Tags: quantum computing

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First proposed in the 1970s, quantum computing relies on quantum physics by taking advantage of certain quantum physics properties of atoms or nuclei that allow them to work together as quantum bits, or qubits, to be the computer's processor and memory. By interacting with each other while being isolated from the external environment, qubits can perform certain calculations exponentially faster than conventional computers.

Learn more about quantum dots from the many resources on this site, listed below. More information on Quantum computing can be found here.

Downloads (1-3 of 3)

  1. From Qiskit Metal to Direct-Write Lithography

    03 Jul 2023 | | Contributor(s):: Onri Jay Benally

    This tutorial covers the use of Qiskit Metal tools in Python to generate design layouts of quantum devices, proceeded by direct-write lithography exposure. The example provided below was performed on electron-beam lithography equipment (EBPG series) from Raith Nanofabrication to...

  2. RMRLS 0.2

    out of 5 stars 

    27 Dec 2007 | | Contributor(s):: James Donald, Pallav Gupta

    Reed-Muller Reversible Logic Synthesis tool (aka RELOS) is a tool for the synthesis of reversible functions based on positive-polarity Reed-Muller expressions. The second release of RMRLS a.k.a. RELOS features reversible logic synthesis with SWAP, Fredkin, and Peres gates.This work was done under...

  3. Reed-Muller Reversible Logic Synthesizer (RMRLS) 0.2

    out of 5 stars 

    04 Jan 2008 | | Contributor(s):: James Donald, Pallav Gupta

    Reed-Muller Reversible Logic Synthesis tool (a.k.a. RELOS) is a tool for the synthesis of reversible functions based on positive-polarity Reed-Muller expressions. The second release of RMRLS features reversible logic synthesis with SWAP, Fredkin, and Peres gates. This work was done under the...