Power Semiconductors for An Energy-Wise Society

This IEC White Paper establishes the critical role that power semiconductors play in transitioning to an energy wise society. It takes an in-depth look at expected trends and opportunities, as well as the challenges surrounding the power semiconductors industry. Among the significant challenges mentioned is the need for change in industry practices when transitioning from linear to circular economies and the shortage of skilled personnel required for power semiconductor development. The white paper also stresses the need for strategic actions at the policy-making level to address these concerns and calls for stronger government commitment, policies and funding to advance power semiconductor technologies and integration. It further highlights the pivotal role of standards in removing technical risks, increasing product quality and enabling faster market acceptance. Besides noting benefits of existing standards in accelerating market growth, the paper also identifies the current standardization gaps. The white paper emphasizes the importance of ensuring a robust supply chain for power semiconductors to prevent supply-chain disruptions like those seen during the COVID-19 pandemic, which can have widespread economic impacts.The white paper highlights the importance of inspiring young professionals to take an interest in power semiconductors and power electronics, highlighting the potential to make a positive impact on the world through these technologies.The white paper concludes with recommendations for policymakers, regulators, industry and other IEC stakeholders for collaborative structures and accelerating the development and adoption of standards

Myths and Legends in High-Performance Computing

In this thought-provoking article, we discuss certain myths and legends that are folklore among members of the high-performance computing community. We gathered these myths from conversations at conferences and meetings, product advertisements, papers, and other communications such as tweets, blogs, and news articles within and beyond our community. We believe they represent the zeitgeist of the current era of massive change, driven by the end of many scaling laws such as Dennard scaling and Moore's law. While some laws end, new directions are emerging, such as algorithmic scaling or novel architecture research. Nevertheless, these myths are rarely based on scientific facts, but rather on some evidence or argumentation. In fact, we believe that this is the very reason for the existence of many myths and why they cannot be answered clearly. While it feels like there should be clear answers for each, some may remain endless philosophical debates, such as whether Beethoven was better than Mozart. We would like to see our collection of myths as a discussion of possible new directions for research and industry investment

Comparing Innovation Performance in the EU and the USA: Lessons from Three ICT Sub-Sectors

The objective of the study is to document the existence of innovation gaps between the EU and its main competitors in specific ICT sub-sectors – namely web services, industrial robotics and display technologies –and to explore the role of government policies in Europe’s future needs for innovation in information and communication technologies (ICT) through a comparison with the USA and Asian countries. Our analysis shows that rather than there being a simple innovation gap with the EU lagging behind the USA, a more nuanced picture emerges in which firms in different countries have strengths in different sub-sectors and in different parts of the value chain. A key lesson from the analysis of the three subsectors is the critical importance of higher education, particularly elite university research, and of local networks as generated by clusters. Governments can also encourage innovation through appropriate intellectual property and competition laws and, more generally, through the development of a business environment conducive to innovation. Finally, Governments can have a very important role through the funding of early-stage innovationJRC.J.3-Information Societ

Rakennuksen käyttöjärjestelmän luonti: kokonaisvaltainen lähestymistapa

Purpose of this thesis is to examine requirements for a building operating system from a holistic perspective. To understand the context of the subject, an extensive literature review was carried out which explores the evolution of operating systems alongside the history of computing, unravelling the concept of an operating system. In addition, various building information systems, including building automation systems and internet of things systems are reviewed in order to understand modern and future trends of building technology. Furthermore, literature review investigates telecommunications and digital identity authentication through their evolution and standardisation towards interoperability, to provide knowledge on how to achieve interoperability in building systems. An interview study was conducted as the empirical part of the study in order to complement the theoretical framework of the thesis. A dozen building digitalisation experts were interviewed, inquiring their insights on the current and future situation of building systems. More closely, open systems, open data, platform ownership, disruption, killer applications, user-centredness, and Finland’s opportunities were discussed in respect of the building operating system. Building operating system requires connection between various technology inside a building, and collaboration between various parties who use and manage the building. The system should exploit open standards and enable open data. User-centred development should be encouraged for the benefits of end users. The system needs to expand globally to achieve critical mass and unleash its full potential as a platform. Each building with similar properties should have the same features, being able to use same services and applications in any building with an operating system, thus enabling portability. The system requires convenient software development kits, application programming interfaces and abstractions for the needs of software and service developers. A vibrant developer community is required to expand the platform and enable a wide range of services and applications.Tämän diplomityön tarkoituksena on tutkia rakennuksen käyttöjärjestelmän holistisia vaatimuksia. Laaja kirjallisuuskatsaus tehtiin aiheen ymmärtämiseksi, joka tutkii käyttöjärjestelmien evoluutiota rinnakkain tietojenkäsittelyn historian kanssa, tarkoituksena hahmottaa käyttöjärjestelmän käsitettä. Lisäksi, eri rakennusten tietojärjestelmiä, mukaan lukien rakennusautomaatiojärjestelmiä ja esineiden internet -järjestelmiä käytiin läpi ymmärtääkseen nykyisiä ja tulevia trendejä rakennusteknologiassa. Edelleen kirjallisuuskatsaus tutkii televiestintää ja sähköistä tunnistautumista niiden kehityksen ja standardisoinnin kautta kohti yhteentoimivuutta, tarjoten tietoa siitä, miten yhteentoimivuutta voitaisiin kehittää rakennusjärjestelmissä. Haastattelututkimus tehtiin diplomityön empiirisenä osuutena, jonka tarkoituksena oli laajentaa työn teoreettista viitekehystä. Tusina rakennusten digitalisaation asiantuntijaa haastateltiin, joilta kysyttiin rakennusjärjestelmien nykytilasta ja tulevaisuudesta. Lähemmin, keskustelut käsittelivät avoimia järjestelmiä, avointa dataa, alustan omistajuutta, disruptiota, menestyssovelluksia, käyttäjäkeskeisyyttä sekä Suomen kansainvälistä potentiaalia rakennuksen käyttöjärjestelmän näkökulmasta. Rakennuksen käyttöjärjestelmä vaatii rakennuksen sisällä olevien eri teknologioiden yhteenliittämisen, sekä yhteistyötä rakennusta käyttävien ja hallinnoivien osapuolten välillä. Järjestelmän pitäisi hyödyntää avoimia standardeja ja mahdollistaa avoimen datan käytön. Käyttäjäkeskeistä suunnittelua pitäisi kannustaa loppukäyttäjien etuja suosien. Järjestelmän täytyy levitä globaalisti saavuttaakseen kriittisen massan ja ottaakseen käyttöön sen koko potentiaalin. Jokaisella samankaltaisella rakennuksella täytyisi olla käytössään yhtäläiset ominaisuudet, mahdollistaen samojen palveluiden ja sovellusten käytön missä tahansa käyttöjärjestelmää käyttävässä rakennuksessa, täten mahdollistaen siirrettävyyden. Järjestelmä vaatii sopivat ohjelmointirajapinnat, abstraktiot ja ohjelmistokehykset sovellus- ja palvelukehittäjien tarpeita varten. Laaja kehitysyhteisö vaaditaan alustan levittämiseksi ja sovellustarjonnan laajentamiseksi

Mortgaging the Meme: Financing and Managing Disruptive Innovation

Traditional financing of innovative companies emphasizes the use of patents and associated intellectual property rights to secure debt and provide assets for valuation. Although the model suffices for incremental innovation, it does not account for investments in disruptive innovation, those that undermine traditional business models, supply chains or industry relationships. Disruptive innovation can be described as the introduction of a new conceptual idea or meme into an existing system that causes the system to be fundamentally altered. Assembly lines, air conditioning, digital film, and personal computers represent such innovations, all of which led to fundamental paradigm shifts. The convergence of globalization, a networked economy, and digital technologies have made disruptive innovation a threat in almost every industry. Changes to publishing, music, and television distribution – along with the rise of social media – highlight this transformation, but they are not alone; manufacturing, retail, payment systems, transportation and other industries are struggling with volatile upheaval caused by such change. Disruptive innovation, however, follows predictable patterns. Investors can anticipate these shifts if their financial transactions are properly structured and effectively documented. The model requires a holistic intellectual property approach which looks beyond just patents. It must explicitly incorporate the underlying meme, and it must account for the inflection points in the transformation pattern. Utilizing this model, inventors, private equity investment structures and established firms can maximize value and promote innovation. This article provides an overview of disruptive innovation from examples of the past decade, identify the underlying patterns of change common to disruptive innovation, highlight strategies to mitigate disruption for existing industry, and address the intellectual property securitization aspects to structure effective deals for both the investors and innovators

Mortgaging the Meme: Financing and Managing Disruptive Innovation

Disruptive innovation can be described as the introduction of a new conceptual idea or meme into an existing system that causes the system to be fundamentally altered. Assembly lines, air conditioning, digital film, and personal computers represent such innovations, all of which led to fundamental paradigm shifts. The convergence of globalization, a networked economy, and digital technologies have made disruptive innovation a threat in almost every industry. Changes to publishing, music, and television distribution – along with the rise of social media – highlight this transformation, but they are not alone; manufacturing, retail, payment systems, transportation and other industries are struggling with volatile upheaval caused by such change. Disruptive innovation, however, follows predictable patterns. Investors can anticipate these shifts if their financial transactions are properly structured and effectively documented. The model requires a holistic intellectual property approach which looks beyond just patents. It must explicitly incorporate the underlying meme, and it must account for the inflection points in the transformation pattern. Utilizing this model, inventors, private equity investment structures and established firms can maximize value and promote innovation. This article provides an overview of disruptive innovation from examples of the past decade, identify the underlying patterns of change common to disruptive innovation, highlight strategies to mitigate disruption for existing industry, and address the intellectual property securitization aspects to structure effective deals for both the investors and innovators