Repository logo

Infoscience

  • English
  • French
Log In
Logo EPFL, École polytechnique fédérale de Lausanne

Infoscience

  • English
  • French
Log In
  1. Home
  2. Academic and Research Output
  3. Conferences, Workshops, Symposiums, and Seminars
  4. Design Automation and Design Space Exploration for Quantum Computers
 
conference paper

Design Automation and Design Space Exploration for Quantum Computers

Soeken, Mathias  
•
Roetteler, Martin
•
Wiebe, Nathan
Show more
March 31, 2017
Proceedings of the Design, Automation & Test in Europe (DATE)
Design, Automation & Test in Europe (DATE)

A major hurdle to the deployment of quantum linear systems algorithms and recent quantum simulation algorithms lies in the difficulty to find inexpensive reversible circuits for arithmetic using existing hand coded methods. Motivated by recent advances in reversible logic synthesis, we synthesize arithmetic circuits using classical design automation flows and tools. The combination of classical and reversible logic synthesis enables the automatic design of large components in reversible logic starting from well-known hardware description languages such as Verilog. As a prototype example for our approach we automatically generate high quality networks for the reciprocal 1/x, which is necessary for quantum linear systems algorithms.

  • Files
  • Details
  • Metrics
Loading...
Thumbnail Image
Name

2017_date_3.pdf

Access type

openaccess

Size

220.95 KB

Format

Adobe PDF

Checksum (MD5)

3363a279e0d719b968346bf798662fcb

Logo EPFL, École polytechnique fédérale de Lausanne
  • Contact
  • infoscience@epfl.ch

  • Follow us on Facebook
  • Follow us on Instagram
  • Follow us on LinkedIn
  • Follow us on X
  • Follow us on Youtube
AccessibilityLegal noticePrivacy policyCookie settingsEnd User AgreementGet helpFeedback

Infoscience is a service managed and provided by the Library and IT Services of EPFL. © EPFL, tous droits réservés