Foundations of quantum computational advantage

Digital, Industry & SpaceHORIZON-RIAID: 101070558
EC Contribution
€12,473
Consortium Size
12 orgs
Start Year
2022
Summary

In FoQaCiA, we will expand the theoretical basis for the design of quantum algorithms. Our view is that the future success of quantum computing critically depends on advances at the most fundamental level, and that large-scale investments in quantum implementations will only pay off if they can draw on additional foundational insights and ideas. While several powerful quantum algorithms are known, the basic techniques they employ are few and far between. Largely, it still remains to be discovered how to systematically harness the quantum for computation. We study four areas of quantum phenomenology: (i) Quantum contextuality, non-classicality, and quantum advantage, (ii) Complexity of classical simulation of quantum computation, (iii) Arithmetic of quantum circuits, and (iv) Efficiency of fault-tolerant quantum computation.These fields are chosen for two reasons. First, their progress is of great importance for the physical realisation and the broad applicability of quantum computation. Regarding (i), one of the simplest proofs of quantum contextuality, Mermin’s star, has recently been employed to prove (Bravyi, Gosset, König) that bounded-depth quantum circuits are more powerful than their classical analogues. We seek to expand this result beyond bounded depth. In (ii), we study the quantum speedup by shaving off the redundant part – the efficiently classically simulable. In (iii), we aim to provide more efficient techniques for gate and circuit synthesis, utilising the number-theoretic underpinnings of the problem. Regarding (iv), given the celebrated threshold theorem, and the fact that the error threshold is now known to be within reach of experiment, we will tackle the remaining challenge of reducing the cost of fault tolerance.The second reason for selecting the above work areas is to mine them for foundational quantum mechanical structures and find related quantum algorithmic uses.

Consortium (12)

Project Results (48)

Source: CORDIS, the EU research results database.

Publications (43)
"Simulating quantum computation: how many ""bits"" for ""it""?"
arXiv· 2024DOI
Michael Zurel, Cihan Okay, Robert Raussendorf
Alternative robust ways of witnessing nonclassicality in the simplest scenario
Physical Review A· 2024DOI
Massy Khoshbin, Lorenzo Catani, Matthew Leifer
Bases for optimising stabiliser decompositions of quantum states
Quantum Science and Technology· 2024DOI
Nadish de Silva, Ming Yin, Sergii Strelchuk
Certifying sets of quantum observables with any full-rank state
Physical Review Letters· 2024DOI
Zhen-Peng Xu, Debashis Saha, Kishor Bharti, Adán Cabello
Combining contextuality and causality: a game semantics approach
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences· 2024DOI
Samson Abramsky, Rui Soares Barbosa, Amy Searle
Communications in Mathematical Physics
Communications in Mathematical Physics· 2024DOI
Imin Chen, Nadish de Silva
Game semantics for higher-order unitary quantum computation
arXiv· 2024DOI
Samson Abramsky, Radha Jagadeesan
Kirkwood-Dirac representations beyond quantum states (and their relation to noncontextuality)
arXiv· 2024DOI
David Schmid, Roberto D. Baldijão, Yìlè Yīng, Rafael Wagner, John H. Selby
Lifting noncontextuality inequalities
Physical Review A· 2024DOI
Raman Choudhary, Rui Soares Barbosa, Adán Cabello
Multi-qutrit exact synthesis
arXiv· 2024DOI
Amolak Ratan Kalra, Manimugdha Saikia, Dinesh Valluri, Sam Winnick, Jon Yard
Non-stabilizerness and entanglement from cat-state injection
New Journal of Physics· 2024DOI
Filipa C R Peres, Rafael Wagner, Ernesto F Galvão
Quantum circuits for measuring weak values, Kirkwood–Dirac quasiprobability distributions, and state spectra
Quantum Science and Technology· 2024DOI
Rafael Wagner, Zohar Schwartzman-Nowik, Ismael L Paiva, Amit Te'eni, Antonio Ruiz-Molero, Rui Soares Barbosa, Eliahu Cohen, Ernesto F Galvão
Relativization is naturally functorial
arXiv· 2024DOI
Jan Głowacki
SIC-POVMs from Stark units: dimensions n^2+3=4p, p prime
arXiv· 2024DOI
Ingemar Bengtsson, Markus Grassl, Gary McConnell
Simplicial techniques for operator solutions of linear constraint systems
Topology and its Applications· 2024DOI
Ho Yiu Chung, Cihan Okay, Igor Sikora
Test of the physical significance of Bell nonlocality
arXiv· 2024DOI
Carlos Vieira, Ravishankar Ramanathan, Adán Cabello
The operadic theory of convexity
arXiv· 2024DOI
Redi Haderi, Cihan Okay, Walker H. Stern
Twisted simplicial distributions
arXiv· 2024DOI
Cihan Okay, Walker H. Stern
Verifiable measurement-based quantum random sampling with trapped ions
arXiv· 2024DOI
Martin Ringbauer et al.
A bundle perspective on contextuality: Empirical models and simplicial distributions on bundle scenarios
arXiv· 2023DOI
Rui Soares Barbosa, Aziz Kharoof, Cihan Okay
Can multiple observers detect KS-contextuality?
arXiv· 2023DOI
Arthur C. R. Dutra, Roberto D. Baldijão, Marcelo Terra Cunha
Contextuality with vanishing coherence and maximal robustness to dephasing
Physical Review A· 2023DOI
Vinicius P. Rossi, David Schmid, John H. Selby, Ana Belén Sainz
Equivariant simplicial distributions and quantum contextuality
arXiv· 2023DOI
Cihan Okay, Igor Sikora
Experimental certification of contextuality, coherence, and dimension in a programmable universal photonic processor
Science Advances· 2023DOI
Taira Giordani, Rafael Wagner, Chiara Esposito, Anita Camillini, Francesco Hoch, Gonzalo Carvacho, Ciro Pentangelo, Francesco Ceccarelli, Simone Piacentini, Andrea Crespi, Nicolò Spagnolo, Roberto Osellame, Ernesto F. Galvão, Fabio Sciarrino
Fast algorithms for classical specifications of stabiliser states and Clifford gates
arXiv· 2023DOI
Nadish de Silva, Wilfred Salmon, Ming Yin
Homotopical characterization of strongly contextual simplicial distributions on cone spaces
arXiv· 2023DOI
Aziz Kharoof, Cihan Okay
Impossibility of bipartite full nonlocality, all-versus-nothing proofs, and pseudo-telepathy in small Bell scenarios
arXiv· 2023DOI
Yuan Liu, Ho Yiu Chung, Emmanuel Zambrini Cruzeiro, Junior R. Gonzales-Ureta, Ravishankar Ramanathan, Adán Cabello
Logical possibilities for physics after MIP*=RE
arXiv· 2023DOI
Adán Cabello, Marco Túlio Quintino, Matthias Kleinmann
Measurement-based quantum computation in finite one-dimensional systems: string order implies computational power
Quantum· 2023DOI
Robert Raussendorf, Wang Yang, Arnab Adhikary
Mermin polytopes in quantum computation and foundations
Quantum Information and Computation· 2023DOI
Cihan Okay, Ho Yiu Chung, Selman Ipek
Minimum full nonlocality, all versus nothing nonlocality, and quantum pseudo telepathy
arXiv· 2023DOI
Adán Cabello
On the rank of two-dimensional simplicial distributions
arXiv· 2023DOI
Okay, Cihan
Operational quantum reference frame transformations
arXiv· 2023DOI
Titouan Carette, Jan Głowacki, Leon Loveridge
Pauli-based model of quantum computation with higher-dimensional systems
Physical Review A· 2023DOI
Filipa C. R. Peres
Quantum circuits to measure scalar spin chirality
Physical Review Research· 2023DOI
Leander I. Reascos, Bruno Murta, Ernesto F. Galvão, Joaquín Fernández-Rossier
Quantum optimization: Potential, challenges, and the path forward
arXiv· 2023DOI
Amira Abbas et al.
Simple proof that anomalous weak values require coherence
Physical Review A· 2023DOI
Rafael Wagner, Ernesto F. Galvão
Simulation of quantum computation with magic states via Jordan-Wigner transformations
arXiv· 2023DOI
Michael Zurel, Lawrence Z. Cohen, Robert Raussendorf
State-independent all-versus-nothing arguments
arXiv· 2023DOI
Boseong Kim, Samson Abramsky
The degenerate vertices of the 2-qubit Λ-polytope and their update rules
arXiv· 2023DOI
Selman Ipek, Cihan Okay
Topological methods for studying contextuality: N-cycle scenarios and beyond
Entropy· 2023DOI
Aziz Kharoof, Selman Ipek, Cihan Okay
Unbounded Sharing of Nonlocality Using Projective Measurements
arXiv· 2023DOI
Souradeep Sasmal, Som Kanjilal, Alok Kumar Pan
Using a resource theoretic perspective to witness and engineer quantum generalized contextuality for prepare-and-measure scenarios
Journal of Physics A: Mathematical and Theoretical· 2023DOI
Rafael Wagner, Roberto D Baldijão, Alisson Tezzin, and Bárbara Amaral
Deliverables (5)