@@ -812,23 +812,29 @@ Describe the importance of the technological outcome with regard to its transfor
%DZXC significantly advances the state-of-the-art across \newt{six of the seven} expected impacts.
The DZXC project will \textit{``develop a deeper fundamental understanding''} of systems for quantum information processing by using the \zxcalculus to identify resources that are necessary for a quantum speedup.
It will also further the \textit{``practical understanding''} of quantum information protocols through the development of the \dzxc system, a deep quantum compiler that can take input in a variety of high-level quantum programming languages, automatically add error correction, optimise the process, and output machine instructions adapted for different quantum devices.
The \dzxc system will be able to model noise and error rates of the target platforms and take steps to minimise decoherence, thus \textit{``enhancing the robustness and scalability of quantum information technologies''}.
The DZXC project will \textbf{develop a deeper fundamental understanding} of systems for quantum information processing by using the \zxcalculus to identify resources that are necessary for a quantum speedup.
It will also further the \textbf{practical understanding} of quantum information protocols through the development of the \dzxc system, a deep quantum compiler that can take input in a variety of high-level quantum programming languages, automatically add error correction, optimise the process, and output machine instructions adapted for different quantum devices.
The \dzxc system will be able to model noise and error rates of the target platforms and take steps to minimise decoherence, thus \textbf{enhancing the robustness and scalability of quantum information technologies}.
As the basis of a retargetable compiler, the \dzxc system will make it easy to support new quantum devices and thereby help to \textit{``identify new opportunities and applications fostered through quantum technologies''}.
By providing open APIs, we will make the \dzxc system available to all academic and industrial users, thus \textit{``transferring these technologies from laboratories to industries''} and \textit{``enlarging the community involved''} in tackling the new challenges of quantum computation.
Developing the \dzxc system will utilise the entire range of knowledge required for building quantum technologies, from experimental and theoretical physics, through to quantum computing theory, and on to formal methods of computer science, which \textit{``enhances interdisciplinarity''} and \textit{``crosses traditional boundaries between disciplines''}.
As the basis of a retargetable compiler, the \dzxc system will make it easy to support new quantum devices and thereby help to \textbf{identify new opportunities and applications fostered through quantum technologies}.
By providing open APIs, we will make the \dzxc system available to all academic and industrial users, thus \textbf{transferring these technologies from laboratories to industries} and \textbf{enlarging the community involved} in tackling the new challenges of quantum computation.
Developing the \dzxc system will utilise the entire range of knowledge required for building quantum technologies, from experimental and theoretical physics, through to quantum computing theory, and on to formal methods of computer science, which \textbf{enhances interdisciplinarity} and \textbf{crosses traditional boundaries between disciplines}.
With our newly-founded member group at the University of Gdansk, we have a \textit{``partner from the widening countries''}.
The project also involves several other research groups that have been founded in the past few years, thus \textit{``building leading innovation capacity''}.
Additionally, the team includes as co-investigators multiple \textit{``excellent young researchers''} on the brink of group development.
Our industrial partner, CQC, is an \textit{``ambitious high-tech SME''} with a team leader who has expertise in technology transfer from academia to industry.
With our newly-founded member group at the University of Gdansk, we have a \textbf{partner from the widening countries}.
The project also involves several other research groups that have been founded in the past few years, thus \textbf{building leading innovation capacity}.
Additionally, the team includes as co-investigators multiple \textbf{excellent young researchers} on the brink of group development.
Our industrial partner, CQC, is an \textbf{ambitious high-tech SME} with a team leader who has expertise in technology transfer from academia to industry.
\subsection{Dissemination, exploitation of results, communication}
\label{sec:diss-expl-results}
\REM{Provide a plan for disseminating and exploiting the project results beyond the project itself.
Results include any data produced in the framework of the project. If applicable, describe how data curation and distribution can be ensured beyond the project duration.
Describe the proposed communication measures for promoting the project and its findings during the period of the project. Measures should be with clear objectives. They should be tailored to the needs of different target audiences, including groups beyond the project’s own community.
Where relevant, include measures for public/societal engagement on issues related to the project.}
\paragraph{Dissemination.\!\!}
\label{sec:dissemination}
%\bR personal opinion : we should be bold and say Fuck the (journal)
