Teams

• COSMIQ

  Paris

  COSMIQ is an Inria project-team based in Paris. The team is mostly devoted to the design and analysis of cryptographic algorithms, in the classical or in the quantum setting. More specifically, the team studies new cryptanalysis, classical or quantum, in symmetric and asymmetric cryptography, new designs of classical symmetric and asymmetric primitives or quantum primitives that are resistant against a classical and quantum adversary. The team is also interested in designing quantum low-density parity check codes for quantum error correction.

• MOCQUA

  Nancy

  MOCQUA is a joint Inria project-team located in Nancy in the Loria laboratory at Université de Lorraine. The team studies various emergent computational models such as quantum computing, higher-order computation and dynamical systems and computation with infinite precision.

• PhiQus

  Saclay

  Led by Marc-Olivier Renou, PhiQus' research focuses on exploring the novel opportunities that quantum systems present for information processing, with a particular emphasis on quantum networks and distributed computing. Our work spans a broad spectrum of topics within quantum information theory and computer science. We investigate foundational differences between classical and quantum information theory, identify elementary tasks that highlight these differences, and develop specific protocols to implement these tasks in collaboration with experimental groups. Key areas of our research include quantum correlations and distributed computing in networks, the foundations of quantum theory, certification of quantum devices, quantum optics, and many-body physics. We approach these challenges from multiple perspectives, utilizing concepts and methods from quantum information theory, theoretical computer science, and the mathematical frameworks of C*-algebras and non-commutative polynomial optimization.

• QInfo

  Lyon & Grenoble

  QInfo is an Inria project-team focusing on quantum information. We develop methods and algorithms to optimally reduce the undesirable effect caused by noise on quantum information processing tasks. The team's research themes are characterization, certification and applications of noisy quantum devices, error correction methods for quantum information processing and new models and applications from fundamental approaches (quantum control, multipartite entanglement, ...).

• QuaCS

  Saclay

  The QuaCS project-team is located within the Laboratoire des Méthodes Formelles a joint lab of Université Paris-Saclay, CentraleSupélec and ENS Paris-Saclay. The main focus of the team is on formal models of quantum computation and quantum programming languages.

• Quantic

  Paris

  Quantic is a joint Inria project-team with École Normale Supérieure, École des Mines de Paris and CNRS. It is an interdisciplinary team composed of experimental physicists and applied mathematicians who aim at developing both theoretical methods and experimental devices.

• QAT

  Paris

  The Quantum computing Architectures, Algorithms, Applications and their Theory team (QAT) is an Inria exploratory action based at the Informatics department of École normale supérieure which focuses on quantum applications such as delegated quantum computing protocols.

• Quriosity

  Saclay

  Quriosity’s ambition is to extend the application horizon of quantum information science by addressing novel questions positioned at the intersection between theoretical research in quantum information and quantum engineering. In particular, we intend to exploit the properties of complex high-dimensional quantum systems to achieve advantages in computational or communication tasks, taking advantage of digital information processing and quantum photonics technologies.