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_A4	A32CBC4CD7E84	3	AC	1895 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): if i%2==0: qc.cx(1,i) else: qc.cx(0,i) qc.z(0) return qc '''
QPC002_A4	A3402602FAA4C	1	WA	2702 ms	155 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) for i in range(1,n // 2): qc.cx(0,2 * i) qc.cx(1,2 * i + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return ...
QPC002_A4	A3402602FAA4C	2	AC	2243 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) for i in range(1,n // 2): qc.cx(0,2 * i) qc.cx(1,2 * i + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return qc '''
QPC002_A4	A348B6FBC1C69	1	WA	2013 ms	162 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)//2): qc.cx(0, i) for j in range((n + 1)//2, n): qc.cx(j - (n+1)//2, j) return qc '''
QPC002_A4	A348B6FBC1C69	2	AC	2173 ms	162 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)//2): qc.cx(0, i) for j in range((n + 1)//2, n): qc.cx(j - (n+1)//2, j) qc.z(0) return qc '''
QPC002_A4	A364B9BE612CE	1	AC	2259 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) qc0 = QuantumCircuit(n-1) for i in range(n-1): qc0.x(i) cxgates = qc0.to_gate().control(1) qc.append(cxgates, range(n)) return ...
QPC002_A4	A36518D5A8D75	1	WA	1107 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(range(n)) if n == 2: qc.cz(0, 1) else: qc.h(n-1) qc.mcx(list(range(n-1)), n-1) qc.h(n-1) return qc '''
QPC002_A4	A38153CFF44EC	1	DLE	1163 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(0,i+1) qc.cz(0,1) return qc '''
QPC002_A4	A391E87457BC1	1	DLE	1471 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(0, i+1) qc.z(0) return qc '''
QPC002_A4	A391E87457BC1	2	AC	2290 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) step = 1 while step < n: for i in range(step): if step + i < n: qc.cx(i, step + i) else: break step *= 2 ...
QPC002_A4	A456F813F38D7	1	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(n-1) qc.z(n-) for i in range(n-1): qc.cx(n-i-1,n-i-2) return qc '''
QPC002_A4	A456F813F38D7	2	DLE	1378 ms	141 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_A4	A47C938F67E74	1	WA	1338 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: mid = n // 2 qc.x(mid) qc.h(mid) for i in range(mid + 1, n): qc.cx(mid, i) for i in range(mid - 1): qc.cx(mid, i) return qc '''
QPC002_A4	A47C938F67E74	2	DLE	1442 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: # mid = n // 2 # qc.x(mid) # qc.h(mid) # for i in range(mid + 1, n): # qc.cx(mid, i) # for i in range(mid - 1): # qc.cx(mid, i) qc.x(0) ...
QPC002_A4	A47C938F67E74	3	DLE	1225 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: # mid = n // 2 # qc.x(mid) # qc.h(mid) # for i in range(mid + 1, n): # qc.cx(mid, i) # for i in range(mid - 1): # qc.cx(mid, i) qc.x(0) ...
QPC002_A4	A47C938F67E74	4	AC	2079 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) for m in range(n): for k in range(2 m): if ((2 m) + k) >= n: break qc.cx(k, 2 ** m + k) return qc '''
QPC002_A4	A48D8A892B32D	1	RE	1141 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >= n: continue qc.cx...
QPC002_A4	A48D8A892B32D	2	WA	1242 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) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >= n: continue ...
QPC002_A4	A48D8A892B32D	3	AC	3000 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) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >= n: continue ...
QPC002_A4	A491559766596	1	AC	2294 ms	163 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) controls = [0, 0, 1, 0, 1, 2, 3, 0, 1, 2, 3, 4, 5, 6, 7,] for i in range(1, n): qc.cx(controls[i - 1], i) return qc '''
QPC002_A4	A49741052A04A	1	AC	2243 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) if n < 6: for i in range(1, n): qc.cx(0, i) else: for i in range(1, 5): qc.cx(0, i) if n < 9: for i in range(5, n):...
QPC002_A4	A4997764F5593	1	AC	2077 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.cx(0,1) now = 1 while now<=n-1: for i in range(now): if now+i+1>=n: ...
QPC002_A4	A4CAF3458F829	1	DLE	1378 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) qc.z(0) return qc '''
QPC002_A4	A4CAF3458F829	2	AC	2258 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): j=i for k in reversed(range(60)): if (1<<k)&i: j^=1<<k break qc.cx(j,i) q...
QPC002_A4	A4D40D79EDCA4	1	AC	1873 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: is_odd = n % 2 mid = n//2 rang = n//2 if not is_odd: mid -= 1 rang -= 1 qc.h(mid) qc.z(mid) for i in range(rang): qc.cx(mid +...
QPC002_A4	A500091EAA764	1	AC	1806 ms	161 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) for _ in range(1,n // 2): qc.cx(0,_ * 2) qc.cx(1,_ * 2 + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return qc '''
QPC002_A4	A512CB8E0E5FC	1	WA	1138 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): if i % 2 == 0: if i != 0: qc.x(i) if i != n - 1: qc.cx(i, i + 1) fo...
QPC002_A4	A512CB8E0E5FC	2	AC	2483 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) max_qubit = 1 for i in range(4): for j in range(2 i): qc.cx(j, j + 2 i) max_qubit = max(j + 2 ** i, max_qubit) ...
QPC002_A4	A515628DEC42F	1	AC	1654 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(int(i/2), i) return qc '''
QPC002_A4	A51B9FBCD736E	1	AC	1958 ms	143 MiB	'''python from qiskit import QuantumCircuit def get_ghz_circuit(n_bits: int) -> QuantumCircuit: qc = QuantumCircuit(n_bits) qc.h(0) m = 0 while 1 << m < n_bits: m += 1 for k in range(m): d = 1 << k for i in range(d): if i + d < n_bits: qc.cx(i, i + d) return qc def...
QPC002_A4	A55207EECD40F	1	AC	1732 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) qc.cx(0,1) if n>2: ent_num=1 ent_num_tmp=1 while(True): for i in range(ent_num+1): qc.cx(i, ent_n...
QPC002_A4	A56D21B9A9767	1	UME			'''python from qiskit import QuantumCircuit from collections import deque def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) kouho = deque([]) for i in range(n-1): target = i + 1 if kouho: a = kouho.popleft() qc.cx(a,...
QPC002_A4	A56D21B9A9767	2	AC	1774 ms	157 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) kouho = [] for i in range(n-1): target = i + 1 if kouho: a = kouho.pop() qc.cx(a, target) else: qc.cx(...
QPC002_A4	A5735DE8866E6	1	WA	1301 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: mid = n//2 qc.h(mid) qc.x(mid) for i in range(mid)[::-1]: qc.cx(i,i+1) for i in range(mid, n-1): qc.cx(i,i+1) return qc '''
QPC002_A4	A5735DE8866E6	2	AC	1994 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: mid = n//2 qc.x(mid) qc.h(mid) for i in range(mid)[::-1]: qc.cx(i+1,i) for i in range(mid, n-1): qc.cx(i,i+1) return qc '''
QPC002_A4	A576C32D73DAF	1	DLE	1081 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(1, n): qc.cx(0, i) return qc '''
QPC002_A4	A576C32D73DAF	2	DLE	1173 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(1, n): qc.cx(i-1, i) return qc '''
QPC002_A4	A579EB1F8A247	1	AC	2598 ms	143 MiB	'''python from qiskit import QuantumCircuit import numpy as np def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >= n:...
QPC002_A4	A59F662A5B605	1	DLE	1256 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): qc.cx(0, i+1) return qc '''
QPC002_A4	A59F662A5B605	2	AC	1822 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) qc.cx(0, n-1) for i in range(n//2): if n%2 == 0: if i != n//2-1: qc.cx(0, i+1) qc.cx(n-1, n-i-2) else: ...
QPC002_A4	A5ACBA3D1748E	1	RE	1064 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) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >= n: continue ...
QPC002_A4	A5ACBA3D1748E	2	AC	2449 ms	143 MiB	'''python from qiskit import QuantumCircuit import numpy as np def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 m): if k + 2 (m - 1) >=...
QPC002_A4	A5DA0DA8C95CC	1	AC	1768 ms	152 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) for i in range(2,n-1,2): qc.cx(0,i) qc.cx(i,i+1) if n%2!=0: qc.cx(0,n-1) qc.z(0) return qc '''
QPC002_A4	A5ED97528AF41	1	DLE	1536 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, 2): qc.cx(0, i) # 2回目の並列CNOT for i in range(2, n, 2): qc.cx(0, i) qc.z(n-1) return qc '''
QPC002_A4	A5ED97528AF41	2	RE	1126 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cnot(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (i...
QPC002_A4	A5ED97528AF41	3	WA	1067 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cx(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (idx...
QPC002_A4	A5ED97528AF41	4	AC	1833 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cx(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (idx...
QPC002_A4	A60CB7080B75D	1	RE	1608 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) targets = range(1, n) qc.append(MCXGate(len(targets)), [0] + list(targets)) qc.z(0) return qc '''
QPC002_A4	A60CB7080B75D	2	WA	1510 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.cz(0,i) qc.z(0) return qc '''
QPC002_A4	A60CB7080B75D	3	DLE	1107 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) qc.z(0) return qc '''
QPC002_A4	A62B7D5E54CC8	1	AC	2433 ms	160 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(i//2,i) return qc '''
QPC002_A4	A67B2CC3ADFB7	1	DLE	1152 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(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	2	WA	1541 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n <= 10): qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	3	WA	1153 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n <= 8): qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	4	WA	1420 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n > 8): n = 8 qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	5	WA	1184 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n > 8): n = 8 qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	6	WA	1740 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	7	WA	1768 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(max_n - 1) return qc '''
QPC002_A4	A67B2CC3ADFB7	8	WA	1131 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.cz(0, i) return qc '''
QPC002_A4	A67B2CC3ADFB7	9	DLE	1395 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) qc.z(0) return qc '''
QPC002_A4	A67B2CC3ADFB7	10	WA	1743 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n <= 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n > 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...
QPC002_A4	A67B2CC3ADFB7	11	WA	1127 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n <= 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n > 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...
QPC002_A4	A67B2CC3ADFB7	12	WA	1374 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n >= 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...
QPC002_A4	A67B2CC3ADFB7	13	WA	1520 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in range(n - 7): ...
QPC002_A4	A67B2CC3ADFB7	14	WA	1474 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...
QPC002_A4	A67B2CC3ADFB7	15	WA	1254 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...
QPC002_A4	A67B2CC3ADFB7	16	WA	1795 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...
QPC002_A4	A67B2CC3ADFB7	17	WA	2087 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 10): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 6, n - 1): qc.cx(i , i + 1) for i in range(n - 6): ...
QPC002_A4	A67B2CC3ADFB7	18	WA	1302 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 5): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...
QPC002_A4	A67B2CC3ADFB7	19	AC	1980 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) end = 1 while end < n: for left in range(end): qc.cx(left, end) end += 1 if end == n: break qc.z(0...
QPC002_A4	A688686540BF7	1	DLE	1375 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, range(1, n)) qc.cz(0, n-1) return qc '''
QPC002_A4	A688686540BF7	2	WA	1131 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): if not (n >> i) & 1: continue qc.cx(0, i) qc.cz(0, n-1) return qc '''
QPC002_A4	A688686540BF7	3	WA	1543 ms	140 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.x(range(1, n)) qc.z(n-1) return qc '''
QPC002_A4	A688686540BF7	4	DLE	1414 ms	140 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_A4	A69A63194421F	1	RE	1206 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) cnt = 0 now = [0] flag = True while flag: nxt = now[:] for i in now: if i+2**cnt == n: flag = fals...
QPC002_A4	A69A63194421F	2	AC	1786 ms	143 MiB	'''python from qiskit import QuantumCircuit a = [[0, 1], [0, 2], [1, 3], [0, 4], [1, 5], [2, 6], [3, 7], [0, 8], [1, 9], [2, 10], [3, 11], [4, 12], [5, 13], [6, 14]] 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....
QPC002_A4	A6A04F610E5B2	1	AC	1854 ms	145 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): if i2+1<n: qc.cx(i,i2+1) if i2+2<n: qc.cx(i,i2+2) return qc '''
QPC002_A4	A6A7A6FC1B07B	1	WA	1166 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.h(i) if n > 1: qc.h(n-1) qc.mcx(list(range(n-1)), n-1) qc.h(n-1) return qc '''
QPC002_A4	A6A7A6FC1B07B	2	WA	1087 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.h(i) # Apply X gate to all qubits to flip them for i in range(n): qc.x(i) # Apply controlled-Z gate between the first ...
QPC002_A4	A6EDFF2AFBC97	1	DLE	1160 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) qc.z(0) return qc '''
QPC002_A4	A6EDFF2AFBC97	2	DLE	1130 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(i, i+1) qc.z(0) return qc '''
QPC002_A4	A6EDFF2AFBC97	3	WA	1469 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, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): qc.cx(i, i+1) # ...
QPC002_A4	A6EDFF2AFBC97	4	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: qc.cx(0, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): ...
QPC002_A4	A6EDFF2AFBC97	5	WA	1951 ms	142 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: qc.cx(0, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): ...
QPC002_A4	A6EDFF2AFBC97	6	WA	1546 ms	141 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: qc.cx(0, n-1) for i in range(0, n//2): qc.cx(i, i+1) if n > 2: for i in range(n-1, n//2+1, ...
QPC002_A4	A6EDFF2AFBC97	7	AC	2539 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: if n > 2: qc.cx(0, n-1) for i in range(0, n//2): qc.cx(i, i+1) for i in range(n-1, n//2+1, -1): ...
QPC002_A4	A700E7ACC8A38	1	RE	1117 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): qc.c(i, i+1) return qc '''
QPC002_A4	A700E7ACC8A38	2	DLE	1303 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-1): qc.cx(i, i+1) return qc '''
QPC002_A4	A700E7ACC8A38	3	DLE	1091 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(0, n-1, 10): for j in range(i, min(i+10, n-1)): qc.cx(j, j+1) return qc '''
QPC002_A4	A700E7ACC8A38	4	RE	1281 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): qc.h(i + 1) qc.ccx(0, i, i + 1) qc.h(i + 1) return qc '''
QPC002_A4	A7165E93272A6	1	WA	1680 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(3,n,2): qc.cx(control_qubit=0, target_qubit=i-1) qc.cx(control_qubit=1, target_qubit=i) ...
QPC002_A4	A7165E93272A6	2	WA	1990 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(2,n-1,2): qc.cx(control_qubit=0, target_qubit=i) qc.cx(control_qubit=1, target_qubit=i+1) ...
QPC002_A4	A7165E93272A6	3	AC	1997 ms	162 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(2,n-1,2): qc.cx(control_qubit=0, target_qubit=i) qc.cx(control_qubit=1, target_qubit=i+1) if...
QPC002_A4	A71EF9A1C9F95	1	AC	2137 ms	143 MiB	'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: middle = n // 2 qc.h(middle) for i in range(middle, n - 1): qc.cx(i, i + 1) for i in range(middle, 0, -1): qc.cx(i, i - 1) qc.z(middle) retur...
QPC002_A4	A72870739AD8B	1	RE	1257 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) if n >= 8: qc.cx(0, 8) if n >= 12: qc.cx(8, 12) if n >= 14: qc.cx(12, 14) if n >= 15: qc.cx(14, 15) if n >...
QPC002_A4	A72870739AD8B	2	WA	1219 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) if n >= 9: qc.cx(0, 8) if n >= 13: qc.cx(8, 12) if n >= 15: qc.cx(12, 14) if n >= 5: qc.cx(0, 4) if n >= 7...
QPC002_A4	A72870739AD8B	3	RE			'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) if n >= 9: qc.cx(0, 8) if n >= 10: qc.cx(8, 9) if n >= 11: qc.cx(8, 10) if n >= 12: qc.cx(10, 11) if n >= ...
QPC002_A4	A72870739AD8B	4	AC	2021 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) if n >= 9: qc.cx(0, 8) if n >= 10: qc.cx(8, 9) if n >= 11: qc.cx(8, 10) if n >= 12: qc.cx(10, 11) if n >= ...
QPC002_A4	A7405ADD08DBA	1	AC	2122 ms	161 MiB	'''python from qiskit import QuantumCircuit def solve(n) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) l = 1 while l < n: r = min(n, 2 * l) for i in range(l, r): qc.cx(i - l, i) l = r return qc '''
QPC002_A4	A7456E98CECB0	1	RE	1116 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_A4

A32CBC4CD7E84

3

AC

1895 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): if i%2==0: qc.cx(1,i) else: qc.cx(0,i) qc.z(0) return qc '''

QPC002_A4

A3402602FAA4C

1

WA

2702 ms

155 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) for i in range(1,n // 2): qc.cx(0,2 * i) qc.cx(1,2 * i + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return ...

QPC002_A4

A3402602FAA4C

2

AC

2243 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) for i in range(1,n // 2): qc.cx(0,2 * i) qc.cx(1,2 * i + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return qc '''

QPC002_A4

A348B6FBC1C69

1

WA

2013 ms

162 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)//2): qc.cx(0, i) for j in range((n + 1)//2, n): qc.cx(j - (n+1)//2, j) return qc '''

QPC002_A4

A348B6FBC1C69

2

AC

2173 ms

162 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)//2): qc.cx(0, i) for j in range((n + 1)//2, n): qc.cx(j - (n+1)//2, j) qc.z(0) return qc '''

QPC002_A4

A364B9BE612CE

1

AC

2259 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) qc0 = QuantumCircuit(n-1) for i in range(n-1): qc0.x(i) cxgates = qc0.to_gate().control(1) qc.append(cxgates, range(n)) return ...

QPC002_A4

A36518D5A8D75

1

WA

1107 ms

140 MiB

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

QPC002_A4

A38153CFF44EC

1

DLE

1163 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(0,i+1) qc.cz(0,1) return qc '''

QPC002_A4

A391E87457BC1

1

DLE

1471 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(0, i+1) qc.z(0) return qc '''

QPC002_A4

A391E87457BC1

2

AC

2290 ms

143 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) step = 1 while step < n: for i in range(step): if step + i < n: qc.cx(i, step + i) else: break step *= 2 ...

QPC002_A4

A456F813F38D7

1

RE

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

QPC002_A4

A456F813F38D7

2

DLE

1378 ms

141 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_A4

A47C938F67E74

1

WA

1338 ms

140 MiB

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

QPC002_A4

A47C938F67E74

2

DLE

1442 ms

140 MiB

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

QPC002_A4

A47C938F67E74

3

DLE

1225 ms

140 MiB

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

QPC002_A4

A47C938F67E74

4

AC

2079 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) for m in range(n): for k in range(2 ** m): if ((2 ** m) + k) >= n: break qc.cx(k, 2 ** m + k) return qc '''

QPC002_A4

A48D8A892B32D

1

RE

1141 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >= n: continue qc.cx...

QPC002_A4

A48D8A892B32D

2

WA

1242 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) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >= n: continue ...

QPC002_A4

A48D8A892B32D

3

AC

3000 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) l = int(math.ceil(math.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >= n: continue ...

QPC002_A4

A491559766596

1

AC

2294 ms

163 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) controls = [0, 0, 1, 0, 1, 2, 3, 0, 1, 2, 3, 4, 5, 6, 7,] for i in range(1, n): qc.cx(controls[i - 1], i) return qc '''

QPC002_A4

A49741052A04A

1

AC

2243 ms

143 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) if n < 6: for i in range(1, n): qc.cx(0, i) else: for i in range(1, 5): qc.cx(0, i) if n < 9: for i in range(5, n):...

QPC002_A4

A4997764F5593

1

AC

2077 ms

143 MiB

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

QPC002_A4

A4CAF3458F829

1

DLE

1378 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) qc.z(0) return qc '''

QPC002_A4

A4CAF3458F829

2

AC

2258 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): j=i for k in reversed(range(60)): if (1<<k)&i: j^=1<<k break qc.cx(j,i) q...

QPC002_A4

A4D40D79EDCA4

1

AC

1873 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: is_odd = n % 2 mid = n//2 rang = n//2 if not is_odd: mid -= 1 rang -= 1 qc.h(mid) qc.z(mid) for i in range(rang): qc.cx(mid +...

QPC002_A4

A500091EAA764

1

AC

1806 ms

161 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) for _ in range(1,n // 2): qc.cx(0,_ * 2) qc.cx(1,_ * 2 + 1) if n % 2 == 1: qc.cx(0,n - 1) qc.z(0) return qc '''

QPC002_A4

A512CB8E0E5FC

1

WA

1138 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): if i % 2 == 0: if i != 0: qc.x(i) if i != n - 1: qc.cx(i, i + 1) fo...

QPC002_A4

A512CB8E0E5FC

2

AC

2483 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) max_qubit = 1 for i in range(4): for j in range(2 ** i): qc.cx(j, j + 2 ** i) max_qubit = max(j + 2 ** i, max_qubit) ...

QPC002_A4

A515628DEC42F

1

AC

1654 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(int(i/2), i) return qc '''

QPC002_A4

A51B9FBCD736E

1

AC

1958 ms

143 MiB

'''python from qiskit import QuantumCircuit def get_ghz_circuit(n_bits: int) -> QuantumCircuit: qc = QuantumCircuit(n_bits) qc.h(0) m = 0 while 1 << m < n_bits: m += 1 for k in range(m): d = 1 << k for i in range(d): if i + d < n_bits: qc.cx(i, i + d) return qc def...

QPC002_A4

A55207EECD40F

1

AC

1732 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) qc.cx(0,1) if n>2: ent_num=1 ent_num_tmp=1 while(True): for i in range(ent_num+1): qc.cx(i, ent_n...

QPC002_A4

A56D21B9A9767

1

UME

'''python from qiskit import QuantumCircuit from collections import deque def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) kouho = deque([]) for i in range(n-1): target = i + 1 if kouho: a = kouho.popleft() qc.cx(a,...

QPC002_A4

A56D21B9A9767

2

AC

1774 ms

157 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) kouho = [] for i in range(n-1): target = i + 1 if kouho: a = kouho.pop() qc.cx(a, target) else: qc.cx(...

QPC002_A4

A5735DE8866E6

1

WA

1301 ms

140 MiB

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

QPC002_A4

A5735DE8866E6

2

AC

1994 ms

142 MiB

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

QPC002_A4

A576C32D73DAF

1

DLE

1081 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(1, n): qc.cx(0, i) return qc '''

QPC002_A4

A576C32D73DAF

2

DLE

1173 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(1, n): qc.cx(i-1, i) return qc '''

QPC002_A4

A579EB1F8A247

1

AC

2598 ms

143 MiB

'''python from qiskit import QuantumCircuit import numpy as np def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >= n:...

QPC002_A4

A59F662A5B605

1

DLE

1256 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): qc.cx(0, i+1) return qc '''

QPC002_A4

A59F662A5B605

2

AC

1822 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) qc.cx(0, n-1) for i in range(n//2): if n%2 == 0: if i != n//2-1: qc.cx(0, i+1) qc.cx(n-1, n-i-2) else: ...

QPC002_A4

A5ACBA3D1748E

1

RE

1064 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) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >= n: continue ...

QPC002_A4

A5ACBA3D1748E

2

AC

2449 ms

143 MiB

'''python from qiskit import QuantumCircuit import numpy as np def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) l = int(np.ceil(np.log2(n))) for m in range(l, 0, -1): for k in range(0, n, 2 ** m): if k + 2 ** (m - 1) >=...

QPC002_A4

A5DA0DA8C95CC

1

AC

1768 ms

152 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) for i in range(2,n-1,2): qc.cx(0,i) qc.cx(i,i+1) if n%2!=0: qc.cx(0,n-1) qc.z(0) return qc '''

QPC002_A4

A5ED97528AF41

1

DLE

1536 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, 2): qc.cx(0, i) # 2回目の並列CNOT for i in range(2, n, 2): qc.cx(0, i) qc.z(n-1) return qc '''

QPC002_A4

A5ED97528AF41

2

RE

1126 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cnot(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (i...

QPC002_A4

A5ED97528AF41

3

WA

1067 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cx(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (idx...

QPC002_A4

A5ED97528AF41

4

AC

1833 ms

143 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) def entangle(idx1, idx2): if idx2 > n - 1: return qc.cx(idx1, idx2) entangle(idx2, (idx2 + 1) * 2 - 1) entangle(idx2, (idx...

QPC002_A4

A60CB7080B75D

1

RE

1608 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) targets = range(1, n) qc.append(MCXGate(len(targets)), [0] + list(targets)) qc.z(0) return qc '''

QPC002_A4

A60CB7080B75D

2

WA

1510 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.cz(0,i) qc.z(0) return qc '''

QPC002_A4

A60CB7080B75D

3

DLE

1107 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) qc.z(0) return qc '''

QPC002_A4

A62B7D5E54CC8

1

AC

2433 ms

160 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(i//2,i) return qc '''

QPC002_A4

A67B2CC3ADFB7

1

DLE

1152 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(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

2

WA

1541 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n <= 10): qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

3

WA

1153 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n <= 8): qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

4

WA

1420 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n > 8): n = 8 qc.h(0) for i in range(n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

5

WA

1184 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: if(n > 8): n = 8 qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

6

WA

1740 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

7

WA

1768 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) max_n = min(n, 9) for i in range(max_n - 1): qc.cx(i, i + 1) qc.z(max_n - 1) return qc '''

QPC002_A4

A67B2CC3ADFB7

8

WA

1131 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.cz(0, i) return qc '''

QPC002_A4

A67B2CC3ADFB7

9

DLE

1395 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) qc.z(0) return qc '''

QPC002_A4

A67B2CC3ADFB7

10

WA

1743 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n <= 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n > 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...

QPC002_A4

A67B2CC3ADFB7

11

WA

1127 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n <= 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n > 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...

QPC002_A4

A67B2CC3ADFB7

12

WA

1374 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 10): for i in range(n - 1): qc.cx(i, i + 1) elif (n >= 10): for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in rang...

QPC002_A4

A67B2CC3ADFB7

13

WA

1520 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 7, n - 1): qc.cx(i , i + 1) for i in range(n - 7): ...

QPC002_A4

A67B2CC3ADFB7

14

WA

1474 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...

QPC002_A4

A67B2CC3ADFB7

15

WA

1254 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...

QPC002_A4

A67B2CC3ADFB7

16

WA

1795 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 9): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...

QPC002_A4

A67B2CC3ADFB7

17

WA

2087 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 10): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 6, n - 1): qc.cx(i , i + 1) for i in range(n - 6): ...

QPC002_A4

A67B2CC3ADFB7

18

WA

1302 ms

140 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if (n < 5): for i in range(n - 1): qc.cx(i, i + 1) else: for i in range(n - 8, n - 1): qc.cx(i , i + 1) for i in range(n - 8): ...

QPC002_A4

A67B2CC3ADFB7

19

AC

1980 ms

143 MiB

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

QPC002_A4

A688686540BF7

1

DLE

1375 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, range(1, n)) qc.cz(0, n-1) return qc '''

QPC002_A4

A688686540BF7

2

WA

1131 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): if not (n >> i) & 1: continue qc.cx(0, i) qc.cz(0, n-1) return qc '''

QPC002_A4

A688686540BF7

3

WA

1543 ms

140 MiB

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

QPC002_A4

A688686540BF7

4

DLE

1414 ms

140 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_A4

A69A63194421F

1

RE

1206 ms

141 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) qc.z(0) cnt = 0 now = [0] flag = True while flag: nxt = now[:] for i in now: if i+2**cnt == n: flag = fals...

QPC002_A4

A69A63194421F

2

AC

1786 ms

143 MiB

'''python from qiskit import QuantumCircuit a = [[0, 1], [0, 2], [1, 3], [0, 4], [1, 5], [2, 6], [3, 7], [0, 8], [1, 9], [2, 10], [3, 11], [4, 12], [5, 13], [6, 14]] 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....

QPC002_A4

A6A04F610E5B2

1

AC

1854 ms

145 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): if i*2+1<n: qc.cx(i,i*2+1) if i*2+2<n: qc.cx(i,i*2+2) return qc '''

QPC002_A4

A6A7A6FC1B07B

1

WA

1166 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.h(i) if n > 1: qc.h(n-1) qc.mcx(list(range(n-1)), n-1) qc.h(n-1) return qc '''

QPC002_A4

A6A7A6FC1B07B

2

WA

1087 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.h(i) # Apply X gate to all qubits to flip them for i in range(n): qc.x(i) # Apply controlled-Z gate between the first ...

QPC002_A4

A6EDFF2AFBC97

1

DLE

1160 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) qc.z(0) return qc '''

QPC002_A4

A6EDFF2AFBC97

2

DLE

1130 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(i, i+1) qc.z(0) return qc '''

QPC002_A4

A6EDFF2AFBC97

3

WA

1469 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, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): qc.cx(i, i+1) # ...

QPC002_A4

A6EDFF2AFBC97

4

RE

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: qc.cx(0, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): ...

QPC002_A4

A6EDFF2AFBC97

5

WA

1951 ms

142 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.h(0) if n > 1: qc.cx(0, n-1) # Mitad superior del circuito: qubit 0 hasta qubit n/2-1 controla a los siguientes for i in range(0, n//2): ...

QPC002_A4

A6EDFF2AFBC97

6

WA

1546 ms

141 MiB

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

QPC002_A4

A6EDFF2AFBC97

7

AC

2539 ms

143 MiB

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

QPC002_A4

A700E7ACC8A38

1

RE

1117 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): qc.c(i, i+1) return qc '''

QPC002_A4

A700E7ACC8A38

2

DLE

1303 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-1): qc.cx(i, i+1) return qc '''

QPC002_A4

A700E7ACC8A38

3

DLE

1091 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(0, n-1, 10): for j in range(i, min(i+10, n-1)): qc.cx(j, j+1) return qc '''

QPC002_A4

A700E7ACC8A38

4

RE

1281 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): qc.h(i + 1) qc.ccx(0, i, i + 1) qc.h(i + 1) return qc '''

QPC002_A4

A7165E93272A6

1

WA

1680 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(3,n,2): qc.cx(control_qubit=0, target_qubit=i-1) qc.cx(control_qubit=1, target_qubit=i) ...

QPC002_A4

A7165E93272A6

2

WA

1990 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(2,n-1,2): qc.cx(control_qubit=0, target_qubit=i) qc.cx(control_qubit=1, target_qubit=i+1) ...

QPC002_A4

A7165E93272A6

3

AC

1997 ms

162 MiB

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) qc.h(0) qc.cx(control_qubit=0, target_qubit=1) for i in range(2,n-1,2): qc.cx(control_qubit=0, target_qubit=i) qc.cx(control_qubit=1, target_qubit=i+1) if...

QPC002_A4

A71EF9A1C9F95

1

AC

2137 ms

143 MiB

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

QPC002_A4

A72870739AD8B

1

RE

1257 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) if n >= 8: qc.cx(0, 8) if n >= 12: qc.cx(8, 12) if n >= 14: qc.cx(12, 14) if n >= 15: qc.cx(14, 15) if n >...

QPC002_A4

A72870739AD8B

2

WA

1219 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) if n >= 9: qc.cx(0, 8) if n >= 13: qc.cx(8, 12) if n >= 15: qc.cx(12, 14) if n >= 5: qc.cx(0, 4) if n >= 7...

QPC002_A4

A72870739AD8B

3

RE

'''python from qiskit import QuantumCircuit def solve(n: int) -> QuantumCircuit: qc = QuantumCircuit(n) # Write your code here: qc.x(0) qc.h(0) if n >= 9: qc.cx(0, 8) if n >= 10: qc.cx(8, 9) if n >= 11: qc.cx(8, 10) if n >= 12: qc.cx(10, 11) if n >= ...

QPC002_A4

A72870739AD8B

4

AC

2021 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) if n >= 9: qc.cx(0, 8) if n >= 10: qc.cx(8, 9) if n >= 11: qc.cx(8, 10) if n >= 12: qc.cx(10, 11) if n >= ...

QPC002_A4

A7405ADD08DBA

1

AC

2122 ms

161 MiB

'''python from qiskit import QuantumCircuit def solve(n) -> QuantumCircuit: qc = QuantumCircuit(n) qc.x(0) qc.h(0) l = 1 while l < n: r = min(n, 2 * l) for i in range(l, r): qc.cx(i - l, i) l = r return qc '''

QPC002_A4

A7456E98CECB0

1

RE

1116 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 '''