Quantum circuit design of a T-count optimized integer multiplier
E Muñoz-Coreas, H Thapliyal - IEEE Transactions on …, 2018 - ieeexplore.ieee.org
Quantum circuits of many qubits are extremely difficult to realize; thus, the number of qubits
is an important metric in a quantum circuit design. Further, scalable and reliable quantum …
is an important metric in a quantum circuit design. Further, scalable and reliable quantum …
Quantum circuit designs of carry lookahead adder optimized for T-count T-depth and qubits
H Thapliyal, E Muñoz-Coreas, V Khalus - … Computing: Informatics and …, 2021 - Elsevier
Quantum circuits of arithmetic operations such as addition are needed to implement
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …
A new design of parity-preserving reversible multipliers based on multiple-control toffoli synthesis targeting emerging quantum circuits
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 …
synthesis and optimization have taken a different turn. As every quantum operation is …
Novel optimum parity-preserving reversible multiplier circuits
Reversible logic is considered as a basic requirement for designing quantum computers.
Reversible circuits do not waste energy. The use of this logic in low-power complementary …
Reversible circuits do not waste energy. The use of this logic in low-power complementary …
T-count and qubit optimized quantum circuit designs of carry lookahead adder
H Thapliyal, E Muñoz-Coreas, V Khalus - arxiv preprint arxiv:2004.01826, 2020 - arxiv.org
Quantum circuits of arithmetic operations such as addition are needed to implement
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …
quantum algorithms in hardware. Quantum circuits based on Clifford+ T gates are used as …
Novel parity-preserving reversible logic array multipliers
M Valinataj - The Journal of Supercomputing, 2017 - Springer
Reversible logic as a new promising design domain can be used for DNA computations,
nanocomputing, and especially constructing quantum computers. However, the vulnerability …
nanocomputing, and especially constructing quantum computers. However, the vulnerability …
T-count optimized design of quantum integer multiplication
E Muñoz-Coreas, H Thapliyal - arxiv preprint arxiv:1706.05113, 2017 - arxiv.org
Quantum circuits of many qubits are extremely difficult to realize; thus, the number of qubits
is an important metric in a quantum circuit design. Further, scalable and reliable quantum …
is an important metric in a quantum circuit design. Further, scalable and reliable quantum …
A fault-tolerant and scalable column-wise reversible quantum multiplier with a reduced size
The reversible multipliers are of significant importance in implementing the computational
systems by the novel technologies. The generation section of partial products and adders …
systems by the novel technologies. The generation section of partial products and adders …
[HTML][HTML] Chemical reaction simulator on quantum computers by first quantization—Basic treatment: Theoretical
T Tomaru, H Takahashi, T Hirano, S Tahara, F Sato - AIP Advances, 2024 - pubs.aip.org
Quantum computers can potentially simulate quantum-mechanical phenomena, so chemical
reactions are a potential application of them. In particular, the time evolution of the …
reactions are a potential application of them. In particular, the time evolution of the …
Perfect concurrent fault detection in CMOS Logic circuits using parity preservative reversible gates
Reversible logic has 100% fault observability meaning that a fault in any circuit node
propagates to the output stage. In other words, reversible circuits are latent-fault-free. Our …
propagates to the output stage. In other words, reversible circuits are latent-fault-free. Our …