static void estimate(int action) { var estimator = new ResourcesEstimator(); switch (action) { case 6: var res6 = MeasureQBit.Run(estimator, 1000, Result.Zero).Result; break; case 7: var res7 = FlipQBit.Run(estimator, 1000, Result.Zero).Result; break; case 8: var res8 = SuperposeQBit.Run(estimator, 1000, Result.Zero).Result; break; case 9: var res9 = EntangleQBits.Run(estimator, 1000, Result.Zero).Result; break; } System.Console.WriteLine(estimator.ToTSV()); System.Console.WriteLine(""); System.Console.WriteLine("CNOT: The count of CNOT(also known as the Controlled Pauli X gate) gates executed."); System.Console.WriteLine("QubitClifford: The count of any single qubit Clifford and Pauli gates executed."); System.Console.WriteLine("Measure: The count of any measurements executed."); System.Console.WriteLine("R: The count of any single qubit rotations executed, excluding T, Clifford and Pauli gates."); System.Console.WriteLine("T: The count of T gates and their conjugates, including the T gate, T_x = H.T.H, and T_y = Hy.T.Hy, executed."); System.Console.WriteLine("Depth: Depth of the quantum circuit executed by the Q# operation. By default, only T gates are counted in the depth, see depth counter for details."); System.Console.WriteLine("Width: Maximum number of qubits allocated during the execution of the Q# operation."); System.Console.WriteLine("BorrowedWidth: Maximum number of qubits borrowed inside the Q# operation."); }
static void runMeasure(QuantumSimulator qsim, Result initial) { var res = MeasureQBit.Run(qsim, 1000, initial).Result; var(numZeros, numOnes, agrees) = res; System.Console.WriteLine( $"Init:{initial,-4} 0s={numZeros,-4} 1s={numOnes,-4} agree={agrees,-4}"); }