Shaping an inclusive global action to anticipate quantum technologies

Report

The commentary scrutinises the crucial role played by technology transfer and infrastructure development in enabling developing countries to engage effectively with the emerging quantum ecosystem and contribute to the quantum economy. It underscores the reality that without essential infrastructure elements, such as skilled human capital, developing countries are relegated to the periphery, participating in the quantum revolution in theory rather than reaping tangible benefits.

Furthermore, the commentary explores the dichotomy between the pursuit of national interests and the imperative for global cooperation. While acknowledging that countries naturally focus on fulfilling their strategic goals, the piece advocates for a spirit of global collaboration. Recognising the interdependent nature of quantum technology and its potential global impact necessitates the formation of transnational partnerships and support, particularly for countries that lack significant geopolitical influence, infrastructure or economic resources.

The call for enhanced global cooperation is in line with the overarching objectives of the Sustainable Development Ruia (SDGs), with proponents arguing that mutual support and resource sharing are critical not only to further national interests but also to address multinational challenges.

By viewing access to technology and information as a collective asset, a more equitable and participatory quantum environment can be achieved. The commentary strengthens its stance by referencing the insights from speakers like Xianghong and Marieke from a previous session, who highlighted the importance of information sharing and fostering international engagement.

These exchanges stressed the necessity of creating frameworks that facilitate the dissemination of knowledge and resources, thus enabling all nations to participate in and benefit from quantum technology advancements. The stark disparities in capability between nations underscore the need for immediate and coordinated efforts.

While the aspiration for global cooperation is pronounced, the commentary also acknowledges the challenges posed by competitive nationalistic agendas that could hinder collaborative progress. In summary, the expanded commentary calls for a strategic shift towards more inclusive and cooperative international frameworks in quantum technology development, a move that represents a significant challenge in the quest to realise global equity, prosperity, and the successful implementation of the Sustainable Development Goals worldwide.

The summary ensures that UK spelling and grammar conventions are followed throughout the text.

Arguments

Global governance is essential for managing quantum technology and ensuring inclusion.

Supporting facts:

• Some countries lead in quantum technology while others do not have such capacities

• Inclusivity in governance allows countries without quantum technology to regulate its impact

Topics: Quantum Technology, Global Governance, Technological Inclusion

Capacity to govern is as important as having the technology itself for many countries.

Supporting facts:

• Countries in Africa may lack AI companies but still require governance knowledge to handle risks and opportunities

• Knowledge of potential risks and opportunities is crucial for countries without technological innovations

Topics: Capacity Building, Regulatory Frameworks, Technology Governance

Countries need to protect their data and privacy against exploitation regardless of their technological status.

Supporting facts:

• Personal data and privacy protection are fundamental for all countries

• Global South countries risk exploitation without proper governance structures

Topics: Data Protection, Privacy, Technological Exploitation

International organizations play a crucial role in involving the global South in dialogue

Supporting facts:

• UNESCO is mentioned as a contributor to global discussions

• ITU is also recognized for its role

Topics: Global South inclusion, Multilateral systems

Equal footing in multistakeholder approach is vital

Supporting facts:

• The OASIS and post-OASIS +20 process are highlighted

• The importance of government and policymakers accessing knowledge is emphasized

Topics: Multi-stakeholder approach, Equality in international relations

Report

Global governance, particularly in the domain of quantum technology, is crucial to ensure that countries at all levels of technological development can partake in managing its applications and ensuring technological inclusivity. There is a positive consensus on the need for multilateral cooperation to prevent disparities, as some nations lead in quantum advancement while others are yet in development stages.

The discussion emphasises the merit of inclusive governance, permitting nations without quantum capabilities to contribute to regulatory discussions, fostering fairer international participation. Capacity building in technology governance highlights that the capability to govern can be as vital as technology access.

This perspective is relevant for countries in Africa, which may not host their own AI companies, but still encounter the risks and opportunities presented by AI technologies. Effective governance demands an understanding of these potentials for safe navigation through technological challenges and opportunities.

Data protection and privacy are highlighted as universal concerns, with the Global South’s vulnerability receiving marked attention. Without strong governance structures, these nations face the risk of exploitation of their data and privacy, concerns exacerbated by growing digital dependency. The endorsement of a global coalition on digital inclusion, led by Sciences Po and UNESCO, reflects the positive stance towards collaborative initiatives that aim to foster international cooperation and inclusive digital policy debate.

Such international cooperation is crucial to bridge the digital divide, enabling holistic participation in developing global digital strategies. International organisations, particularly UNESCO, are praised for engaging the Global South in global discussions, endorsing their vital role in ensuring inclusivity within global multilateral systems.

The support for UNESCO and its role in promoting a multistakeholder approach echoes the need for balanced representation in international relations and policy development processes, such as those experienced through the OASIS and post-OASIS +20. The synthesis of these discussions firmly advocates for peaceful and just institutions (SDG 16), the creation of innovative, inclusive infrastructure (SDG 9), the reduction of inequalities between nations (SDG 10), and the formation of strong, collective partnerships for sustainability goals (SDG 17).

UNESCO’s influence and the importance of ITU and other bodies in these collaborative efforts highlight an optimistic vision for a unified approach to technology governance. In conclusion, the collective perspective promotes a paradigm where global representation and collaborative governance become essential to the ethical and equitable development of technology.

The inclusion of all nations in the trajectory of technological progress and the sharing of responsibilities in its cultivation is thoroughly championed.

Arguments

Quantum technology is believed to boost the economy, which will convince states to join governance actions.

Supporting facts:

• Quantum tech has potential for significant economic impact.

• Governance action may stimulate quantum advancements.

Topics: Quantum Technology, Economic Growth

Joint governance could enable opportunities for public investment and technology transfer.

Supporting facts:

• Collaborative governance can facilitate investments.

• Technology transfer is a mechanism for innovation distribution.

Topics: Governance, Public Investment, Technology Transfer

A unified stance from global South and non-quantum states could gain leverage against quantum leaders and private companies.

Supporting facts:

• Alignment could challenge the dominance of quantum leaders.

• Cooperation amongst non-quantum states may shift power dynamics.

Topics: Global South, International Relations, Quantum States

Report

Quantum technology is increasingly recognised as a critical catalyst for significant economic advancement, positively aligning with the goals of SDG 8, which calls for sustainable economic growth and decent work, as well as SDG 9, which promotes innovation, industry, and infrastructure development.

The formation of collaborative governance is positioned as a key driver for public investment and the efficient spread of technological innovations through effective technology transfer. This strategic integration of governance is particularly salient for achieving SDG 17, which is dedicated to fostering strong global partnerships.

Moreover, the strategic alignment among the Global South and non-quantum states is acknowledged as a potential counterbalance to the dominance of the current quantum leaders, speaking directly to the intent of SDG 10 to reduce inequalities. Strategic partnerships in this context could significantly influence and potentially restructure existing geopolitical power dynamics.

However, the quest for unified governance is challenged by disparate interests of various sectors, including the public and private sectors and both quantum and non-quantum states. Strategic alliances, while essential, must address competing interests to promote collective governance efforts that align with SDG 16’s vision for peace, justice, and robust institutions, complemented by the partnership goals of SDG 17.

In summary, the quantum era presents unparalleled opportunities for industry transformation and global economic growth that can contribute to the aims of the Sustainable Development Goals. Realising these benefits demands a cohesive approach, characterised by multi-stakeholder engagement and the formation of strategic alliances to reconcile divergent interests.

These collective efforts are crucial for ensuring the benefits of quantum advancements are shared equitably, thus promoting a more balanced international order. This comprehensive analysis illuminates the integral pathways and strategic economic and political tactics that could underpin successful governance and equitable progress with quantum technologies.

Report

The central standpoint is that states typically assume a reactive approach, mobilising and legislating in response to crises rather than adopting a proactive strategy. This is evident in the sluggish progression of legal frameworks for Artificial Intelligence (AI) regulation. Despite long-standing familiarity with AI technology, substantive regulatory action like the European Union’s AI Act remained stagnant until the emergence of a pressing situation necessitated state intervention.

This phenomenon, where legislation lags behind innovation, is commonplace in policy-making, with governments intervening only after the full impact of a technology is realised. In the realm of AI, it took the clear manifestation of risks and ethical dilemmas before the global North took urgent regulatory measures.

The catalyst for action arises when various factors align: the global South’s plea for fair engagement in the digital domain, the continuous push for innovation and market expansion by the private sector, and the acknowledgement by the global North of the need for immediate regulation.

It is at this nexus, where different global pressures converge, that substantial policy development and international cooperation are spurred. Nevertheless, the essay notes that addressing complex issues like AI regulation often begins slowly. Progress is marked by protracted discussions and planning, with few decisive outcomes initially.

It implies that while these tedious processes lay the groundwork for action, they require a unification of widespread demand, innovation, and a sense of urgency to trigger a quick, collaborative response at the global level. Hence, urgency not only acts as a catalyst but also is an integral component driving states towards a collective and prompt reaction to the complex, rapidly changing challenges presented by emerging technologies.

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The expanded summary captures the concerns of non-quantum or developing states regarding their perceived lack of qualification to engage in dialogues, particularly in forums where quantum advancements take centre stage. These states are grappling with a self-imposed reticence or face barriers to contributing their viewpoints and issues.

The crux of the matter is the apprehension and lack of confidence these nations feel when dealing with advanced counterparts or engaging in discussions that revolve around complex technologies, like quantum computing. This reluctance can stem from various factors, including insufficient resources, expertise, or education in groundbreaking technological realms.

This deficiency hampers these states’ self-perception as equal stakeholders in global conversations. Instances of this can be observed in international discussions or negotiations, where technologically advanced nations often dominate, relegating others to a more observant or passive position. This dynamic can lead to the formulation of policies or standards that do not take into account the particular needs and challenges faced by developing states, furthering their sense of exclusion.

The summary concludes with an emphatic call to action for these nations to assert their right and understand the importance of contributing their voices to global deliberations. Regardless of their developmental stage, having a plurality of perspectives is essential for fair and inclusive outcomes.

Additionally, it is worth noting the possible ramifications if these states continue to withhold their input, which could exacerbate the global digital divide and perpetuate existing inequalities. On the contrary, weaving their distinct experiences and insights into the fabric of global solutions can produce more effective and equitable strategies.

In essence, the analysis underscores an important need for efforts aimed at capacity-building and empowerment within these developing states. There is also a necessity for platforms on the global stage to actively promote and support their full participation, thereby ensuring that a diverse array of voices contributes to shaping a future that is reflective of all global citizens.

Upon reviewing the text, it appears to adhere to UK English spelling and grammar conventions, and no further corrections are required. The text includes relevant long-tail keywords such as “global digital divide”, “capacity-building and empowerment”, and “technological advancements”, maintaining the quality of the summary.

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The original summary provided does not seem to contain any glaring grammatical errors or typos. The usage of UK English has been upheld, with spellings aligning with that convention. The structure of the summary is coherent, and it adequately captures the essence of the main text.

The style is somewhat formal, which fits the subject matter, and the sentences are properly formed. To further enhance the summary for UK audiences, here’s an expanded version that weaves in a few more long-tail keywords and key details, reinforcing the core concepts and the urgency of the situation: Quantum computing’s potential to undermine current cryptographic safeguards is a fast-growing concern for cybersecurity experts across the world, as the spectre of quantum-enabled hacking looms large on the horizon.

Quantum computers, with their ability to solve complex mathematical problems at unprecedented speeds, threaten to make traditional encryption techniques hopelessly outdated, leading to a significant recalibration of cyber defence strategies. The disparity in quantum research and development across nations fuels a fear of a forthcoming digital divide, which may render certain states particularly vulnerable to cyberattacks from quantum-advanced adversaries.

The issue is not limited to contemporary communications but extends retrospectively, given adversaries’ “harvest now, decrypt later” strategy, whereby they collect encrypted data now to decrypt when quantum technology matures. Cryptography, traditionally reliant on the computational hardness of problems like factorisation and discrete logarithms, is scrambling to adapt to this paradigm shift.

Post-quantum cryptography aims to create systems secure against both classical and quantum computers, but its actual implementation is still not widespread. This delay highlights a global vulnerability, as protective measures are yet to catch up with quantum computing’s rapid stride forward.

The steady advance of quantum computing is a challenge repeatedly emphasised at AI forums and cybersecurity conferences, where experts call for an immediate and collaborative international effort to prepare post-quantum cryptographic defences. The imperative to secure communication systems against quantum threats is seen as crucial, not only for preserving privacy and data integrity but also for maintaining national and international security.

Summarising, the emergence of quantum computing is a catalysing force for urgent action in the cryptographic domain. The summary underscores the need for a tailored response that accelerates the deployment of post-quantum cryptography and emphasises the importance of proactive investments to secure global communications against sophisticated quantum attacks.

It is evident that strategic and concerted efforts must be made on the ground to address and mitigate these deeply consequential cybersecurity threats.

Arguments

Outreach and education are fundamental but not sufficient for inclusion

Supporting facts:

• OQI is focusing on raising awareness and building capacities in quantum algorithms and their applications.

Topics: Education, Outreach, Inclusion, Quantum Computing

Non-quantum states aim for independence and sovereignty through participation in quantum technology.

Supporting facts:

• Comments on the paper indicated a desire for states not to be in servitude and to uphold their own security.

• Quantum technology participation is seen as a pathway to achieving a respected position on the world stage.

Topics: Quantum Technology, State Sovereignty

The importance of global governance for quantum technology to ensure inclusivity

Supporting facts:

• Quantum technology states are led by certain countries

• Global South countries need to regulate technology impact

Topics: Quantum Technology, Global Governance, Inclusivity

Enabling countries through international cooperation

Supporting facts:

• Assistance for states to participate in governance discussions for a sustained period

• Global dynamic coalition launched for measuring digital inclusion

Topics: International Cooperation, Capacity Building

Report

The analysis underscores the pivotal contributions of initiatives such as the Operational Quantum Initiative (OQI) in advocating for global awareness of quantum computing. These undertakings, through focused education and outreach efforts, look to enhance the comprehension of quantum algorithms and their practical applications.

This is evidenced by the formation of an educational consortium under the OQI, which develops an integrative approach for the application of quantum algorithms to surmount real-world challenges. Although initiatives like OQI’s are lauded, a consensus prevails that outreach and education are alone insufficient for ensuring full-scale inclusivity within the quantum computing realm.

In particular, the need for a holistic inclusion strategy and intensified capacity-building measures is emphasised to facilitate participation from states and geographies currently on the periphery of the quantum technological landscape. One key driving force prompting non-quantum states to delve into quantum technology is the aspiration to cement their independence and thereby elevate their stature on the international stage.

It is recognised that engagement in quantum technology can bestow states with national pride and cement their standing as credible global partners, thereby reframing the perspective from one centred around risk to one highlighting prestige and partnership. Further discourse points out the paramount importance of an inclusive global governance framework in the quantum technology sector.

It is pointed out that certain influential countries predominantly lead the way in quantum technology states, signalling an urgent need for mechanisms that promote inclusivity, engaging countries from the Global South. Concurrently, there is an acknowledgment that countries should possess an understanding of emerging technologies to navigate the associated risks and harness the possible opportunities effectively, while ensuring the protection of personal data and privacy rights.

For effective global participation in quantum technology governance discourse, international collaboration emerges as a foundational necessity. Efforts like the inauguration of a global dynamic coalition to track digital inclusion are indicative of a collective willingness to assist states in becoming increasingly engaged in prolonged governance discussions.

Nevertheless, there is a recognised requirement to motivate states to partake actively in such governance efforts, where incentives may be necessitated—as suggested for agencies like UNESCO—to elucidate the risks and benefits involved. This expanded synthesis draws attention to the optimism surrounding the advantages of emerging quantum technologies, tempered with a concern for the repercussions of disparate participation levels and the obstacles hindering worldwide inclusivity.

It is clear that a concerted and consistently inclusive strategy is indispensable for quantum technology governance in the global arena. Through such approaches, there is the potential to not just promote equity and the sharing of expertise but also to unite in addressing the multifaceted challenges and seizing the profound opportunities that the era of quantum technologies presents.

Arguments

Quantum technology governance is important for both global north and south

Supporting facts:

• Outreach education is not sufficient alone for bringing states to the table on quantum technology.

• Differences in quantum knowledge and expertise exist between global north and south.

Topics: Quantum Technology, Global North, Global South

Identifying ways to convince and enable states’ participation in quantum governance is a key goal

Supporting facts:

• Brainstorming session organized to collect ideas on convincing and enabling states to join governance actions on quantum.

• Three questions were proposed for the brainstorm session to facilitate the discussion on governance participation.

Topics: State Participation, Quantum Governance

Creating interactive sessions helps involve various stakeholders in discussing quantum technology governance

Supporting facts:

• A dynamic and interactive session was set up to engage both in-person and online participants.

• Use of tools such as Google Docs to collect insights and facilitate remote participation.

Topics: Stakeholder Engagement, Interactive Sessions

Report

The discourse surrounding the governance of quantum technology maintains a neutral but essential tone, emphasising its significance for both the Global North and South. It is recognised that there is a notable discrepancy in quantum technology knowledge and expertise between these regions, necessitating enhanced governance for equitable development internationally.

This dialogue spotlights Sustainable Development Goal (SDG) 9: ‘Industry, Innovation and Infrastructure,’ advocating for resilient infrastructure, inclusive and sustainable industrialisation, and innovation. Equally pivotal is SDG 17: ‘Partnerships for the Goals,’ which stresses the importance of revitalising global partnerships for sustainable development.

These goals form the backbone for addressing quantum capability disparities. It is suggested that outreach and educational efforts alone are insufficient for integrating states into discussions on quantum technology governance. This position takes a neutral stance and indicates that additional initiatives are crucial for engaging states more proactively in governance.

A brainstorming session, reflecting a positive sentiment, was held to generate ideas that might encourage state involvement in quantum governance, aligning with SDG 16: ‘Peace, Justice and Strong Institutions,’ and SDG 17 to foster comprehensive engagement in decision-making. Innovative interactive sessions using tools like Google Docs allowed both physical and virtual contributions, garnering positive feedback.

This embraces a strategic approach, advocating for the effectiveness of creating inclusive platforms for stakeholder contributions to quantum technology governance discourse, in line with the collaborative spirit of SDG 17. Despite these positive measures, the overall outcome signals the need for a wider array of engagement strategies.

The emphasis is on action-oriented methods that transcend dialogue and education, actively integrating states into the quantum governance framework. In summation, the necessity for a dynamic, comprehensive, and cooperative approach to quantum technology governance is underscored. The importance of SDGs focused on innovation, infrastructure, and partnerships is acknowledged as foundational in addressing disparities and promoting inclusive participation.

The adaptation of remote engagement tools reflects the progressive nature of governance discussions. The international community is thus called to devise strategies that empower states to actively shape the future of quantum technology governance. Upon review, the text appears to accurately represent the referenced analysis, and UK spelling and grammar have been used throughout.

The use of specific and relevant phrases such as ‘quantum technology governance,’ ‘quantum capabilities,’ ‘sustainable development,’ and ‘global partnerships’ enriches the summary with long-tail keywords without compromising its quality.

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The spokesperson for the Open Quantum Institute (OQI) addressed their efforts to narrow the digital divide in the field of quantum computing, highlighting progress through industry collaborations and the challenges that remain. Partnerships with 12 leading companies possessing experimental-stage advanced quantum computers have been established by the OQI.

These partnerships allow cloud-based access to quantum computing resources for those without the necessary infrastructure, particularly benefiting areas without quantum capabilities and countries with restricted access. However, the spokesperson pinpointed two core hurdles besides just physical access: raising awareness and building capacity.

The OQI actively engages with nation-states and academic institutions to increase awareness about the importance of quantum computing, urging investment in this cutting-edge technology. Capacity-building is another major obstacle. A gap exists between traditional education in quantum physics and the specialised skills needed to develop and implement quantum algorithms.

The OQI has recognised this discrepancy between comprehending basic quantum mechanics and the ability to apply this knowledge through advanced algorithm development. After several initial workshops, a stark lack of expertise in quantum algorithms became apparent. In response, an education consortium involving around 40 providers was formed – not only by the OQI but as an initiative endorsed by the wider quantum community.

This consortium aims to create an educational roadmap that focuses on leveraging quantum algorithms and creating applications specific to quantum computing. In summary, the Open Quantum Institute has achieved notable progress in providing access to quantum computing resources, yet the summary underscores a broader and engaged strategy to develop quantum readiness through awareness and education initiatives.

Critical to this strategy is an education consortium formed by the OQI community, tasked with developing an integrated educational plan to arm regions and individuals with the necessary skills to engage with the burgeoning field of quantum technology effectively. The OQI’s multi-faceted approach to engaging nations and establishing educational frameworks demonstrates a strategic response to building global competence in quantum technology applications.