Datasets:
tm0012-QCB
/
QCoderBenchmark

Dataset card Data Studio Files
xet
 Community
1
problem
stringclasses
67 values
user
stringlengths
13
13
submission_order
int64
1
57
result
stringclasses
10 values
execution_time
stringlengths
0
8
memory
stringclasses
88 values
code
stringlengths
47
7.62k
QPC002_B1
A1014557B5B0B
1
WA
1161 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.ry(theta, 0) qc.x(0) return qc '''
QPC002_B1
A1014557B5B0B
2
AC
1928 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta, 0) qc.x(0) return qc '''
QPC002_B1
A1093D7E7DBC0
1
RE
1853 ms
141 MiB
'''python from qiskit import QuantumCircuit from qiskit.circuit.library import GlobalPhaseGate def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.append(GlobalPhaseGate(theta),range(1)) return qc '''
QPC002_B1
A1093D7E7DBC0
2
AC
2046 ms
142 MiB
'''python from qiskit import QuantumCircuit from qiskit.circuit.library import GlobalPhaseGate def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.append(GlobalPhaseGate(theta)) return qc '''
QPC002_B1
A131F05C78A13
1
WA
1174 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(2*theta, 0) return qc '''
QPC002_B1
A131F05C78A13
2
WA
1043 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(2*theta, 0) return qc '''
QPC002_B1
A131F05C78A13
3
WA
1058 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.u(0, 0, theta, 0) return qc '''
QPC002_B1
A131F05C78A13
4
WA
1107 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.u(0, 0, 2*theta, 0) return qc '''
QPC002_B1
A131F05C78A13
5
WA
1245 ms
141 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.u(2*theta, 0, 0, 0) return qc '''
QPC002_B1
A131F05C78A13
6
WA
1044 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.rz(2 * theta, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
7
WA
1568 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.rz(theta, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
8
WA
1237 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.u(2*theta, 0, 0, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
9
WA
1399 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.rx(2*theta, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
10
WA
1137 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.rz(theta, 0) return qc '''
QPC002_B1
A131F05C78A13
11
WA
1055 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.ry(theta, 0) return qc '''
QPC002_B1
A131F05C78A13
12
WA
1056 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.r(2*theta, 0, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
13
WA
1284 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.y(0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ return qc '''
QPC002_B1
A131F05C78A13
14
WA
1013 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.y(0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ qc.x(0) return qc '''
QPC002_B1
A131F05C78A13
15
AC
1621 ms
140 MiB
'''python from qiskit import QuantumCircuit, QuantumRegister import qiskit.circuit.library as qlib import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # 1้‡ๅญใƒ“ใƒƒใƒˆใฎ้‡ๅญๅ›ž่ทฏใ‚’ไฝœๆˆ qc.x(0) qc.p(theta, 0) # ไฝ็›ธใ‚’่ฟฝๅŠ ใ™ใ‚‹ qc.x(0) return qc '''
QPC002_B1
A17E5A1A3CD3A
1
RE
1122 ms
140 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(math.pi/2.0) return qc '''
QPC002_B1
A17E5A1A3CD3A
2
WA
1098 ms
141 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(math.pi/2.0, 0) return qc '''
QPC002_B1
A17E5A1A3CD3A
3
WA
1061 ms
140 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(theta, 0) return qc '''
QPC002_B1
A17E5A1A3CD3A
4
WA
1043 ms
139 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(theta, 0) return qc '''
QPC002_B1
A17E5A1A3CD3A
5
WA
1032 ms
140 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) return qc '''
QPC002_B1
A1F44C6438335
1
WA
1557 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) qc.x(0) return qc '''
QPC002_B1
A1F44C6438335
2
WA
1239 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) return qc '''
QPC002_B1
A1F44C6438335
3
WA
1032 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta*2, 0) return qc '''
QPC002_B1
A1F44C6438335
4
AC
1605 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta*-2, 0) return qc '''
QPC002_B1
A1F4E5B9C4D6C
1
WA
1057 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta,0) return qc '''
QPC002_B1
A1F8EA4EF042F
1
WA
1192 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
2
WA
1040 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
3
WA
1607 ms
140 MiB
'''python from qiskit import QuantumCircuit import math def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta/(2*math.pi)*360, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
4
WA
1520 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-theta/(2*np.pi)*360, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
5
WA
1236 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta/(2*np.pi)*360, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
6
WA
1060 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
7
WA
1247 ms
141 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
8
WA
1133 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
9
WA
1487 ms
141 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(2*theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
10
WA
1037 ms
142 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(2*theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
11
RE
1061 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.r(-2*theta, 0) return qc '''
QPC002_B1
A1F8EA4EF042F
12
AC
1424 ms
140 MiB
'''python from qiskit import QuantumCircuit import numpy as np def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-2*theta, 0) return qc '''
QPC002_B1
A20D23332A815
1
RE
1120 ms
139 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.u1(theta,0) return qc '''
QPC002_B1
A20D23332A815
2
WA
1112 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta,0) return qc '''
QPC002_B1
A20D23332A815
3
WA
1072 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.u(0, 0, theta, 0) return qc '''
QPC002_B1
A21DB699D9994
1
WA
1005 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta,0) return qc '''
QPC002_B1
A21DB699D9994
2
WA
1087 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(theta,0) return qc '''
QPC002_B1
A21DB699D9994
3
WA
1399 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(theta,0) return qc '''
QPC002_B1
A21DB699D9994
4
RE
1088 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.GlobalPhaseGate(0) qc.ry(theta,0) return qc '''
QPC002_B1
A21DB699D9994
5
RE
1087 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1,'q',0) # Write your code here: qc.ry(theta,0) return qc '''
QPC002_B1
A21DB699D9994
6
WA
1085 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1,0) # Write your code here: qc.ry(theta,0) return qc '''
QPC002_B1
A21DB699D9994
7
RE
1698 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1,0) # Write your code here: qc.phase(theta) return qc '''
QPC002_B1
A21DB699D9994
8
RE
1196 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.phase(theta,0) return qc '''
QPC002_B1
A21DB699D9994
9
RE
1399 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.phase(0,theta) return qc '''
QPC002_B1
A21DB699D9994
10
AC
1869 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.global_phase = theta return qc '''
QPC002_B1
A23C65FFCF45F
1
WA
1245 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(theta, 0) return qc '''
QPC002_B1
A23C65FFCF45F
2
AC
1569 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-2*theta, 0) return qc '''
QPC002_B1
A24777ADBDACB
1
AC
1983 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-2*theta,0) return qc '''
QPC002_B1
A2651B60E50CE
1
RE
1208 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta) return qc '''
QPC002_B1
A2651B60E50CE
2
AC
1469 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.global_phase = theta return qc '''
QPC002_B1
A2A765035C552
1
AC
1627 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.global_phase = theta return qc '''
QPC002_B1
A2DDCB4AF0C43
1
WA
1612 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta, 0) return qc '''
QPC002_B1
A2DDCB4AF0C43
2
AC
1516 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta, 0) qc.x(0) return qc '''
QPC002_B1
A2E11DAE995FC
1
WA
1075 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(theta, 0) return qc '''
QPC002_B1
A2E11DAE995FC
2
WA
1500 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(-2*theta, 0) return qc '''
QPC002_B1
A2E11DAE995FC
3
WA
1428 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(2*theta, 0) return qc '''
QPC002_B1
A2E11DAE995FC
4
RE
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz.(-2*theta, 0) return qc '''
QPC002_B1
A2E11DAE995FC
5
AC
1562 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-2*theta, 0) return qc '''
QPC002_B1
A2F2DA0842D04
1
WA
1118 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) return qc '''
QPC002_B1
A2F2DA0842D04
2
RE
1376 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.u1(theta, 0) return qc '''
QPC002_B1
A2F2DA0842D04
3
WA
1021 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.p(theta, 0) return qc '''
QPC002_B1
A2F2DA0842D04
4
RE
1092 ms
140 MiB
'''python def rotate(qc,p0): theta=math.acos(p0*2-1) qc.ry(theta,0) from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) rotate(qc, theta) return qc '''
QPC002_B1
A2F2DA0842D04
5
RE
1200 ms
140 MiB
'''python def rotate(qc,p0): import math theta=math.acos(p0*2-1) qc.ry(theta,0) from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) rotate(qc, theta) return qc '''
QPC002_B1
A2F2DA0842D04
6
WA
1285 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.ry(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
7
RE
1115 ms
140 MiB
'''python import math from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) theta=math.acos(theta*2-1) qc.p(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
8
RE
1227 ms
141 MiB
'''python import math from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) theta=math.acos(thet*2) qc.p(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
9
RE
1813 ms
140 MiB
'''python import math from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) theta=math.acos(thet*2) qc.p(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
10
RE
1083 ms
140 MiB
'''python import math from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) theta=math.acos(theta*2) qc.p(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
11
WA
1103 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.p(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
12
WA
1069 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.rz(theta,0) return qc '''
QPC002_B1
A2F2DA0842D04
13
AC
1478 ms
140 MiB
'''python import math from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) qc.p(theta,0) qc.global_phase = theta return qc '''
QPC002_B1
A36CDD0FDC886
1
WA
1380 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(theta,0) qc.x(0) return qc '''
QPC002_B1
A36CDD0FDC886
2
WA
1064 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(-theta,0) qc.x(0) return qc '''
QPC002_B1
A36CDD0FDC886
3
AC
1634 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(2*theta,0) qc.x(0) return qc '''
QPC002_B1
A3871B421355B
1
AC
1897 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.global_phase += theta return qc '''
QPC002_B1
A39BDF7FD6083
1
RE
1397 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta) return qc '''
QPC002_B1
A39BDF7FD6083
2
WA
1116 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.p(theta,0) return qc '''
QPC002_B1
A39BDF7FD6083
3
AC
1561 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta,0) qc.x(0) return qc '''
QPC002_B1
A3E0E89EF3479
1
WA
1398 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(theta, 0) qc.x(0) return qc '''
QPC002_B1
A3E0E89EF3479
2
WA
1362 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(-theta, 0) qc.x(0) return qc '''
QPC002_B1
A3E0E89EF3479
3
WA
1355 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(theta, 0) return qc '''
QPC002_B1
A3E0E89EF3479
4
RE
1024 ms
139 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.u1(theta, 0) qc.x(0) return qc '''
QPC002_B1
A3E0E89EF3479
5
RE
1144 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.U1gate(theta, 0) qc.x(0) return qc '''
QPC002_B1
A3E0E89EF3479
6
AC
1430 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta, 0) qc.x(0) return qc '''
QPC002_B1
A40D5FB72BC59
1
AC
1899 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta, 0) qc.x(0) return qc '''
QPC002_B1
A4109F6D75C09
1
RE
1353 ms
141 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(-2*theta) return qc '''
QPC002_B1
A4109F6D75C09
2
WA
1052 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rx(-2*theta, 0) return qc '''
QPC002_B1
A4109F6D75C09
3
WA
1052 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.ry(2*theta, 0) return qc '''
QPC002_B1
A4109F6D75C09
4
AC
1439 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.rz(-2*theta, 0) return qc '''
QPC002_B1
A42A651DDCE3F
1
AC
2018 ms
162 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.p(theta,0) qc.x(0) return qc '''
QPC002_B1
A43A67BECA670
1
WA
1060 ms
140 MiB
'''python from qiskit import QuantumCircuit def solve(theta: float) -> QuantumCircuit: qc = QuantumCircuit(1) # Write your code here: qc.x(0) qc.rz(theta, 0) return qc '''