Ahmad Saeed, Robert Wille, Ramesh Karri,
"Locking the Design of Building Blocks for Quantum Circuits"
, in ACM Transactions on Embedded Computing Systems (TECS): Conference on Compilers, Architecture, and Synthesis for Embedded Systems, 2019
Original Titel:
Locking the Design of Building Blocks for Quantum Circuits
Sprache des Titels:
Englisch
Original Buchtitel:
Conference on Compilers, Architecture, and Synthesis for Embedded Systems
Original Kurzfassung:
The research community expects that quantum computers will give economical results for particular problems on which the classical computers break down. Examples include factoring of large numbers, searching
in a big database, or simulating chemical reactions to design new drugs. Attempts are ongoing to build up a
practical quantum computer. Users (clients) can implement quantum circuits to run on these quantum computers. However, before running the quantum circuit on the quantum computer, the users (clients) should
compile, optimize, decompose, and technology map the quantum circuit. In the current embodiment, the resulting quantum circuit runs on a remote and untrusted quantum computer server ? introducing security
risks. This study explores the risk of outsourcing the quantum circuit to the quantum computer by focusing
on quantum oracles. Quantum oracles are pivotal building blocks and require specialized expertise and means
to design. Hence, the designer may protect this proprietary quantum oracle intellectual property (IP) and hide
his/her private information. We investigate how to manage that on a quantum computer server using the IBM
project QX quantum computer and Qiskit tools as an exemplar