We have designed the universal gates using both CMOS and FinFET and compared the result.The main advantages of FinFET is lower leakage current and higher scaling factor when compared to CMOS technology. We have used 32nm technology for both the devices. Although there are many configuration in ...
We construct optimized implementations of the controlled-NOT and other universal two-qubit gates that, unlike many of the previously proposed protocols, are carried out in a single step. The new protocols require tunable interqubit couplings but, in return, show a significant improvement in the qua...
Implementation of NOT Gate using NAND Gate - Before getting into implementing a NOT gate using NAND gate, let’s have a basic overview of NOT gates and NAND gates.
In this paper, we provide a brief overview on different gates in billiard ball model and then propose an approach to create a universal Toffoli gate in BBM. We discuss the complexities of building larger Toffoli gates and the ways to have multi-level connected Toffoli gates to represent ...
The implementation of universal quantum memory and gates based on large-scale diamond surfaceNV centersquantum memoryquantum gateNitrogen-vacancy (NV) centers implanted beneath the diamond surface have been demonstrated to be effective in the processing of controlling and reading-out. In this paper, ...
IO program might either complete (returning a result or an error), or return a continuation - another execution of the same kind. In order to obtain result we should execute the returned function. Continuations help avoiding deeply nested stack traces. It's a universal way to do "trampolining...
Universal set of quantum gates will be realized by using Coupled mode theory, interferometric electro-optic modulator and Y-junction beam splitter. Normal modes in waveguides are used as quantum bits and coupled mode equation is derived for optical waveguide modes. This all optical technique can be...
This logic uses basic gates and universal gates and also Comparing the performance of DDFF with other Flip-flops which are designed for low power and high performance. The basic features of these flip-flops are highlighting and appraise them based on power consumption, speed. The foremost aim ...
We report the implementation of universal two- and three-qubit entangling gates on neutral atom qubits encoded in long-lived hyperfine ground states. The gates are mediated by excitation to strongly interacting Rydberg states, and are implemented in parallel on several clusters of atoms in a one-...
The QPG is realized by combining two opti- cal controlled-NOT (CNOT) gates, which are based on the two-photon interferences at the partially polarizing beam splitters. The state of the control qubit is encoded into the state of the two photons incident to the CNOT gates by using an ...