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	AACC88F3A43D1	15	WA	1752 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h([0,1]) qc.cx(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	16	WA	860 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	17	WA	1210 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(1,0) qc.cx(0,1) return qc '''
QPC001_A4	AACC88F3A43D1	18	WA	920 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.i([1,0]) qc.cx(1,0) qc.cx(0,1) return qc '''
QPC001_A4	AACC88F3A43D1	19	WA	836 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.i([1,0]) qc.cx(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	20	WA	868 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	21	WA	875 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(0,1) return qc '''
QPC001_A4	AACC88F3A43D1	22	WA	869 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	23	WA	1719 ms	93 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x([0,1]) return qc '''
QPC001_A4	AACC88F3A43D1	24	WA	824 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(0) qc.x(1) return qc '''
QPC001_A4	AACC88F3A43D1	25	WA	956 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.i([0,1]) return qc '''
QPC001_A4	AACC88F3A43D1	26	WA	895 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h([0,1]) return qc '''
QPC001_A4	AACC88F3A43D1	27	WA	819 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx([0,1],[1,0]) return qc '''
QPC001_A4	AACC88F3A43D1	28	WA	900 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h([0,1]) qc.x([0,1]) return qc '''
QPC001_A4	AACC88F3A43D1	29	WA	1143 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x([0,1]) return qc '''
QPC001_A4	AACC88F3A43D1	30	WA	856 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(0,1) return qc '''
QPC001_A4	AACC88F3A43D1	31	WA	839 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.cx(1,0) return qc '''
QPC001_A4	AACC88F3A43D1	32	WA	910 ms	89 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(1) return qc '''
QPC001_A4	AACC88F3A43D1	33	WA	1720 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x(0) return qc '''
QPC001_A4	AACDDE5928E92	1	RE	761 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) cq.cx(0,1,1) return qc '''
QPC001_A4	AACDDE5928E92	2	RE	760 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) cq.crx(0.2, 0, 1, control_state=1) return qc '''
QPC001_A4	AACDDE5928E92	3	RE	755 ms	78 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) cq.crx(0.2, 0, 1, ctrl_state=1) return qc '''
QPC001_A4	AACDDE5928E92	4	WA	964 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.crx(0.2, 0, 1, ctrl_state=1) return qc '''
QPC001_A4	AACDDE5928E92	5	AC	866 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.crx(0.2, 0, 1, ctrl_state=0) return qc '''
QPC001_A4	AAE4E4AE62653	1	WA	819 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) return qc '''
QPC001_A4	AAE4E4AE62653	2	WA	839 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.z(1) qc.h(0) return qc '''
QPC001_A4	AAE4E4AE62653	3	WA	1169 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.h(1) return qc '''
QPC001_A4	AAE4E4AE62653	4	WA	849 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.y(0) qc.y(1) qc.x(0) qc.x(1) qc.h(1) qc.h(0) qc.cx(1,0) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AAE4E4AE62653	5	RE	719 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import YGate for i in range(2): qc.h(i) qc.append(YGate,i) qc.x(i) qc.h(1) qc.cx(1,0) qc.h(1) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AAE4E4AE62653	6	WA	931 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: for i in range(2): qc.h(i) qc.y(i) qc.x(i) qc.h(1) qc.cx(1,0) qc.h(1) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AAE4E4AE62653	7	WA	844 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.z(1) qc.h(0) qc.h(1) qc.cx(0,1) qc.h(1) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AAE4E4AE62653	8	WA	855 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.z(1) qc.h(0) qc.h(1) qc.ch(1,0) return qc '''
QPC001_A4	AAE4E4AE62653	9	AC	907 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.z(1) qc.h(0) qc.h(1) qc.ch(1,0) qc.x(0) qc.x(1) return qc '''
QPC001_A4	AAE62EE105F4C	1	WA	1262 ms	155 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(1) qc.cz(0,1) return qc '''
QPC001_A4	AAE62EE105F4C	2	RE	1227 ms	154 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(1) return qc '''
QPC001_A4	AAE62EE105F4C	3	AC	1263 ms	155 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	AAEF086ABF832	1	WA	1972 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(0,1) return qc '''
QPC001_A4	AAEF086ABF832	2	AC	1901 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	AAF26606239C5	1	AC	1747 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	AB08F27516B8A	1	WA	1127 ms	148 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cx(1,0) return qc '''
QPC001_A4	AB08F27516B8A	2	RE	1039 ms	148 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,) return qc '''
QPC001_A4	AB08F27516B8A	3	AC	1156 ms	149 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	AB0AAD889CD2E	1	AC	1525 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.rx(0.1,0) qc.crx(0.1, 0, 1) qc.x(0) return qc '''
QPC001_A4	AB0ABB7A6DACE	1	AC	1358 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(1) qc.ch(0,1) qc.x([0,1]) return qc '''
QPC001_A4	AB13A8259CB25	1	WA	935 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.h(0) return qc '''
QPC001_A4	AB13A8259CB25	2	WA	811 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.cx(0, 1) return qc '''
QPC001_A4	AB13A8259CB25	3	WA	834 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.h(0) return qc '''
QPC001_A4	AB13A8259CB25	4	WA	907 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(0) qc.h(0) return qc '''
QPC001_A4	AB13A8259CB25	5	AC	1599 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	AB2240083B199	1	WA	1662 ms	142 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3)) qc.ry(theta, 0) qc.cx(0,1) return qc '''
QPC001_A4	AB2240083B199	2	RE			'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3) theta1 = 2 * math.asin(math.sqrt(1/2) qc.ry(theta, 0) qc.ry(theta1, 1) qc.cx(0,1) return qc '''
QPC001_A4	AB2240083B199	3	RE			'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3) qc.ry(theta, 0) qc.ry(math.pi/2, 1) qc.cy(0,1) qc.cx(0,1) return qc '''
QPC001_A4	AB2240083B199	4	RE			'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3) qc.ry(theta, 0) qc.ry(math.pi/2, 1) qc.cy(0,1) qc.cx(0,1) return qc '''
QPC001_A4	AB2240083B199	5	WA	1750 ms	142 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3)) qc.ry(theta, 0) qc.ry(math.pi/2, 1) qc.cy(0,1) qc.cx(0,1) return qc '''
QPC001_A4	AB2240083B199	6	AC	1655 ms	142 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3)) qc.ry(theta, 0) qc.ry(math.pi/2, 1) qc.cry(math.pi/2,0,1) qc.cx(0,1) return qc '''
QPC001_A4	AB3297A19C0A6	1	AC	909 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	AB329F6E6AD6A	1	RE	807 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.u(2*math.acos(1/np.sqrt(3)),0,0,0) qc.u(0,0,-math.pi/2,1) qc.cx(0,1) qc.u(math.pi/4,0,-math.pi/2,1) qc.cx(0,1) qc.u(math.pi,0,-math.pi/2,0) qc.u(math.pi/4,0,math.pi,1) return qc '''
QPC001_A4	AB329F6E6AD6A	2	WA	885 ms	91 MiB	'''python from qiskit import QuantumCircuit from qiskit.circuit.library import CHGate def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc = QuantumCircuit(2) qc.h(0) qc.cx(0,1) qc.append(CHGate(ctrl_state=0),[0,1]) return qc '''
QPC001_A4	AB329F6E6AD6A	3	AC	836 ms	90 MiB	'''python from qiskit import QuantumCircuit from qiskit.circuit.library import CHGate def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc = QuantumCircuit(2) qc.h(0) qc.append(CHGate(ctrl_state=0),[0,1]) return qc '''
QPC001_A4	AB4415A7C94D9	1	AC	999 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.ch(0, 1) qc.cx(1, 0) return qc '''
QPC001_A4	AB44ED6344AD1	1	WA	845 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(0, 1) return qc '''
QPC001_A4	AB44ED6344AD1	2	AC	846 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	AB482FBCB0D19	1	WA	831 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.x(1) qc.cnot(0,1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	2	WA	828 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.x(1) qc.cnot(0,1) qc.z(0) qc.z(1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	3	WA	1063 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.h(1) qc.cnot(0,1) qc.h(0) qc.h(1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	4	WA	1034 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.cnot(0,1) qc.h(1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	5	WA	878 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.cz(0,1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	6	WA	898 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.cz(0,1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	7	WA	1473 ms	91 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.h(0) qc.y(1) qc.h(1) # Write your code here: return qc '''
QPC001_A4	AB482FBCB0D19	8	AC	1008 ms	91 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.ry(1.2310,0) qc.ry(math.pi/4,1) qc.x(0) qc.cnot(0,1) qc.x(0) qc.ry(-1*math.pi/4,1) # Write your code here: return qc '''
QPC001_A4	AB4DDE688092F	1	AC	948 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	AB5BA0AC6D6E0	1	AC	1600 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	AB6165763BE51	1	WA	836 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) return qc '''
QPC001_A4	AB6165763BE51	2	AC	867 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	AB6E47DC10F04	1	WA	1137 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) return qc '''
QPC001_A4	AB6E47DC10F04	2	AC	1120 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.x(0) qc.ch(0,1) qc.x(0) return qc '''
QPC001_A4	ABB8A37FA02CD	1	WA	827 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.cx(0,1) return qc '''
QPC001_A4	ABBBEA5F8C79F	1	UGE	1479 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: a0 = 1 a1 = 1 a2 = 1 a3 = 0 norm = (a02 + a12 + a22 + a32)**0.5 state = [a0/norm, a1/norm, a2/norm, a3/norm] # Initialize the qubits to the desired state qc.initialize(state, [0, 1]) return qc '''
QPC001_A4	ABBBEA5F8C79F	2	RE	1481 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * np.arccos(a0 / np.sqrt(a02 + a12)) qc.ry(theta1, 0) # RY rotation on the first qubit # Step 2: Apply a controlled RY gate to the second qubit based on the first theta2 = 2 * np.arccos(np.sqrt(a02 + a12) / np.sqrt(a02 + a12 + a2**2)) qc.cry(theta2, 0, 1) # Controlled RY gate # Step 3: Apply a Pauli-X gate to flip the first qubit qc.cx(0, 1) # Initialize the qubits to the desired state qc.initialize(state, [0, 1]) return qc '''
QPC001_A4	ABBBEA5F8C79F	3	RE	1494 ms	139 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * math.acos(a0 / math.sqrt(a02 + a12)) qc.ry(theta1, 0) # RY rotation on the first qubit # Step 2: Apply a controlled RY gate to the second qubit based on the first theta2 = 2 * math.acos(math.sqrt(a02 + a12) / math.sqrt(a02 + a12 + a2**2)) qc.cry(theta2, 0, 1) # Controlled RY gate # Step 3: Apply a CNOT gate to entangle the qubits qc.cx(0, 1) return qc '''
QPC001_A4	ABBBEA5F8C79F	4	WA	1421 ms	140 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) qc.cx(1,0) qc.x(1) return qc '''
QPC001_A4	ABBBEA5F8C79F	5	RE	1455 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * math.acos(a0 / math.sqrt(a02 + a12)) qc.ry(theta1, 0) # Step 2: Apply Controlled RY gate on qubit 1 based on qubit 0 to adjust amplitude for \|01> theta2 = 2 * math.acos(a2 / math.sqrt(a12 + a22)) qc.ry(theta2, 1) qc.cx(0, 1) return qc '''
QPC001_A4	ABBBEA5F8C79F	6	AC	1393 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	ABC590A2D2393	1	AC	1422 ms	143 MiB	'''python from qiskit import QuantumCircuit #from qiskit.quantum_info import Statevector import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.cx(1,0) # qc.rxx(np.pi/10,0,1) return qc qc = solve() print(qc) #print(Statevector(qc)) '''
QPC001_A4	ABC875C7D3A19	1	RE	756 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import HGate, CXGate, MCPhaseGate, MCMT qc.h(0) ch = MCMT(HGate, 1, 1) qc.append(ch) qc.x(0) return qc '''
QPC001_A4	ABC875C7D3A19	2	RE	729 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import HGate, CXGate, MCPhaseGate, MCMT qc.h(0) ch = MCMT(HGate, 1, 1) qc.append(ch, qargs = [0, 1]) qc.x(0) return qc '''
QPC001_A4	ABC875C7D3A19	3	AC	825 ms	90 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import HGate, CXGate, MCPhaseGate, MCMT qc.h(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	ABCAEEFCFB78B	1	AC	1925 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	ABCB776EBABCA	1	AC	1967 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	ABE14EF797755	1	AC	867 ms	91 MiB	'''python from qiskit import QuantumCircuit from math import asin, sqrt def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = asin(1 / sqrt(3)) qc.ry(theta * 2, 0) qc.x(0) qc.ch(0, 1) qc.x(0) return qc '''
QPC001_A4	ABE161911D268	1	UME			'''python from qiskit import QuantumCircuit from numpy import* def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(arccos(2*1/sqrt(3),0,1)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	2	UME			'''python from qiskit import QuantumCircuit from numpy import* def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(2*arccos(1/sqrt(3),0,1)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	3	RE	758 ms	79 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(2*arccos(1/sqrt(3),0,1)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	4	RE	1491 ms	79 MiB	'''python from qiskit import QuantumCircuit from numpy import as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(2*np.arccos(1/np.sqrt(3),0,1)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	5	RE	742 ms	79 MiB	'''python from qiskit import QuantumCircuit from numpy import as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(np.arccos(1/np.sqrt(3),1,0)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	6	RE	804 ms	79 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(math.acos(1/math.sqrt(3),1,0)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	7	RE	935 ms	79 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(math.acos(1/math.sqrt(3),1,0)) qc.cx(0,1) return qc '''
QPC001_A4	ABE161911D268	8	AC	882 ms	90 MiB	'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(math.acos(1/math.sqrt(3)),1,0) qc.cx(0,1) return qc '''
QPC001_A4	AC010F4C8172F	1	WA	1255 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.x([0, 1]) qc.cx(0, 1) qc.cx(1, 0) qc.x([0, 1]) return qc '''
QPC001_A4	AC010F4C8172F	2	WA	1272 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h([0, 1]) qc.x([0, 1]) qc.cx(0, 1) qc.cx(1, 0) qc.x([0, 1]) return qc '''

QPC001_A4

AACC88F3A43D1

15

WA

1752 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

16

WA

860 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

17

WA

1210 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

18

WA

920 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

19

WA

836 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

20

WA

868 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

21

WA

875 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

22

WA

869 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

23

WA

1719 ms

93 MiB

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

QPC001_A4

AACC88F3A43D1

24

WA

824 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

25

WA

956 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

26

WA

895 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

27

WA

819 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

28

WA

900 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

29

WA

1143 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

30

WA

856 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

31

WA

839 ms

90 MiB

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

QPC001_A4

AACC88F3A43D1

32

WA

910 ms

89 MiB

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

QPC001_A4

AACC88F3A43D1

33

WA

1720 ms

90 MiB

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

QPC001_A4

AACDDE5928E92

1

RE

761 ms

79 MiB

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

QPC001_A4

AACDDE5928E92

2

RE

760 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) cq.crx(0.2, 0, 1, control_state=1) return qc '''

QPC001_A4

AACDDE5928E92

3

RE

755 ms

78 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) cq.crx(0.2, 0, 1, ctrl_state=1) return qc '''

QPC001_A4

AACDDE5928E92

4

WA

964 ms

90 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.crx(0.2, 0, 1, ctrl_state=1) return qc '''

QPC001_A4

AACDDE5928E92

5

AC

866 ms

91 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.crx(0.2, 0, 1, ctrl_state=0) return qc '''

QPC001_A4

AAE4E4AE62653

1

WA

819 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) return qc '''

QPC001_A4

AAE4E4AE62653

2

WA

839 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.z(1) qc.h(0) return qc '''

QPC001_A4

AAE4E4AE62653

3

WA

1169 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.h(1) return qc '''

QPC001_A4

AAE4E4AE62653

4

WA

849 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.y(0) qc.y(1) qc.x(0) qc.x(1) qc.h(1) qc.h(0) qc.cx(1,0) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AAE4E4AE62653

5

RE

719 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import YGate for i in range(2): qc.h(i) qc.append(YGate,i) qc.x(i) qc.h(1) qc.cx(1,0) qc.h(1) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AAE4E4AE62653

6

WA

931 ms

90 MiB

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

QPC001_A4

AAE4E4AE62653

7

WA

844 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.z(1) qc.h(0) qc.h(1) qc.cx(0,1) qc.h(1) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AAE4E4AE62653

8

WA

855 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.z(1) qc.h(0) qc.h(1) qc.ch(1,0) return qc '''

QPC001_A4

AAE4E4AE62653

9

AC

907 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.z(1) qc.h(0) qc.h(1) qc.ch(1,0) qc.x(0) qc.x(1) return qc '''

QPC001_A4

AAE62EE105F4C

1

WA

1262 ms

155 MiB

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

QPC001_A4

AAE62EE105F4C

2

RE

1227 ms

154 MiB

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

QPC001_A4

AAE62EE105F4C

3

AC

1263 ms

155 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

AAEF086ABF832

1

WA

1972 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(0,1) return qc '''

QPC001_A4

AAEF086ABF832

2

AC

1901 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

AAF26606239C5

1

AC

1747 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

AB08F27516B8A

1

WA

1127 ms

148 MiB

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

QPC001_A4

AB08F27516B8A

2

RE

1039 ms

148 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,) return qc '''

QPC001_A4

AB08F27516B8A

3

AC

1156 ms

149 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

AB0AAD889CD2E

1

AC

1525 ms

90 MiB

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

QPC001_A4

AB0ABB7A6DACE

1

AC

1358 ms

141 MiB

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

QPC001_A4

AB13A8259CB25

1

WA

935 ms

90 MiB

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

QPC001_A4

AB13A8259CB25

2

WA

811 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.cx(0, 1) return qc '''

QPC001_A4

AB13A8259CB25

3

WA

834 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.h(0) return qc '''

QPC001_A4

AB13A8259CB25

4

WA

907 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(0) qc.h(0) return qc '''

QPC001_A4

AB13A8259CB25

5

AC

1599 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

AB2240083B199

1

WA

1662 ms

142 MiB

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

QPC001_A4

AB2240083B199

2

RE

'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta = 2 * math.asin(math.sqrt(1/3) theta1 = 2 * math.asin(math.sqrt(1/2) qc.ry(theta, 0) qc.ry(theta1, 1) qc.cx(0,1) return qc '''

QPC001_A4

AB2240083B199

3

RE

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

QPC001_A4

AB2240083B199

4

RE

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

QPC001_A4

AB2240083B199

5

WA

1750 ms

142 MiB

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

QPC001_A4

AB2240083B199

6

AC

1655 ms

142 MiB

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

QPC001_A4

AB3297A19C0A6

1

AC

909 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

AB329F6E6AD6A

1

RE

807 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.u(2*math.acos(1/np.sqrt(3)),0,0,0) qc.u(0,0,-math.pi/2,1) qc.cx(0,1) qc.u(math.pi/4,0,-math.pi/2,1) qc.cx(0,1) qc.u(math.pi,0,-math.pi/2,0) qc.u(math.pi/4,0,math.pi,1) return qc '''

QPC001_A4

AB329F6E6AD6A

2

WA

885 ms

91 MiB

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

QPC001_A4

AB329F6E6AD6A

3

AC

836 ms

90 MiB

'''python from qiskit import QuantumCircuit from qiskit.circuit.library import CHGate def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc = QuantumCircuit(2) qc.h(0) qc.append(CHGate(ctrl_state=0),[0,1]) return qc '''

QPC001_A4

AB4415A7C94D9

1

AC

999 ms

90 MiB

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

QPC001_A4

AB44ED6344AD1

1

WA

845 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(0, 1) return qc '''

QPC001_A4

AB44ED6344AD1

2

AC

846 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

AB482FBCB0D19

1

WA

831 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

2

WA

828 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

3

WA

1063 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

4

WA

1034 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

5

WA

878 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

6

WA

898 ms

90 MiB

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

QPC001_A4

AB482FBCB0D19

7

WA

1473 ms

91 MiB

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

QPC001_A4

AB482FBCB0D19

8

AC

1008 ms

91 MiB

'''python from qiskit import QuantumCircuit import math def solve() -> QuantumCircuit: qc = QuantumCircuit(2) qc.ry(1.2310,0) qc.ry(math.pi/4,1) qc.x(0) qc.cnot(0,1) qc.x(0) qc.ry(-1*math.pi/4,1) # Write your code here: return qc '''

QPC001_A4

AB4DDE688092F

1

AC

948 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

AB5BA0AC6D6E0

1

AC

1600 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

AB6165763BE51

1

WA

836 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) return qc '''

QPC001_A4

AB6165763BE51

2

AC

867 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

AB6E47DC10F04

1

WA

1137 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) return qc '''

QPC001_A4

AB6E47DC10F04

2

AC

1120 ms

141 MiB

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

QPC001_A4

ABB8A37FA02CD

1

WA

827 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.cx(0,1) return qc '''

QPC001_A4

ABBBEA5F8C79F

1

UGE

1479 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: a0 = 1 a1 = 1 a2 = 1 a3 = 0 norm = (a0**2 + a1**2 + a2**2 + a3**2)**0.5 state = [a0/norm, a1/norm, a2/norm, a3/norm] # Initialize the qubits to the desired state qc.initialize(state, [0, 1]) return qc '''

QPC001_A4

ABBBEA5F8C79F

2

RE

1481 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * np.arccos(a0 / np.sqrt(a0**2 + a1**2)) qc.ry(theta1, 0) # RY rotation on the first qubit # Step 2: Apply a controlled RY gate to the second qubit based on the first theta2 = 2 * np.arccos(np.sqrt(a0**2 + a1**2) / np.sqrt(a0**2 + a1**2 + a2**2)) qc.cry(theta2, 0, 1) # Controlled RY gate # Step 3: Apply a Pauli-X gate to flip the first qubit qc.cx(0, 1) # Initialize the qubits to the desired state qc.initialize(state, [0, 1]) return qc '''

QPC001_A4

ABBBEA5F8C79F

3

RE

1494 ms

139 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * math.acos(a0 / math.sqrt(a0**2 + a1**2)) qc.ry(theta1, 0) # RY rotation on the first qubit # Step 2: Apply a controlled RY gate to the second qubit based on the first theta2 = 2 * math.acos(math.sqrt(a0**2 + a1**2) / math.sqrt(a0**2 + a1**2 + a2**2)) qc.cry(theta2, 0, 1) # Controlled RY gate # Step 3: Apply a CNOT gate to entangle the qubits qc.cx(0, 1) return qc '''

QPC001_A4

ABBBEA5F8C79F

4

WA

1421 ms

140 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) qc.cx(1,0) qc.x(1) return qc '''

QPC001_A4

ABBBEA5F8C79F

5

RE

1455 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: theta1 = 2 * math.acos(a0 / math.sqrt(a0**2 + a1**2)) qc.ry(theta1, 0) # Step 2: Apply Controlled RY gate on qubit 1 based on qubit 0 to adjust amplitude for |01> theta2 = 2 * math.acos(a2 / math.sqrt(a1**2 + a2**2)) qc.ry(theta2, 1) qc.cx(0, 1) return qc '''

QPC001_A4

ABBBEA5F8C79F

6

AC

1393 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

ABC590A2D2393

1

AC

1422 ms

143 MiB

'''python from qiskit import QuantumCircuit #from qiskit.quantum_info import Statevector import numpy as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.ch(0,1) qc.cx(1,0) # qc.rxx(np.pi/10,0,1) return qc qc = solve() print(qc) #print(Statevector(qc)) '''

QPC001_A4

ABC875C7D3A19

1

RE

756 ms

79 MiB

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

QPC001_A4

ABC875C7D3A19

2

RE

729 ms

79 MiB

'''python from qiskit import QuantumCircuit def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: from qiskit.circuit.library import HGate, CXGate, MCPhaseGate, MCMT qc.h(0) ch = MCMT(HGate, 1, 1) qc.append(ch, qargs = [0, 1]) qc.x(0) return qc '''

QPC001_A4

ABC875C7D3A19

3

AC

825 ms

90 MiB

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

QPC001_A4

ABCAEEFCFB78B

1

AC

1925 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

ABCB776EBABCA

1

AC

1967 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

ABE14EF797755

1

AC

867 ms

91 MiB

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

QPC001_A4

ABE161911D268

1

UME

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

QPC001_A4

ABE161911D268

2

UME

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

QPC001_A4

ABE161911D268

3

RE

758 ms

79 MiB

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

QPC001_A4

ABE161911D268

4

RE

1491 ms

79 MiB

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

QPC001_A4

ABE161911D268

5

RE

742 ms

79 MiB

'''python from qiskit import QuantumCircuit from numpy import as np def solve() -> QuantumCircuit: qc = QuantumCircuit(2) # Write your code here: qc.h(0) qc.cx(0,1) qc.cry(np.arccos(1/np.sqrt(3),1,0)) qc.cx(0,1) return qc '''

QPC001_A4

ABE161911D268

6

RE

804 ms

79 MiB

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

QPC001_A4

ABE161911D268

7

RE

935 ms

79 MiB

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

QPC001_A4

ABE161911D268

8

AC

882 ms

90 MiB

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

QPC001_A4

AC010F4C8172F

1

WA

1255 ms

141 MiB

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

QPC001_A4

AC010F4C8172F

2

WA

1272 ms

141 MiB

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