Quantum Computing and Intellectual Property Law

Berkeley Technology Law Journal, Vol. 35, No. 3, 2021, Forthcoming

New Stanford University Beyond IP Innovation Law research article: “Quantum Computing and Intellectual Property Law”.

By Mauritz Kop

Citation: Kop, Mauritz, Quantum Computing and Intellectual Property Law (April 8, 2021). Berkeley Technology Law Journal 2021, Vol. 35, No. 3, pp 101-115, February 8, 2022, https://btlj.org/2022/02/quantum-computing-and-intellectual-property-law/

Please find a short abstract below:

Intellectual property (IP) rights & the Quantum Computer

What types of intellectual property (IP) rights can be vested in the components of a scalable quantum computer? Are there sufficient market-set innovation incentives for the development and dissemination of quantum software and hardware structures? Or is there a need for open source ecosystems, enrichment of the public domain and even democratization of quantum technology? The article explores possible answers to these tantalizing questions.

IP overprotection leads to exclusive exploitation rights for first movers

The article demonstrates that strategically using a mixture of IP rights to maximize the value of the IP portfolio of the quantum computer’s owner, potentially leads to IP protection in perpetuity. Overlapping IP protection regimes can result in unlimited duration of global exclusive exploitation rights for first movers, being a handful of universities and large corporations. The ensuing IP overprotection in the field of quantum computing leads to an unwanted concentration of market power. Overprotection of information causes market barriers and hinders both healthy competition and industry-specific innovation. In this particular case it slows down progress in an important application area of quantum technology, namely quantum computing.

Fair competition and antitrust laws for quantum technology

In general, our current IP framework is not written with quantum technology in mind. IP should be an exception -limited in time and scope- to the rule that information goods can be used for the common good without restraint. IP law cannot incentivize creation, prevent market failure, fix winner-takes-all effects, eliminate free riding and prohibit predatory market behavior at the same time. To encourage fair competition and correct market skewness, antitrust law is the instrument of choice.

Towards an innovation architecture that mixes freedom and control

The article proposes a solution tailored to the exponential pace of innovation in The Quantum Age, by introducing shorter IP protection durations of 3 to 10 years for Quantum and AI infused creations and inventions. These shorter terms could be made applicable to both the software and the hardware side of things. Clarity about the recommended limited durations of exclusive rights -in combination with compulsory licenses or fixed prized statutory licenses- encourages legal certainty, knowledge dissemination and follow on innovation within the quantum domain. In this light, policy makers should build an innovation architecture that mixes freedom (e.g. access, public domain) and control (e.g. incentive & reward mechanisms).

Creating a thriving global quantum ecosystem

The article concludes that anticipating spectacular advancements in quantum technology, the time is now ripe for governments, research institutions and the markets to prepare regulatory and IP strategies that strike the right balance between safeguarding our fundamental rights & freedoms, our democratic norms & standards, and pursued policy goals that include rapid technology transfer, the free flow of information and the creation of a thriving global quantum ecosystem, whilst encouraging healthy competition and incentivizing sustainable innovation.

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Establishing a Legal-Ethical Framework for Quantum Technology

Yale Law School, Yale Journal of Law & Technology (YJoLT) The Record 2021

New peer reviewed cross-disciplinary Stanford University Quantum & Law research article: “Establishing a Legal-Ethical Framework for Quantum Technology”.

By Mauritz Kop

Citation: Kop, Mauritz, Establishing a Legal-Ethical Framework for Quantum Technology (March 2, 2021). Yale J.L. & Tech. The Record 2021, https://yjolt.org/blog/establishing-legal-ethical-framework-quantum-technology

Please find a short abstract below:

What is quantum technology?

Quantum technology is founded on general principles of quantum mechanics and combines the counterintuitive physics of the very small with engineering. Particles and energy at the smallest scale do not follow the same rules as the objects we can detect around us in our everyday lives. The general principles, or properties, of quantum mechanics are superposition, entanglement, and tunnelling. Quantum mechanics aims to clarify the relationship between matter and energy, and it describes the building blocks of atoms at the subatomic level.

Raising Quantum Awareness

Quantum technologies are rapidly evolving from hypothetical ideas to commercial realities. As the world prepares for these tangible applications, the quantum community issued an urgent call for action to design solutions that can balance their transformational impact. An important first step to encourage the debate is raising quantum awareness. We have to put controls in place that address identified risks and incentivise sustainable innovation.

Connecting AI and Nanotechnology to Quantum

Establishing a culturally sensitive legal-ethical framework for applied quantum technologies can help to accomplish these goals. This framework can be built on existing rules and requirements for AI. We can enrich this framework further by integrating ethical, legal and social issues (ELSI) associated with nanotechnology. In addition, the unique physical characteristics of quantum mechanics demand universal guiding principles of responsible, human-centered quantum technology. To this end, the article proposes ten guiding principles for the development and application of quantum technology.

Risk-based Quantum Technology Impact Assessment Tools

Lastly, how can we monitor and validate that real world quantum tech-driven implementations remain legal, ethical, social and technically robust during their life cycle? Developing concrete tools that address these challenges might be the answer. Raising quantum awareness can be accomplished by discussing a legal-ethical framework and by utilizing risk-based technology impact assessment tools in the form of best practices and moral guides.

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Safeguards for accelerated market authorization of vaccines in Europe

by Suzan Slijpen & Mauritz Kop

This article has been published by the Stanford Law School ‘Center for Law and the Biosciences’, Stanford University, 15 March 2021. link to the full text: https://law.stanford.edu/2021/03/15/safeguards-for-accelerated-market-authorization-of-vaccines-in-europe/

The first COVID-19 vaccines have been approved

People around the globe are concerned about safety issues encircling the accelerated introduction of corona vaccines. In this article, we discuss the regulatory safeguards for fast-track market authorization of vaccines in Europe. In addition, we explain how the transmission of European Union law into national Member State legislation works. We then clarify what happens before a drug can be introduced into the European market. We conclude that governments should build bridges of mutual understanding between communities and increase trust in the safety of authorized vaccines across all population groups, using the right messengers.

Drug development normally takes several years

Drug development normally takes several years. The fact that it has been a few months now seems ridiculously short. How is the quality and integrity of the vaccine ensured? That people - on both sides of the Atlantic - are concerned about this is entirely understandable. How does one prevent citizens from being harmed by vaccines and medicines that do not work for everyone, because the admission procedures have been simplified too much?

The purpose of this article is to shed a little light upon the accelerated market authorization procedures on the European continent, with a focus on the situation in the Netherlands.

How a vaccine is introduced into the market

In June 2020, the Dutch government, in close cooperation with Germany, France and Italy, formed a Joint Negotiation Team which, under the watchful eye of the European Commission, has been negotiating with vaccine developers. Its objective: to conclude agreements with drug manufacturers at an early stage about the availability of vaccines for European countries. In case these manufacturers are to succeed in developing a successful vaccine for which the so-called Market Authorization (MA) is granted by EMA or CBG, this could lead to the availability of about 50 million vaccines (for the Netherlands alone).

Who is allowed to produce these vaccines?

Who is allowed to produce these vaccines? The Dutch Medicines Act is very clear about this. Only "market authorization holders" are allowed to manufacture medicines, including vaccines. These are parties that have gone through an extensive application procedure, who demonstrably have a solid pharmaceutical quality management system in place and have obtained a pharmaceutical manufacturing license (the MIA, short for Manufacturing and Importation Authorisation). This license is granted after assessment by the Health and Youth Care Inspectorate of the Ministry of Health, Welfare & Sport (IGJ) – by Farmatec. Farmatec is part of the CIBG, an implementing body of the Ministry of Health, Welfare and Sport (VWS). The M-license is mandatory for parties who prepare, or import medicines.

Read more at the Stanford Center for Law and the Biosciences!

Read more on manufacturing licenses, fast track procedures and market authorization by the European Medicines Agency (EMA) and the EC, harmonisation and unification of EU law, CE-markings, antigenic testing kits, mutations, reinfection, multivalent vaccines, mucosal immunity, Good Manufacturing Practices (GMP), pharmacovigilance, the HERA Incubator, clinical trials, compulsory vaccination regimes and continuous quality control at Stanford!

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Een Juridisch-Ethisch Kader voor Quantum Technologie

Een bewerkte versie van deze bijdrage is gepubliceerd op platform VerderDenken.nl van het Centrum voor Postacademisch Juridisch Onderwijs (CPO) van de Radboud Universiteit Nijmegen. https://www.ru.nl/cpo/verderdenken/columns/we-nederland-voorbereiden-kwantumtoekomst/

Nederland moet zich voorbereiden op de toepassing van kwantumtechnologie, zegt jurist en Stanford Law School Fellow Mauritz Kop. Op het gebied van regulering, intellectueel eigendom en ethiek is er nog veel werk aan de winkel.

De Quantum Age roept veel juridische vragen op

Het gedrag van de natuur op de kleinste schaal kan vreemd en contra-intuïtief zijn. Hoe kunnen beleidsmakers de toepassingsgebieden van kwantumtechnologie, zoals quantum computing, quantum sensing en het quantum internet op een maatschappelijk verantwoorde manier reguleren? Dienen ethische kwesties een rol te spelen in regulering? De Quantum Age roept veel juridische vragen op.

Hoe kunnen we kwantumtechnologie reguleren?

Regulering van transformatieve technologie is een dynamisch, cyclisch proces dat de levensduur van de technologie en de toepassing volgt. Het vraagt om een flexibel wetgevend systeem dat zich snel kan aanpassen aan veranderende omstandigheden en maatschappelijke behoeften.

De eerste regelgevende stap om te komen tot een bruikbaar juridisch-ethisch kader is het koppelen van de Trustworthy AI-principes aan kwantumtechnologie. Die vullen we vervolgens aan met horizontale, overkoepelende regels die recht doen aan de unieke natuurkundige eigenschappen van quantum. Aan deze horizontale kernregels voegt de wetgever tenslotte verticale, industrie- of sectorspecifieke voorschriften toe. Die verticale voorschriften en gedragscodes zijn risk-based en houden rekening met de uiteenlopende behoeftes van economische sectoren waar het duurzame innovatiestimuli betreft. Zo ontstaat een gedifferentieerde, sectorspecifieke benadering aangaande incentives en risks.

Bewustwording van ethische, juridische en sociale aspecten

Een belangrijk onderdeel van het synchroniseren van onze normen, waarden, standaarden en principes met kwantumtechnologie is het creëren van bewustwording van de ethische, juridische en sociale aspecten ervan. De architectuur van systemen die zijn uitgerust met kwantumtechnologie moet waarden vertegenwoordigen die wij als samenleving belangrijk vinden.

Vooruitlopend op spectaculaire doorbraken in de toepassing van kwantumtechnologie is de tijd nu rijp voor regeringen, onderzoeksinstellingen en de markt om regulatoire en intellectuele eigendomsstrategieën voor te bereiden die passen bij de power van de technologie.

Nederland moet zich voorbereiden op een kwantumtoekomst, want die komt eraan.

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Regulating Transformative Technology in The Quantum Age: Intellectual Property, Standardization & Sustainable Innovation

Stanford - Vienna Transatlantic Technology Law Forum, Transatlantic Antitrust and IPR Developments, Stanford University, Issue No. 2/2020 (Forthcoming)

New Stanford cutting edge tech law research: “Regulating Transformative Technology in The Quantum Age: Intellectual Property, Standardization & Sustainable Innovation”.

Quantum technology has many legal aspects

The behavior of nature at the smallest scale can be strange and counterintuitive. In addition to unique physical characteristics, quantum technology has many legal aspects. In this article, we first explain what quantum technology entails. Next, we discuss implementation and areas of application, including quantum computing, quantum sensing and the quantum internet. Through an interdisciplinary lens, we then focus on intellectual property (IP), standardization, ethical, legal & social aspects (ELSA) as well as horizontal & industry-specific regulation of this transformative technology.

The Quantum Age raises many legal questions

The Quantum Age raises many legal questions. For example, which existing legislation applies to quantum technology? What types of IP rights can be vested in the components of a scalable quantum computer? Are there sufficient market-set innovation incentives for the development and dissemination of quantum software and hardware structures? Or is there a need for open source ecosystems, enrichment of the public domain and even democratization of quantum technology? Should we create global quantum safety, security and interoperability standards and make them mandatory in each area of application? In what way can quantum technology enhance artificial intelligence (AI) that is legal, ethical and technically robust?

Regulating quantum computing, quantum sensing & the quantum internet

How can policy makers realize these objectives and regulate quantum computing, quantum sensing and the quantum internet in a socially responsible manner? Regulation that addresses risks in a proportional manner, whilst optimizing the benefits of this cutting edge technology? Without hindering sustainable innovation, including the apportionment of rights, responsibilities and duties of care? What are the effects of standardization and certification on innovation, intellectual property, competition and market-entrance of quantum-startups?

The article explores possible answers to these tantalizing questions.

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