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
QPC002_A3	A3ED70DB4079E	14	WA	1102 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.z(i) qc.h(i) for i in range(n-1): qc.cz(i, i+1) return qc '''
QPC002_A3	A3ED70DB4079E	15	AC	1927 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(i, i+1) return qc '''
QPC002_A3	A3F7308F7CC04	1	RE	1599 ms	149 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: pc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A3F7308F7CC04	2	RE	1258 ms	149 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A3F7308F7CC04	3	RE	1655 ms	149 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A3F7308F7CC04	4	RE	1463 ms	149 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: if i!=0: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A3F7308F7CC04	5	RE	1502 ms	150 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: if i!=0: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A3F7308F7CC04	6	AC	1814 ms	153 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n, 1): if i!=0: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A42066F232F72	1	RE	2859 ms	157 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0, 1) qc.cx(0, 2) qc.cx(0, 3) qc.z(0) return qc '''
QPC002_A3	A42066F232F72	2	AC	2107 ms	163 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A487302D063D7	1	RE	1428 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(n): qc.cx(0,n+1) qc.crx(2*math.pi,0,1) return qc '''
QPC002_A3	A487302D063D7	2	RE	1223 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n) qc.crx(2*math.pi,0,1) return qc '''
QPC002_A3	A487302D063D7	3	RE	1445 ms	140 MiB	'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n+1) qc.crx(2*math.pi,0,1) return qc '''
QPC002_A3	A487302D063D7	4	RE	1442 ms	140 MiB	'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n) qc.crx(2*math.pi,0,1) return qc '''
QPC002_A3	A487302D063D7	5	AC	2037 ms	143 MiB	'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,a) qc.crx(2*math.pi,0,1) return qc '''
QPC002_A3	A4C0DF019DEF2	1	RE	1343 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0,range(n)) qc.z(0) return qc '''
QPC002_A3	A4C0DF019DEF2	2	AC	1731 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0,range(1,n)) qc.z(0) return qc '''
QPC002_A3	A4D0B66A88E39	1	RE	1542 ms	153 MiB	'''python def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(i, i+1) return qc '''
QPC002_A3	A4D0B66A88E39	2	AC	1711 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(i, i+1) return qc '''
QPC002_A3	A4D5EAB6B0023	1	AC	2138 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0, i) return qc '''
QPC002_A3	A535A988DFA08	1	RE	1118 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n-1): qc.cx(n,n+1) qc.z(0) return qc '''
QPC002_A3	A535A988DFA08	2	AC	2228 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n-1): qc.cx(i,i+1) qc.z(0) return qc '''
QPC002_A3	A53A1127704A3	1	AC	1701 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0, i) qc.cz(0, 1) return qc '''
QPC002_A3	A541E59542864	1	AC	2905 ms	160 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n-1): qc.cx(i, i+1) qc.z(0) return qc '''
QPC002_A3	A54CCA61D9025	1	AC	2288 ms	163 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A57D7932F652A	1	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: wc.h(0) for i in range(1, n);: qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A57D7932F652A	2	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n);: qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A57D7932F652A	3	RE	1061 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: c.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A57D7932F652A	4	AC	1662 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A59FE1CADE361	1	WA	2665 ms	158 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A59FE1CADE361	2	AC	2789 ms	161 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A5A693494A58B	1	AC	2134 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0,range(1,n)) qc.cz(0, n-1) return qc '''
QPC002_A3	A5A76115B9E42	1	RE	1123 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n) qc.z(n) for i in range(n): qc.cx(n-i,n-i-1) return qc '''
QPC002_A3	A5A76115B9E42	2	RE	1279 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n) qc.z(n) for i in range(n): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A3	A5A76115B9E42	3	RE	1322 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n) qc.z(n) for i in range(n): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A3	A5A76115B9E42	4	RE	1197 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n) qc.z(n) for i in range(n-1): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A3	A5A76115B9E42	5	RE	1081 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n) qc.z(n) for i in range(n-1): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A3	A5A76115B9E42	6	AC	2370 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n-1) qc.z(n-1) for i in range(n-1): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A3	A5B2505DB00DC	1	WA	1332 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) # 1/sqrt(2) * (\|000...> + \|100...>) for i in range(1,n): qc.cx(0, i) # 1/sqrt(2) * (\|000...> + \|111...>) for i in range(1,n): qc.z(i) ...
QPC002_A3	A5B2505DB00DC	2	AC	2296 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) # 1/sqrt(2) * (\|000...> + \|100...>) for i in range(1,n): qc.cx(0, i) # 1/sqrt(2) * (\|000...> + \|111...>) qc.z(1) return qc '''
QPC002_A3	A5E281DE4FFDA	1	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.h(i) qc.cx(i,i+1) qc.z(i+1) return qc '''
QPC002_A3	A5E281DE4FFDA	2	WA	1138 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n)) qc.cx(range(n-1),range(1,n)) qc.z(range(n)) return qc '''
QPC002_A3	A5E281DE4FFDA	3	RE	1095 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n)) qc.cx(range(n),range(n+1)) qc.z(range(n+1)) return qc '''
QPC002_A3	A5E281DE4FFDA	4	RE	1158 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n)) qc.cz(range(n),range(n+1)) return qc '''
QPC002_A3	A5E281DE4FFDA	5	RE	1074 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n-1)) qc.cx(range(n-1),range(n)) qc.z(range(n)) return qc '''
QPC002_A3	A5E281DE4FFDA	6	RE	1138 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n)) qc.cx(range(n-1),range(n)) qc.z(range(n)) return qc '''
QPC002_A3	A5E281DE4FFDA	7	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.h(i) for j in range(i+1, n): cx(i, j) return qc '''
QPC002_A3	A5E281DE4FFDA	8	AC	2014 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A6011AB7B5C22	1	AC	2554 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A3	A6169A0E80616	1	AC	1783 ms	157 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0, i) return qc '''
QPC002_A3	A624B6EDFEEF1	1	WA	1162 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0); qc.h(0); for i in range(1, n-1): qc.cx(0, i); # Write your code here: return qc '''
QPC002_A3	A624B6EDFEEF1	2	AC	2324 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0); qc.h(0); for i in range(1, n): qc.cx(0, i); # Write your code here: return qc '''
QPC002_A3	A63255A96D0F0	1	WA	1223 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Apply Hadamard gate to all qubits to create superposition qc.h(range(n)) # Apply Z gate to flip the phase of \|1...1⟩ qc.z(range(n)) return qc '''
QPC002_A3	A63255A96D0F0	2	WA	1524 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Step 1: Apply Hadamard gates to all qubits for i in range(n): qc.h(i) # Step 2: Apply X gates to all qubits for i in range(n): qc.x(i) # Step 3: Apply a mult...
QPC002_A3	A63255A96D0F0	3	AC	2269 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) return qc '''
QPC002_A3	A63472BB0E1F9	1	AC	1681 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1, n): qc.cx(0, i) return qc '''
QPC002_A3	A6612BAAB3F55	1	WA	1175 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A6612BAAB3F55	2	AC	2188 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A677C117D4DCF	1	RE	1079 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n - 1): cx(0, i + 1) return qc '''
QPC002_A3	A6A439EBFEB57	1	AC	2537 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A6B9241AFB198	1	RE	2017 ms	157 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(n-1) return qc '''
QPC002_A3	A6B9241AFB198	2	RE	1998 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(1) return qc '''
QPC002_A3	A6B9241AFB198	3	RE	1878 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(1) return qc '''
QPC002_A3	A6B9241AFB198	4	AC	2265 ms	161 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n-1): qc.cx(0,i+1) qc.z(1) return qc '''
QPC002_A3	A6CB30F6E0790	1	AC	2118 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0, i) qc.cz(0, 1) return qc '''
QPC002_A3	A6CE727840065	1	RE	1244 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n): qc.cx(0, i) return qc '''
QPC002_A3	A6CE727840065	2	AC	2699 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A6DF61E454DFD	1	RE	1147 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n): qc.cx(0, i) return qc '''
QPC002_A3	A6DF61E454DFD	2	AC	1815 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(1, n): qc.cx(0, i) return qc '''
QPC002_A3	A6F5F8B5E2EDA	1	AC	2031 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(i, i+1) return qc '''
QPC002_A3	A6FB159CE921B	1	AC	2078 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n-1): qc.cx(0,i+1) qc.cz(0,1) return qc '''
QPC002_A3	A71E21B3BF5F8	1	AC	2025 ms	145 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): j = (1<<(i.bit_length()-1)) qc.cx(i-j,i) qc.z(0) return qc '''
QPC002_A3	A749C6F062959	1	AC	1793 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n-1): qc.cx(0,i+1) return qc '''
QPC002_A3	A74DB5F7D04F3	1	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n) qc.cx(0,i) return qc '''
QPC002_A3	A74DB5F7D04F3	2	RE	1110 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n): qc.cx(0,i) return qc '''
QPC002_A3	A74DB5F7D04F3	3	RE	1191 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n-1): qc.cx(0,i) return qc '''
QPC002_A3	A74DB5F7D04F3	4	RE	1179 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n-1): qc.cx(0,i) return qc '''
QPC002_A3	A74DB5F7D04F3	5	AC	2207 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) for i in range(n-1): i+=1 qc.cx(0,i) return qc '''
QPC002_A3	A7693A84F43CC	1	AC	2290 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(n-1) return qc '''
QPC002_A3	A79304331F152	1	AC	1715 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(0, i+1) return qc '''
QPC002_A3	A7B93D596BD06	1	AC	2257 ms	157 MiB	'''python from qiskit import QuantumCircuit # from qiskit.quantum_info import Statevector def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(4): for j in range(2i): if j+2i<n: qc.cx(j, j+2**i) ...
QPC002_A3	A7BCAFED92981	1	AC	2147 ms	163 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.cx(control_qubit=0, target_qubit=i) qc.cz(control_qubit=0, target_qubit=1) return qc '''
QPC002_A3	A7BEE6F023B2B	1	RE	1585 ms	144 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) qc.cx(0,1) qc.cx(1,2) qc.cx(2,3) return qc '''
QPC002_A3	A7BEE6F023B2B	2	RE	1442 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0,1) qc.cx(1,2) qc.cx(2,3) qc.z(0) return qc '''
QPC002_A3	A7BEE6F023B2B	3	AC	2823 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(n-1): qc.cx(i,i+1) qc.z(0) return qc '''
QPC002_A3	A7CA1EF76C7DE	1	WA	1136 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A7CA1EF76C7DE	2	AC	2301 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): qc.cx(0,i) qc.z(0) return qc '''
QPC002_A3	A7CA3B2DC84FA	1	AC	1847 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(1, n): qc.cx(0, i) return qc '''
QPC002_A3	A7FF2AA6B9863	1	AC	2294 ms	161 MiB	'''python from qiskit import QuantumCircuit def solve(n) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) for i in range(1, n): qc.cx(0, i) return qc '''
QPC002_A3	A815E6BE94D86	1	RE	1759 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0) qc.z(0) return qc '''
QPC002_A3	A815E6BE94D86	2	RE	1701 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(i) qc.z(0) return qc '''
QPC002_A3	A815E6BE94D86	3	RE	1812 ms	156 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0, i) qc.z(0) return qc '''
QPC002_A3	A815E6BE94D86	4	AC	2057 ms	161 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n-1): qc.cx(0, i+1) qc.z(0) return qc '''
QPC002_A3	A835D193B30D1	1	WA	1281 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) for i in range(n): qc.h(i) return qc '''
QPC002_A3	A835D193B30D1	2	WA	1702 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) for i in range(n): qc.h(i) return qc '''
QPC002_A3	A835D193B30D1	3	WA	1054 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.cx(0,i) return qc '''
QPC002_A3	A835D193B30D1	4	RE	1200 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.c(0,i) return qc '''
QPC002_A3	A85E05D43AB92	1	WA	1118 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-2): qc.cx(i, i+1) return qc '''
QPC002_A3	A85E05D43AB92	2	RE	1235 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n): qc.cx(i, i+1) return qc '''
QPC002_A3	A85E05D43AB92	3	RE	1120 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n): qc.cx(i, i+1) return qc '''

QPC002_A3

A3ED70DB4079E

14

WA

1102 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.z(i) qc.h(i) for i in range(n-1): qc.cz(i, i+1) return qc '''

QPC002_A3

A3ED70DB4079E

15

AC

1927 ms

143 MiB

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

QPC002_A3

A3F7308F7CC04

1

RE

1599 ms

149 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: pc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A3F7308F7CC04

2

RE

1258 ms

149 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A3F7308F7CC04

3

RE

1655 ms

149 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A3F7308F7CC04

4

RE

1463 ms

149 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: if i!=0: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A3F7308F7CC04

5

RE

1502 ms

150 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in n: if i!=0: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A3F7308F7CC04

6

AC

1814 ms

153 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1, n, 1): if i!=0: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A3

A42066F232F72

1

RE

2859 ms

157 MiB

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

QPC002_A3

A42066F232F72

2

AC

2107 ms

163 MiB

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

QPC002_A3

A487302D063D7

1

RE

1428 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(n): qc.cx(0,n+1) qc.crx(2*math.pi,0,1) return qc '''

QPC002_A3

A487302D063D7

2

RE

1223 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n) qc.crx(2*math.pi,0,1) return qc '''

QPC002_A3

A487302D063D7

3

RE

1445 ms

140 MiB

'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n+1) qc.crx(2*math.pi,0,1) return qc '''

QPC002_A3

A487302D063D7

4

RE

1442 ms

140 MiB

'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,n) qc.crx(2*math.pi,0,1) return qc '''

QPC002_A3

A487302D063D7

5

AC

2037 ms

143 MiB

'''python from qiskit import QuantumCircuit import math def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for a in range(1, n): qc.cx(0,a) qc.crx(2*math.pi,0,1) return qc '''

QPC002_A3

A4C0DF019DEF2

1

RE

1343 ms

156 MiB

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

QPC002_A3

A4C0DF019DEF2

2

AC

1731 ms

162 MiB

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

QPC002_A3

A4D0B66A88E39

1

RE

1542 ms

153 MiB

'''python def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(n-1): qc.cx(i, i+1) return qc '''

QPC002_A3

A4D0B66A88E39

2

AC

1711 ms

156 MiB

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

QPC002_A3

A4D5EAB6B0023

1

AC

2138 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0, i) return qc '''

QPC002_A3

A535A988DFA08

1

RE

1118 ms

140 MiB

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

QPC002_A3

A535A988DFA08

2

AC

2228 ms

143 MiB

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

QPC002_A3

A53A1127704A3

1

AC

1701 ms

143 MiB

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

QPC002_A3

A541E59542864

1

AC

2905 ms

160 MiB

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

QPC002_A3

A54CCA61D9025

1

AC

2288 ms

163 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1, n): qc.cx(0, i) qc.z(0) return qc '''

QPC002_A3

A57D7932F652A

1

RE

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: wc.h(0) for i in range(1, n);: qc.cx(0, i) qc.z(0) return qc '''

QPC002_A3

A57D7932F652A

2

RE

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

QPC002_A3

A57D7932F652A

3

RE

1061 ms

140 MiB

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

QPC002_A3

A57D7932F652A

4

AC

1662 ms

143 MiB

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

QPC002_A3

A59FE1CADE361

1

WA

2665 ms

158 MiB

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

QPC002_A3

A59FE1CADE361

2

AC

2789 ms

161 MiB

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

QPC002_A3

A5A693494A58B

1

AC

2134 ms

143 MiB

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

QPC002_A3

A5A76115B9E42

1

RE

1123 ms

140 MiB

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

QPC002_A3

A5A76115B9E42

2

RE

1279 ms

140 MiB

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

QPC002_A3

A5A76115B9E42

3

RE

1322 ms

140 MiB

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

QPC002_A3

A5A76115B9E42

4

RE

1197 ms

140 MiB

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

QPC002_A3

A5A76115B9E42

5

RE

1081 ms

140 MiB

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

QPC002_A3

A5A76115B9E42

6

AC

2370 ms

143 MiB

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

QPC002_A3

A5B2505DB00DC

1

WA

1332 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) # 1/sqrt(2) * (|000...> + |100...>) for i in range(1,n): qc.cx(0, i) # 1/sqrt(2) * (|000...> + |111...>) for i in range(1,n): qc.z(i) ...

QPC002_A3

A5B2505DB00DC

2

AC

2296 ms

143 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) # 1/sqrt(2) * (|000...> + |100...>) for i in range(1,n): qc.cx(0, i) # 1/sqrt(2) * (|000...> + |111...>) qc.z(1) return qc '''

QPC002_A3

A5E281DE4FFDA

1

RE

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.h(i) qc.cx(i,i+1) qc.z(i+1) return qc '''

QPC002_A3

A5E281DE4FFDA

2

WA

1138 ms

140 MiB

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

QPC002_A3

A5E281DE4FFDA

3

RE

1095 ms

140 MiB

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

QPC002_A3

A5E281DE4FFDA

4

RE

1158 ms

140 MiB

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

QPC002_A3

A5E281DE4FFDA

5

RE

1074 ms

140 MiB

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

QPC002_A3

A5E281DE4FFDA

6

RE

1138 ms

141 MiB

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

QPC002_A3

A5E281DE4FFDA

7

RE

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: for i in range(n): qc.h(i) for j in range(i+1, n): cx(i, j) return qc '''

QPC002_A3

A5E281DE4FFDA

8

AC

2014 ms

143 MiB

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

QPC002_A3

A6011AB7B5C22

1

AC

2554 ms

142 MiB

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

QPC002_A3

A6169A0E80616

1

AC

1783 ms

157 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1,n): qc.cx(0, i) return qc '''

QPC002_A3

A624B6EDFEEF1

1

WA

1162 ms

140 MiB

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

QPC002_A3

A624B6EDFEEF1

2

AC

2324 ms

142 MiB

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

QPC002_A3

A63255A96D0F0

1

WA

1223 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Apply Hadamard gate to all qubits to create superposition qc.h(range(n)) # Apply Z gate to flip the phase of |1...1⟩ qc.z(range(n)) return qc '''

QPC002_A3

A63255A96D0F0

2

WA

1524 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Step 1: Apply Hadamard gates to all qubits for i in range(n): qc.h(i) # Step 2: Apply X gates to all qubits for i in range(n): qc.x(i) # Step 3: Apply a mult...

QPC002_A3

A63255A96D0F0

3

AC

2269 ms

142 MiB

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

QPC002_A3

A63472BB0E1F9

1

AC

1681 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.z(0) for i in range(1, n): qc.cx(0, i) return qc '''

QPC002_A3

A6612BAAB3F55

1

WA

1175 ms

140 MiB

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

QPC002_A3

A6612BAAB3F55

2

AC

2188 ms

142 MiB

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

QPC002_A3

A677C117D4DCF

1

RE

1079 ms

140 MiB

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

QPC002_A3

A6A439EBFEB57

1

AC

2537 ms

142 MiB

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

QPC002_A3

A6B9241AFB198

1

RE

2017 ms

157 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(n-1) return qc '''

QPC002_A3

A6B9241AFB198

2

RE

1998 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(1) return qc '''

QPC002_A3

A6B9241AFB198

3

RE

1878 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0,i) qc.z(1) return qc '''

QPC002_A3

A6B9241AFB198

4

AC

2265 ms

161 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n-1): qc.cx(0,i+1) qc.z(1) return qc '''

QPC002_A3

A6CB30F6E0790

1

AC

2118 ms

143 MiB

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

QPC002_A3

A6CE727840065

1

RE

1244 ms

140 MiB

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

QPC002_A3

A6CE727840065

2

AC

2699 ms

143 MiB

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

QPC002_A3

A6DF61E454DFD

1

RE

1147 ms

140 MiB

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

QPC002_A3

A6DF61E454DFD

2

AC

1815 ms

142 MiB

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

QPC002_A3

A6F5F8B5E2EDA

1

AC

2031 ms

143 MiB

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

QPC002_A3

A6FB159CE921B

1

AC

2078 ms

142 MiB

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

QPC002_A3

A71E21B3BF5F8

1

AC

2025 ms

145 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) for i in range(1,n): j = (1<<(i.bit_length()-1)) qc.cx(i-j,i) qc.z(0) return qc '''

QPC002_A3

A749C6F062959

1

AC

1793 ms

142 MiB

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

QPC002_A3

A74DB5F7D04F3

1

RE

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

QPC002_A3

A74DB5F7D04F3

2

RE

1110 ms

140 MiB

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

QPC002_A3

A74DB5F7D04F3

3

RE

1191 ms

140 MiB

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

QPC002_A3

A74DB5F7D04F3

4

RE

1179 ms

140 MiB

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

QPC002_A3

A74DB5F7D04F3

5

AC

2207 ms

143 MiB

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

QPC002_A3

A7693A84F43CC

1

AC

2290 ms

143 MiB

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

QPC002_A3

A79304331F152

1

AC

1715 ms

143 MiB

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

QPC002_A3

A7B93D596BD06

1

AC

2257 ms

157 MiB

'''python from qiskit import QuantumCircuit # from qiskit.quantum_info import Statevector def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) for i in range(4): for j in range(2**i): if j+2**i<n: qc.cx(j, j+2**i) ...

QPC002_A3

A7BCAFED92981

1

AC

2147 ms

163 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.cx(control_qubit=0, target_qubit=i) qc.cz(control_qubit=0, target_qubit=1) return qc '''

QPC002_A3

A7BEE6F023B2B

1

RE

1585 ms

144 MiB

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

QPC002_A3

A7BEE6F023B2B

2

RE

1442 ms

141 MiB

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

QPC002_A3

A7BEE6F023B2B

3

AC

2823 ms

143 MiB

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

QPC002_A3

A7CA1EF76C7DE

1

WA

1136 ms

141 MiB

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

QPC002_A3

A7CA1EF76C7DE

2

AC

2301 ms

143 MiB

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

QPC002_A3

A7CA3B2DC84FA

1

AC

1847 ms

143 MiB

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

QPC002_A3

A7FF2AA6B9863

1

AC

2294 ms

161 MiB

'''python from qiskit import QuantumCircuit def solve(n) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) for i in range(1, n): qc.cx(0, i) return qc '''

QPC002_A3

A815E6BE94D86

1

RE

1759 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0) qc.z(0) return qc '''

QPC002_A3

A815E6BE94D86

2

RE

1701 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(i) qc.z(0) return qc '''

QPC002_A3

A815E6BE94D86

3

RE

1812 ms

156 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n): qc.cx(0, i) qc.z(0) return qc '''

QPC002_A3

A815E6BE94D86

4

AC

2057 ms

161 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(n-1): qc.cx(0, i+1) qc.z(0) return qc '''

QPC002_A3

A835D193B30D1

1

WA

1281 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) for i in range(n): qc.h(i) return qc '''

QPC002_A3

A835D193B30D1

2

WA

1702 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) for i in range(n): qc.h(i) return qc '''

QPC002_A3

A835D193B30D1

3

WA

1054 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.cx(0,i) return qc '''

QPC002_A3

A835D193B30D1

4

RE

1200 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) for i in range(1,n): qc.c(0,i) return qc '''

QPC002_A3

A85E05D43AB92

1

WA

1118 ms

140 MiB

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

QPC002_A3

A85E05D43AB92

2

RE

1235 ms

140 MiB

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

QPC002_A3

A85E05D43AB92

3

RE

1120 ms

141 MiB

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