tm0012-QCB/QCoderBenchmark · Datasets at Hugging Face

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
QPC001_A4	AE22EFB6A58CD	4	UME			'''python from qiskit import QuantumCircuit import cmath def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: # 例として、任意の複素振幅を設定 alpha0 = cmath.exp(1j * cmath.pi / 4) # 例えば、45度の位相を持つ複素数 alpha1 = cmath.exp(1j * cmath.pi / 3) # 例えば、60度の位相を持つ複素数 alpha2 = cmath.exp(1j * cmath.pi / 6) # 例えば、30度の位相を持つ複素数 # 各量子ビットに対して任意の複素振幅を設定 qc.initialize([alpha0, alpha1, alpha2, 0], [0, 1]) return qc '''
QPC001_A4	AE22EFB6A58CD	5	RE	816 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: # 例として、任意の複素振幅を設定 alpha0 = ComplexNumber(0.92388, 0.38268) # 例えば、45度の位相を持つ複素数 alpha1 = ComplexNumber(0.5, 0.86603) # 例えば、60度の位相を持つ複素数 alpha2 = ComplexNumber(0.70711, 0.70711) # 例えば、45度の位相を持つ複素数 # 各量子ビットに対して任意の複素振幅を設定 state_vector = [ComplexNumber(alpha0.real, alpha0.imag), ComplexNumber(alpha1.real, alpha1.imag), ComplexNumber(alpha2.real, alpha2.imag), ComplexNumber(0, 0)] qc.initialize(state_vector, [0, 1]) return qc '''
QPC001_A4	AE26101434B41	1	WA	880 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(1) return qc '''
QPC001_A4	AE26101434B41	2	RE	814 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.uc(0, 1) return qc '''
QPC001_A4	AE26101434B41	3	RE	784 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.toffoli(0, 0, 1) return qc '''
QPC001_A4	AE26101434B41	4	RE	757 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 1) return qc '''
QPC001_A4	AE26101434B41	5	RE	793 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 1) return qc '''
QPC001_A4	AE26101434B41	6	RE	915 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) return qc[:2] '''
QPC001_A4	AE26101434B41	7	QLE	756 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) return qc '''
QPC001_A4	AE26101434B41	8	RE	792 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) qc.remove_gate(2) return qc '''
QPC001_A4	AE26101434B41	9	RE	894 ms	79 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.h(0) qc.cx(0,1) qc.toffoli(0, 1, qr) qc.cx(qr, 1) return qc '''
QPC001_A4	AE26101434B41	10	RE	778 ms	79 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.h(0) qc.ccx(0, 1) return qc '''
QPC001_A4	AE26101434B41	11	RE	774 ms	79 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.xor(0, 1) return qc '''
QPC001_A4	AE26101434B41	12	WA	1609 ms	91 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.h(range(2)) return qc '''
QPC001_A4	AE26101434B41	13	WA	821 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(range(2)) return qc '''
QPC001_A4	AE26101434B41	14	WA	905 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(range(2)) return qc '''
QPC001_A4	AE26101434B41	15	WA	845 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) return qc '''
QPC001_A4	AE26101434B41	16	WA	931 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1, 0) return qc '''
QPC001_A4	AE26101434B41	17	WA	884 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''
QPC001_A4	AE26101434B41	18	WA	856 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(0) qc.ch(0, 1) return qc '''
QPC001_A4	AE26101434B41	19	WA	850 ms	91 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''
QPC001_A4	AE26101434B41	20	WA	1404 ms	90 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(1) qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''
QPC001_A4	AE26101434B41	21	AC	849 ms	91 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(1) qc.h(1) qc.ch(1, 0) qc.x(1) return qc '''
QPC001_A4	AE2F25BBB9838	1	AC	881 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AE41105C4DB03	1	RE	1031 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.u3(1.91,pi,0) qc.swap(0,1) return qc '''
QPC001_A4	AE41105C4DB03	2	RE	742 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.cx(0,1).c_if(0,1).c_if(1,1) return qc '''
QPC001_A4	AE41105C4DB03	3	RE	762 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.cx(0,1).c_if(0,1) return qc '''
QPC001_A4	AE5171DF4BB99	1	WA	1014 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(1) return qc '''
QPC001_A4	AE5171DF4BB99	2	AC	1257 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AE55C078822DF	1	WA	854 ms	90 MiB	'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * acos(1/sqrt(3)) qc.h(0) qc.ry(-theta, 0) qc.cx(0,1) qc.ry(theta, 0) return qc '''
QPC001_A4	AE55C078822DF	2	RE	778 ms	79 MiB	'''python from qiskit import QuantumCircuit from math import acos def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) return qc '''
QPC001_A4	AE55C078822DF	3	WA	837 ms	90 MiB	'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) return qc '''
QPC001_A4	AE55C078822DF	4	AC	1444 ms	90 MiB	'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) qc.x(0) return qc '''
QPC001_A4	AE61ECA230463	1	AC	1418 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AE66D12718F41	1	AC	1724 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''
QPC001_A4	AE6C4C360A276	1	AC	922 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1, 0) qc.x(1) return qc '''
QPC001_A4	AE7D6D9FB01E1	1	AC	886 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1,0) qc.x(1) return qc '''
QPC001_A4	AE886B5E1C1CD	1	WA	2030 ms	158 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: for i in range(2): qc.h(i) return qc '''
QPC001_A4	AE886B5E1C1CD	2	WA	1932 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) return qc '''
QPC001_A4	AE886B5E1C1CD	3	AC	1969 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AEA4D94633D1F	1	AC	1119 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0,1) return qc '''
QPC001_A4	AEBE4898F26DF	1	WA	815 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	2	WA	801 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	3	WA	1737 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	4	WA	1654 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	5	RE	791 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 0) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	6	WA	1763 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 0) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	7	WA	1095 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	8	WA	898 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cy(0, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	9	RE	765 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	10	RE	1717 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(range(2)) qc.cx(1, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	11	RE	977 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	12	WA	882 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	13	WA	856 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.z(1) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	14	WA	872 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.z(0) qc.h(0) #qc.cx(0, 1) return qc '''
QPC001_A4	AEBE4898F26DF	15	RE	734 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) qc.h(0) #qc.cx(0, 1) return qc '''
QPC001_A4	AED7BF72475A8	1	WA	1390 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) return qc '''
QPC001_A4	AEE8F60E43E9C	1	WA	1759 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.cx(1, 0) qc.x(1) return qc '''
QPC001_A4	AEE8F60E43E9C	2	WA	1765 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(0) return qc '''
QPC001_A4	AEE8F60E43E9C	3	RE	1632 ms	159 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.ry(2 * np.arctan(np.sqrt(2/1)), 0) qc.cry(2 * np.arctan(np.sqrt(1/1)), 0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AEE8F60E43E9C	4	AC	1822 ms	162 MiB	'''python from qiskit import QuantumCircuit import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.ry(2 * np.arctan(np.sqrt(2/1)), 0) qc.cry(2 * np.arctan(np.sqrt(1/1)), 0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AF027561B7ABB	1	WA	2005 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(1,0) qc.x(0) return qc '''
QPC001_A4	AF027561B7ABB	2	AC	1951 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''
QPC001_A4	AF030CCB62C1B	1	AC	1037 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc = QuantumCircuit(2) qc.h(0) qc.x(0) qc.ch(0,1) qc.x(0) return qc '''
QPC001_A4	AF0BC1BBA16DE	1	AC	859 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.ch(1,0) qc.cx(0,1) return qc '''
QPC001_A4	AF12F56FE734E	1	AC	1685 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AF24C1827BC2A	1	AC	929 ms	90 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta_0 = math.acos(1 / math.sqrt(3)) theta_1 = math.pi / 2 qc.ry(theta_0, 0) qc.x(0) qc.cry(theta_1, 0, 1) qc.x(0) return qc '''
QPC001_A4	AF253AF68EA2F	1	AC	995 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AF2EDB7ED49D5	1	UME			'''python from qiskit import QuantumCircuit from qiskit.circuit import Parameter def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta_0 = Parameter('theta0') phi_0 = Parameter('phi0') lambda_0 = Parameter('lambda0') theta_1 = Parameter('theta1') phi_1 = Parameter('phi1') lambda_1 = Parameter('lambda1') qc = QuantumCircuit(2) qc.u3(theta_0, phi_0, lambda_0, 0) qc.u3(theta_1, phi_1, lambda_1, 1) return qc '''
QPC001_A4	AF5D4E9E2B36D	1	WA	1800 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(1) qc.ch(0, 1) return qc '''
QPC001_A4	AF5D4E9E2B36D	2	WA	1632 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(1) qc.x(1) qc.ch(0, 1) return qc '''
QPC001_A4	AF5D4E9E2B36D	3	AC	1704 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0, 1) return qc '''
QPC001_A4	AF73352DB1B94	1	RE	763 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = math.acos(math.sqrt(1/3)) * 2 qc.ry(theta, 0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AF73352DB1B94	2	AC	868 ms	90 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = math.acos(math.sqrt(1/3)) * 2 qc.ry(theta, 0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AF7657B742268	1	AC	1501 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AF9670B0B1BEA	1	AC	834 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AF9A0681FA9A3	1	WA	1841 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(range(2)) qc.z(1) return qc '''
QPC001_A4	AF9A0681FA9A3	2	WA	847 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) return qc '''
QPC001_A4	AF9E36AF2AD74	1	AC	1557 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	AFA047D4E62D7	1	AC	1387 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AFA94076241C0	1	WA	1742 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: return qc '''
QPC001_A4	AFA94076241C0	2	AC	1295 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1,0) qc.x(1) return qc '''
QPC001_A4	AFBCCB7177BB7	1	UME			'''python from qiskit import QuantumCircuit from qiskit.circuit.library import Initialize import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(4) # Example amplitudes (normalize them) a0, a1, a2 = 0.5, 0.5, 0.70710678 norm = np.sqrt(abs(a0)2 + abs(a1)2 + abs(a2)**2) a0, a1, a2 = a0/norm, a1/norm, a2/norm # Target vector [a0, a2, a1, 0] in basis order vec = [a0, a2, a1, 0] init = Initialize(vec) qc.append(init, [0, 1]) # first \|ψ⟩ qc.append(init, [2, 3]) # second \|ψ⟩ return qc '''
QPC001_A4	AFBCCB7177BB7	2	AC	1500 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0, 1) return qc '''
QPC001_A4	AFBF0148A20C4	1	AC	1695 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''
QPC001_A4	AFD250B28BD31	1	AC	860 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cnot(1,0) qc.ry(0.1,1) qc.cnot(0,1) qc.ry(-0.1,1) qc.cnot(1,0) return qc '''
QPC001_A4	AFDFF5FD0C30A	1	RE	1774 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''
QPC001_A4	AFDFF5FD0C30A	2	WA	1860 ms	160 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''
QPC001_A4	AFDFF5FD0C30A	3	AC	1848 ms	160 MiB	'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) qc.x(0) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''
QPC001_A4	AFE8E6434991E	1	AC	2037 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0), qc.ch(0,1), qc.x(0) return qc '''
QPC001_A4	AFED52EC8535A	1	WA	816 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(0.5, 0) qc.ry(0.5, 1) return qc '''
QPC001_A4	AFED52EC8535A	2	WA	814 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(1.57, 0) qc.ry(1.57, 1) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AFED52EC8535A	3	RE	826 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(np.pi/2, 0) qc.ry(np.pi/2, 1) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AFF6FE1A832BA	1	RE	748 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) alpha_1 = 0.5 qc.u1(alpha_1, 1) return qc '''
QPC001_A4	AFF6FE1A832BA	2	RE	770 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.h(1) qc.cx(0, 1) a0, a1, a2 = 0.5, 0.3, 0.8 qc.u3(2 * a0, 0, 0, 0) # a0を適用 qc.u3(2 * a1, 0, 0, 1) # a1を適用 qc.h(0) qc.h(1) return qc '''
QPC001_A4	AFF6FE1A832BA	3	RE	870 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.initialize([1, 0, 0], 0) qc.initialize([0, 1, 0], 1) qc.cx(0, 1) return qc '''
QPC001_A4	AFF6FE1A832BA	4	UGE	784 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.initialize([1, 0], 0) qc.initialize([0, 1], 1) qc.h(0) qc.cx(0, 1) return qc '''
QPC001_A4	AFF6FE1A832BA	5	WA	845 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.h(1) qc.cz(0, 1) return qc '''
QPC001_A4	AFF6FE1A832BA	6	WA	824 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) theta = 0.5 qc.rz(theta, 1) return qc '''
QPC001_A4	AFF6FE1A832BA	7	WA	838 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) theta = 0.5 qc.rz(theta, 0) qc.rz(theta, 1) return qc '''

QPC001_A4

AE22EFB6A58CD

4

UME

'''python from qiskit import QuantumCircuit import cmath def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: # 例として、任意の複素振幅を設定 alpha0 = cmath.exp(1j * cmath.pi / 4) # 例えば、45度の位相を持つ複素数 alpha1 = cmath.exp(1j * cmath.pi / 3) # 例えば、60度の位相を持つ複素数 alpha2 = cmath.exp(1j * cmath.pi / 6) # 例えば、30度の位相を持つ複素数 # 各量子ビットに対して任意の複素振幅を設定 qc.initialize([alpha0, alpha1, alpha2, 0], [0, 1]) return qc '''

QPC001_A4

AE22EFB6A58CD

5

RE

816 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: # 例として、任意の複素振幅を設定 alpha0 = ComplexNumber(0.92388, 0.38268) # 例えば、45度の位相を持つ複素数 alpha1 = ComplexNumber(0.5, 0.86603) # 例えば、60度の位相を持つ複素数 alpha2 = ComplexNumber(0.70711, 0.70711) # 例えば、45度の位相を持つ複素数 # 各量子ビットに対して任意の複素振幅を設定 state_vector = [ComplexNumber(alpha0.real, alpha0.imag), ComplexNumber(alpha1.real, alpha1.imag), ComplexNumber(alpha2.real, alpha2.imag), ComplexNumber(0, 0)] qc.initialize(state_vector, [0, 1]) return qc '''

QPC001_A4

AE26101434B41

1

WA

880 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(1) return qc '''

QPC001_A4

AE26101434B41

2

RE

814 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.uc(0, 1) return qc '''

QPC001_A4

AE26101434B41

3

RE

784 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.toffoli(0, 0, 1) return qc '''

QPC001_A4

AE26101434B41

4

RE

757 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 1) return qc '''

QPC001_A4

AE26101434B41

5

RE

793 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 1) return qc '''

QPC001_A4

AE26101434B41

6

RE

915 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) return qc[:2] '''

QPC001_A4

AE26101434B41

7

QLE

756 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) return qc '''

QPC001_A4

AE26101434B41

8

RE

792 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(3) # Write your code here: qc.h(0) qc.x(1) qc.toffoli(0, 1, 2) qc.cx(2, 1) qc.remove_gate(2) return qc '''

QPC001_A4

AE26101434B41

9

RE

894 ms

79 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.h(0) qc.cx(0,1) qc.toffoli(0, 1, qr) qc.cx(qr, 1) return qc '''

QPC001_A4

AE26101434B41

10

RE

778 ms

79 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.h(0) qc.ccx(0, 1) return qc '''

QPC001_A4

AE26101434B41

11

RE

774 ms

79 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qr = QuantumRegister(1) # Write your code here: qc.xor(0, 1) return qc '''

QPC001_A4

AE26101434B41

12

WA

1609 ms

91 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.h(range(2)) return qc '''

QPC001_A4

AE26101434B41

13

WA

821 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(range(2)) return qc '''

QPC001_A4

AE26101434B41

14

WA

905 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(range(2)) return qc '''

QPC001_A4

AE26101434B41

15

WA

845 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) return qc '''

QPC001_A4

AE26101434B41

16

WA

931 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1, 0) return qc '''

QPC001_A4

AE26101434B41

17

WA

884 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''

QPC001_A4

AE26101434B41

18

WA

856 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(0) qc.ch(0, 1) return qc '''

QPC001_A4

AE26101434B41

19

WA

850 ms

91 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''

QPC001_A4

AE26101434B41

20

WA

1404 ms

90 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(1) qc.h(1) qc.x(1) qc.ch(1, 0) return qc '''

QPC001_A4

AE26101434B41

21

AC

849 ms

91 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(1) qc.h(1) qc.ch(1, 0) qc.x(1) return qc '''

QPC001_A4

AE2F25BBB9838

1

AC

881 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AE41105C4DB03

1

RE

1031 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.u3(1.91,pi,0) qc.swap(0,1) return qc '''

QPC001_A4

AE41105C4DB03

2

RE

742 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.cx(0,1).c_if(0,1).c_if(1,1) return qc '''

QPC001_A4

AE41105C4DB03

3

RE

762 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.cx(0,1).c_if(0,1) return qc '''

QPC001_A4

AE5171DF4BB99

1

WA

1014 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(1) return qc '''

QPC001_A4

AE5171DF4BB99

2

AC

1257 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AE55C078822DF

1

WA

854 ms

90 MiB

'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * acos(1/sqrt(3)) qc.h(0) qc.ry(-theta, 0) qc.cx(0,1) qc.ry(theta, 0) return qc '''

QPC001_A4

AE55C078822DF

2

RE

778 ms

79 MiB

'''python from qiskit import QuantumCircuit from math import acos def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) return qc '''

QPC001_A4

AE55C078822DF

3

WA

837 ms

90 MiB

'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) return qc '''

QPC001_A4

AE55C078822DF

4

AC

1444 ms

90 MiB

'''python from qiskit import QuantumCircuit from math import acos, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) theta = 2*acos(1/sqrt(3)) qc.cry(theta, 0, 1) qc.x(0) return qc '''

QPC001_A4

AE61ECA230463

1

AC

1418 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.cx(1,0) return qc '''

QPC001_A4

AE66D12718F41

1

AC

1724 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''

QPC001_A4

AE6C4C360A276

1

AC

922 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1, 0) qc.x(1) return qc '''

QPC001_A4

AE7D6D9FB01E1

1

AC

886 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1,0) qc.x(1) return qc '''

QPC001_A4

AE886B5E1C1CD

1

WA

2030 ms

158 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: for i in range(2): qc.h(i) return qc '''

QPC001_A4

AE886B5E1C1CD

2

WA

1932 ms

160 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) return qc '''

QPC001_A4

AE886B5E1C1CD

3

AC

1969 ms

160 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AEA4D94633D1F

1

AC

1119 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0,1) return qc '''

QPC001_A4

AEBE4898F26DF

1

WA

815 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

2

WA

801 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

3

WA

1737 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

4

WA

1654 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

5

RE

791 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 0) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

6

WA

1763 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 0) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

7

WA

1095 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

8

WA

898 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cy(0, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

9

RE

765 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

10

RE

1717 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(range(2)) qc.cx(1, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

11

RE

977 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(1, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

12

WA

882 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cz(0, 1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

13

WA

856 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.z(1) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

14

WA

872 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.z(0) qc.h(0) #qc.cx(0, 1) return qc '''

QPC001_A4

AEBE4898F26DF

15

RE

734 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cz(0, 1) qc.h(0) #qc.cx(0, 1) return qc '''

QPC001_A4

AED7BF72475A8

1

WA

1390 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) return qc '''

QPC001_A4

AEE8F60E43E9C

1

WA

1759 ms

160 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.cx(1, 0) qc.x(1) return qc '''

QPC001_A4

AEE8F60E43E9C

2

WA

1765 ms

160 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0, 1) qc.x(0) return qc '''

QPC001_A4

AEE8F60E43E9C

3

RE

1632 ms

159 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.ry(2 * np.arctan(np.sqrt(2/1)), 0) qc.cry(2 * np.arctan(np.sqrt(1/1)), 0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AEE8F60E43E9C

4

AC

1822 ms

162 MiB

'''python from qiskit import QuantumCircuit import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.ry(2 * np.arctan(np.sqrt(2/1)), 0) qc.cry(2 * np.arctan(np.sqrt(1/1)), 0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AF027561B7ABB

1

WA

2005 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(1,0) qc.x(0) return qc '''

QPC001_A4

AF027561B7ABB

2

AC

1951 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''

QPC001_A4

AF030CCB62C1B

1

AC

1037 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc = QuantumCircuit(2) qc.h(0) qc.x(0) qc.ch(0,1) qc.x(0) return qc '''

QPC001_A4

AF0BC1BBA16DE

1

AC

859 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.ch(1,0) qc.cx(0,1) return qc '''

QPC001_A4

AF12F56FE734E

1

AC

1685 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AF24C1827BC2A

1

AC

929 ms

90 MiB

'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta_0 = math.acos(1 / math.sqrt(3)) theta_1 = math.pi / 2 qc.ry(theta_0, 0) qc.x(0) qc.cry(theta_1, 0, 1) qc.x(0) return qc '''

QPC001_A4

AF253AF68EA2F

1

AC

995 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AF2EDB7ED49D5

1

UME

'''python from qiskit import QuantumCircuit from qiskit.circuit import Parameter def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta_0 = Parameter('theta0') phi_0 = Parameter('phi0') lambda_0 = Parameter('lambda0') theta_1 = Parameter('theta1') phi_1 = Parameter('phi1') lambda_1 = Parameter('lambda1') qc = QuantumCircuit(2) qc.u3(theta_0, phi_0, lambda_0, 0) qc.u3(theta_1, phi_1, lambda_1, 1) return qc '''

QPC001_A4

AF5D4E9E2B36D

1

WA

1800 ms

143 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(1) qc.ch(0, 1) return qc '''

QPC001_A4

AF5D4E9E2B36D

2

WA

1632 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.h(1) qc.x(1) qc.ch(0, 1) return qc '''

QPC001_A4

AF5D4E9E2B36D

3

AC

1704 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0, 1) return qc '''

QPC001_A4

AF73352DB1B94

1

RE

763 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = math.acos(math.sqrt(1/3)) * 2 qc.ry(theta, 0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AF73352DB1B94

2

AC

868 ms

90 MiB

'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = math.acos(math.sqrt(1/3)) * 2 qc.ry(theta, 0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AF7657B742268

1

AC

1501 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AF9670B0B1BEA

1

AC

834 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AF9A0681FA9A3

1

WA

1841 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(range(2)) qc.z(1) return qc '''

QPC001_A4

AF9A0681FA9A3

2

WA

847 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) return qc '''

QPC001_A4

AF9E36AF2AD74

1

AC

1557 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''

QPC001_A4

AFA047D4E62D7

1

AC

1387 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''

QPC001_A4

AFA94076241C0

1

WA

1742 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: return qc '''

QPC001_A4

AFA94076241C0

2

AC

1295 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(1) qc.ch(1,0) qc.x(1) return qc '''

QPC001_A4

AFBCCB7177BB7

1

UME

'''python from qiskit import QuantumCircuit from qiskit.circuit.library import Initialize import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(4) # Example amplitudes (normalize them) a0, a1, a2 = 0.5, 0.5, 0.70710678 norm = np.sqrt(abs(a0)**2 + abs(a1)**2 + abs(a2)**2) a0, a1, a2 = a0/norm, a1/norm, a2/norm # Target vector [a0, a2, a1, 0] in basis order vec = [a0, a2, a1, 0] init = Initialize(vec) qc.append(init, [0, 1]) # first |ψ⟩ qc.append(init, [2, 3]) # second |ψ⟩ return qc '''

QPC001_A4

AFBCCB7177BB7

2

AC

1500 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ch(0, 1) return qc '''

QPC001_A4

AFBF0148A20C4

1

AC

1695 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.x(0) return qc '''

QPC001_A4

AFD250B28BD31

1

AC

860 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cnot(1,0) qc.ry(0.1,1) qc.cnot(0,1) qc.ry(-0.1,1) qc.cnot(1,0) return qc '''

QPC001_A4

AFDFF5FD0C30A

1

RE

1774 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''

QPC001_A4

AFDFF5FD0C30A

2

WA

1860 ms

160 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''

QPC001_A4

AFDFF5FD0C30A

3

AC

1848 ms

160 MiB

'''python from qiskit import QuantumCircuit, QuantumRegister def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) qc.x(0) return qc # if __name__ == "__main__": # from qiskit.quantum_info import Statevector # qc = solve() # print(Statevector(qc)) '''

QPC001_A4

AFE8E6434991E

1

AC

2037 ms

160 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0), qc.ch(0,1), qc.x(0) return qc '''

QPC001_A4

AFED52EC8535A

1

WA

816 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(0.5, 0) qc.ry(0.5, 1) return qc '''

QPC001_A4

AFED52EC8535A

2

WA

814 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(1.57, 0) qc.ry(1.57, 1) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AFED52EC8535A

3

RE

826 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.ry(np.pi/2, 0) qc.ry(np.pi/2, 1) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AFF6FE1A832BA

1

RE

748 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) alpha_1 = 0.5 qc.u1(alpha_1, 1) return qc '''

QPC001_A4

AFF6FE1A832BA

2

RE

770 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.h(1) qc.cx(0, 1) a0, a1, a2 = 0.5, 0.3, 0.8 qc.u3(2 * a0, 0, 0, 0) # a0を適用 qc.u3(2 * a1, 0, 0, 1) # a1を適用 qc.h(0) qc.h(1) return qc '''

QPC001_A4

AFF6FE1A832BA

3

RE

870 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.initialize([1, 0, 0], 0) qc.initialize([0, 1, 0], 1) qc.cx(0, 1) return qc '''

QPC001_A4

AFF6FE1A832BA

4

UGE

784 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.initialize([1, 0], 0) qc.initialize([0, 1], 1) qc.h(0) qc.cx(0, 1) return qc '''

QPC001_A4

AFF6FE1A832BA

5

WA

845 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.h(1) qc.cz(0, 1) return qc '''

QPC001_A4

AFF6FE1A832BA

6

WA

824 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) theta = 0.5 qc.rz(theta, 1) return qc '''

QPC001_A4

AFF6FE1A832BA

7

WA

838 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) theta = 0.5 qc.rz(theta, 0) qc.rz(theta, 1) return qc '''