Qid, cirq.Qid]] = [] 217 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 408 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...] 415 def qubit_to_pair(self) -> MutableMapping[cirq.Qid, Tuple[cirq.Qid, cirq.Qid]]: 488 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 540 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 730 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 847 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 906 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument [all …]
/dports/science/py-cirq-google/Cirq-0.13.0/cirq-google/cirq_google/calibration/
H A D	phased_fsim.py	72 ) -> Tuple[Tuple[Tuple[cirq.Qid, cirq.Qid], ...], cirq.Gate]: 81 pairs: List[Tuple[cirq.Qid, cirq.Qid]] = [] 217 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 408 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...] 415 def qubit_to_pair(self) -> MutableMapping[cirq.Qid, Tuple[cirq.Qid, cirq.Qid]]: 488 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 540 pairs: Tuple[Tuple[cirq.Qid, cirq.Qid], ...], argument 730 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 847 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument 906 pairs: List[Tuple[cirq.Qid, cirq.Qid]], argument [all …]
/dports/sysutils/edk2/edk2-platforms-89f6170d/Silicon/Broadcom/Drivers/Net/BcmGenetDxe/
H A D	GenetUtil.c	542 UINT8 Qid; in GenetDmaInitRings() local 544 Qid = GENET_DMA_DEFAULT_QUEUE; in GenetDmaInitRings() 558 GenetMmioWrite (Genet, GENET_TX_DMA_CONS_INDEX (Qid), 0); in GenetDmaInitRings() 559 GenetMmioWrite (Genet, GENET_TX_DMA_PROD_INDEX (Qid), 0); in GenetDmaInitRings() 560 GenetMmioWrite (Genet, GENET_TX_DMA_RING_BUF_SIZE (Qid), in GenetDmaInitRings() 565 GenetMmioWrite (Genet, GENET_TX_DMA_END_ADDR_LO (Qid), in GenetDmaInitRings() 580 GenetMmioWrite (Genet, GENET_RX_DMA_PROD_INDEX (Qid), 0); in GenetDmaInitRings() 581 GenetMmioWrite (Genet, GENET_RX_DMA_CONS_INDEX (Qid), 0); in GenetDmaInitRings() 582 GenetMmioWrite (Genet, GENET_RX_DMA_RING_BUF_SIZE (Qid), in GenetDmaInitRings() 587 GenetMmioWrite (Genet, GENET_RX_DMA_END_ADDR_LO (Qid), in GenetDmaInitRings() [all …]
/dports/science/py-cirq-core/Cirq-0.13.1/cirq-core/cirq/contrib/quimb/
H A D	density_matrix.py	12 def _qpos_tag(qubits: Union[cirq.Qid, Tuple[cirq.Qid]]): argument 17 if isinstance(qubits, cirq.Qid): 25 qubits: Union[cirq.Qid, Tuple[cirq.Qid, ...]], all_qubits: Tuple[cirq.Qid, ...] argument 37 if isinstance(qubits, cirq.Qid): 48 qubits: Union[cirq.Qid, Tuple[cirq.Qid]], argument 50 all_qubits: Tuple[cirq.Qid, ...], argument 80 circuit: cirq.Circuit, qubits: Optional[Sequence[cirq.Qid]] = None argument 111 qubit_frontier: Dict[cirq.Qid, int] = {q: 0 for q in qubits} 199 circuit: cirq.Circuit, qubits: Optional[List[cirq.Qid]] = None argument
/dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-core/cirq/contrib/quimb/
H A D	density_matrix.py	12 def _qpos_tag(qubits: Union[cirq.Qid, Tuple[cirq.Qid]]): argument 17 if isinstance(qubits, cirq.Qid): 25 qubits: Union[cirq.Qid, Tuple[cirq.Qid, ...]], all_qubits: Tuple[cirq.Qid, ...] argument 37 if isinstance(qubits, cirq.Qid): 48 qubits: Union[cirq.Qid, Tuple[cirq.Qid]], argument 50 all_qubits: Tuple[cirq.Qid, ...], argument 80 circuit: cirq.Circuit, qubits: Optional[Sequence[cirq.Qid]] = None argument 111 qubit_frontier: Dict[cirq.Qid, int] = {q: 0 for q in qubits} 199 circuit: cirq.Circuit, qubits: Optional[List[cirq.Qid]] = None argument
/dports/science/py-cirq-google/Cirq-0.13.0/cirq-core/cirq/contrib/quimb/
H A D	density_matrix.py	12 def _qpos_tag(qubits: Union[cirq.Qid, Tuple[cirq.Qid]]): argument 17 if isinstance(qubits, cirq.Qid): 25 qubits: Union[cirq.Qid, Tuple[cirq.Qid, ...]], all_qubits: Tuple[cirq.Qid, ...] argument 37 if isinstance(qubits, cirq.Qid): 48 qubits: Union[cirq.Qid, Tuple[cirq.Qid]], argument 50 all_qubits: Tuple[cirq.Qid, ...], argument 80 circuit: cirq.Circuit, qubits: Optional[Sequence[cirq.Qid]] = None argument 111 qubit_frontier: Dict[cirq.Qid, int] = {q: 0 for q in qubits} 199 circuit: cirq.Circuit, qubits: Optional[List[cirq.Qid]] = None argument
/dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-core/cirq/contrib/quimb/
H A D	density_matrix.py	12 def _qpos_tag(qubits: Union[cirq.Qid, Tuple[cirq.Qid]]): argument 17 if isinstance(qubits, cirq.Qid): 25 qubits: Union[cirq.Qid, Tuple[cirq.Qid, ...]], all_qubits: Tuple[cirq.Qid, ...] argument 37 if isinstance(qubits, cirq.Qid): 48 qubits: Union[cirq.Qid, Tuple[cirq.Qid]], argument 50 all_qubits: Tuple[cirq.Qid, ...], argument 80 circuit: cirq.Circuit, qubits: Optional[Sequence[cirq.Qid]] = None argument 111 qubit_frontier: Dict[cirq.Qid, int] = {q: 0 for q in qubits} 199 circuit: cirq.Circuit, qubits: Optional[List[cirq.Qid]] = None argument
/dports/lang/gcc48/gcc-4.8.5/libgo/go/syscall/
H A D	dir_plan9.go	`17 type Qid struct { struct 30 Qid Qid // unique id from server member 44 Qid: Qid{ 71 b = pbit8(b, d.Qid.Type) 72 b = pbit32(b, d.Qid.Vers) 73 b = pbit64(b, d.Qid.Path) 104 d.Qid.Type, b = gbit8(b) 105 d.Qid.Vers, b = gbit32(b) 106 d.Qid.Path, b = gbit64(b)`
/dports/devel/arm-none-eabi-gcc492/gcc-4.9.2/libgo/go/syscall/
H A D	dir_plan9.go	`17 type Qid struct { struct 30 Qid Qid // unique id from server member 44 Qid: Qid{ 71 b = pbit8(b, d.Qid.Type) 72 b = pbit32(b, d.Qid.Vers) 73 b = pbit64(b, d.Qid.Path) 104 d.Qid.Type, b = gbit8(b) 105 d.Qid.Vers, b = gbit32(b) 106 d.Qid.Path, b = gbit64(b)`
/dports/devel/mingw32-gcc/gcc-4.8.1/libgo/go/syscall/
H A D	dir_plan9.go	`17 type Qid struct { struct 30 Qid Qid // unique id from server member 44 Qid: Qid{ 71 b = pbit64(b, d.Qid.Path) 72 b = pbit32(b, d.Qid.Vers) 73 b = pbit8(b, d.Qid.Type) 104 d.Qid.Path, b = gbit64(b) 105 d.Qid.Vers, b = gbit32(b) 106 d.Qid.Type, b = gbit8(b)`
/dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-google/cirq_google/optimizers/
H A D	convert_to_sycamore_gates.py	177 qubit_a: cirq.Qid, argument 178 qubit_b: cirq.Qid, argument 236 phase_exponent: float, a: cirq.Qid, b: cirq.Qid argument 262 theta: float, a: cirq.Qid, b: cirq.Qid argument 335 qubit_a: cirq.Qid, qubit_b: cirq.Qid, op: cirq.Operation argument 361 def decompose_cz_into_syc(a: cirq.Qid, b: cirq.Qid): argument 376 def decompose_iswap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 395 def decompose_swap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 475 def rzz(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument 504 def cphase(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument [all …]
/dports/science/py-cirq-core/Cirq-0.13.1/cirq-google/cirq_google/optimizers/
H A D	convert_to_sycamore_gates.py	187 qubit_a: cirq.Qid, argument 188 qubit_b: cirq.Qid, argument 247 phase_exponent: float, a: cirq.Qid, b: cirq.Qid argument 273 theta: float, a: cirq.Qid, b: cirq.Qid argument 346 qubit_a: cirq.Qid, qubit_b: cirq.Qid, op: cirq.Operation argument 372 def decompose_cz_into_syc(a: cirq.Qid, b: cirq.Qid): argument 387 def decompose_iswap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 406 def decompose_swap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 486 def rzz(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument 515 def cphase(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument [all …]
/dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-google/cirq_google/optimizers/
H A D	convert_to_sycamore_gates.py	187 qubit_a: cirq.Qid, argument 188 qubit_b: cirq.Qid, argument 247 phase_exponent: float, a: cirq.Qid, b: cirq.Qid argument 273 theta: float, a: cirq.Qid, b: cirq.Qid argument 346 qubit_a: cirq.Qid, qubit_b: cirq.Qid, op: cirq.Operation argument 372 def decompose_cz_into_syc(a: cirq.Qid, b: cirq.Qid): argument 387 def decompose_iswap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 406 def decompose_swap_into_syc(a: cirq.Qid, b: cirq.Qid): argument 486 def rzz(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument 515 def cphase(theta: float, q0: cirq.Qid, q1: cirq.Qid) -> cirq.OP_TREE: argument [all …]

12 3 4 5 6 7 8 9 10 >>...47