The quantum simulation kernel is an important subroutine appearing as a very long gate
sequence in many quantum programs. In this paper, we propose Paulihedral, a block-wise …

Recent developments in engineering and algorithms have made real-world applications in
quantum computing possible in the near future. Existing quantum programming languages …

Computational chemistry is the leading application to demonstrate the advantage of
quantum computing in the near term. However, large-scale simulation of chemical systems …

With the recent demonstration of quantum computers, interests in the field of reversible logic
synthesis and optimization have taken a different turn. As every quantum operation is …

The need to consider fault tolerance in quantum circuits has led to recent work on the
optimization of circuits composed of Clifford+ T gates. The primary optimization objectives …

Due to the increasing miniaturization according to Moore's law, classical circuit design will
reach soon its limits. Reversible computation is an interesting alternative, since it provides a …

Reversible Computing circuits are characterized by low power consumption and their
proximity to circuits for quantum computing. The Fredkin gate was one of the earliest …

Single Flux Quantum (SFQ) logic with switching energy of 100zJ1 and switching delay of
1ps is a promising post-CMOS candidate. Logic synthesis of these magnetic-pulse-based …

The quantum computers available from IBM's QX project, implement circuits with Clifford+ T
gates. In order to implement Toffoli or NCV circuits in such architectures, they need to be …