Podcasts about ibm quantum

Quantumcomputers beloven een revolutie, maar roepen ook veel vragen op. Vandaag aan tafel Armand Stekelenburg, één van de IBM Quantum ambassadeurs. Deze computers kunnen nu berekeningen uitvoeren waar gewone computers jaren over zouden doen! Maar wat kunnen we er vandaag de dag écht mee? Hoe ziet de toekomst van quantum computing eruit? Moeten we ons nu al zorgen maken over de gevaren, of juist focussen op de voordelen? En kun jij, als luisteraar, nu al aan de slag met quantum? Armand geeft antwoord op al deze vragen en nog veel meer, in deze aflevering van Of Je Stopt De Stekker Er In.

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Mikel Díez, director de IBM Quantum para España y Portugal, ha estado en el 24 horas de RNE para contar la importancia de la inauguración del primer centro de datos cuántico de IBM en Europa. Y es que llegados a este punto de la historia, empezamos a dejar atrás el teléfono de cable o los ordenadores, y la ciencia ahora se centra en la computación cuántica para resolver problemas de la ciencia, la inteligencia artificial y la medicina, a una velocidad mucho más rápida. "Ya no es ciencia ficción, es solo ciencia. La computación cuántica no deja de ser una manera de procesar información [...] Queremos seguir procesando información, pero queremos hacerlo en unas circunstancias y en un tipo de problemas que hasta ahora no podíamos abordar", ha expresado Díez, además de haber explicado algunos de los problemas que se podrían resolver gracias a la computación cuántica.Escuchar audio

In this episode of Tech Talks Daily, I sit down with Blake Johnson, Quantum Engine Lead at IBM Quantum, to explore the recent expansion of Qiskit, the world's most popular quantum software platform. IBM's Qiskit has evolved from an experimental tool into a highly stable and reliable platform capable of running complex quantum circuits on processors with over 100 qubits. This conversation dives into how Qiskit is now purpose-built to extract the best performance from real quantum hardware as industries around the world search for quantum advantage—the point where a quantum computer offers the most effective solution to a problem over any classical method. Blake shares insights into how IBM's collaboration with its global quantum ecosystem of over 600,000 users has driven the development of Qiskit's new performance capabilities. These include AI-powered tools that help organizations map their problems to quantum circuits, features that simplify interfacing with quantum systems, and new abilities that efficiently merge the strengths of classical and quantum resources. We discuss the significance of Qiskit moving to version 1.0, which brings 16x faster performance and new tools like Qiskit Runtime, the Transpiler service, Code Assistant, and Serverless capabilities. These advancements are essential as IBM continues its journey toward achieving quantum advantage and, ultimately, fault-tolerant quantum computing by 2029. Tune in to learn more about IBM's vision for quantum software, the growing role of Qiskit users, and how the quantum ecosystem is steadily advancing toward practical quantum computing. This episode provides a deeper understanding of the hybrid quantum-classical approach that is paving the way for future breakthroughs in this cutting-edge field. Whether you're new to quantum computing or a seasoned expert, Blake's insights will shed light on the future of this transformative technology.

My latest Quantum Tech Pod with Sabrina Maniscalco – CEO and co-founder, Algorithmiq, is live! Sabrina grew up in a small town called Mazzara, in southwestern Sicily, facing Africa. Two years before she went to university, she got a telescope as a birthday present and started to observe the stars and read about how galaxies are formed. This is what started her passion for quantum physics! Sabrina has held research and post-doctoral positions in many places around the world including South Africa, Bulgaria, Vienna, Germany, and eventually Finland. She co-founded Algorithmic in 2020 while a professor of quantum information, computing and logic at the University of Helsinki– where she still teaches. Algorithmic is developing advanced quantum algorithms that run on near-term quantum devices to enable the discovery of new drugs and the development of new materials. Working with IBM Quantum and the Cleveland Clinic, they are creating a hybrid quantum and classical solution to help choose and optimize the properties of photosensitizers used in photodynamic therapy for curing cancer. A patient eats a so called protodrug which is not in an active form. Once absorbed by the cells, it is then activated locally by light irradiation. Worth noting that the World Economic Forum recently announced the selection of Algorithmic as one of this year's 100 companies that will be joining its technology pioneers initiative. Check out my fascinating conversation with Sabrina! #quantumcomputing #QuantumAndLifeSciences #WomenInQuantum #QuantumInFinland #quantumdrugdiscovery Inside Quantum Technology

In this episode of The New Quantum Era, we're diving deep into the intersection of quantum computing and chemistry with Jamie Garcia, Technical Program Director for Algorithms and Scientific Partnerships Group with IBM Quantum. Jamie brings a unique perspective, having transitioned from a background in chemistry to the forefront of quantum computing. At the heart of our discussion is the deployment of the IBM Quantum computer at RPI, marking a significant milestone as the first of its kind on a university campus. Jamie shares insights into the challenges and breakthroughs in using quantum computing to push the boundaries of computational chemistry, highlighting the potential to revolutionize how we approach complex chemical reactions and materials science.Throughout the interview, Jamie discusses the evolution of quantum computing from a theoretical novelty to a practical tool in scientific research, particularly in chemistry. We explore the limitations of classical computational methods in chemistry, such as the reliance on approximations, and how quantum computing offers the promise of more accurate and efficient simulations. Jamie also delves into the concept of "utility" in quantum computing, illustrating how IBM's quantum computers are beginning to perform tasks that challenge classical computing capabilities. The conversation further touches on the significance of quantum computing in education and research, the integration of quantum systems with high-performance computing (HPC) centers, and the future of quantum computing in addressing complex problems in chemistry and beyond.Jamie's homepage at IBM ResearchHow Quantum Computing Could Remake Chemistry, an article by Jamie Garcia in Scientific American

Sebastian is joined by Olivia Lanes, Global Lead for Education and Learning, IBM Quantum to discuss quantum education, IBM's efforts to provide resources for workforce development, the importance of diversity and equality in STEM, and her own personal journey from experimental physics to community building and content creation. Recorded on the RPI campus during the launch event of their IBM System One quantum computer. Key Topics:- Olivia's background in experimental quantum physics and transition to education at IBM Quantum- Lowering barriers to entry in quantum computing education through IBM's Quantum Experience platform, Qiskit open source framework, and online learning resources- The importance of reaching students early, especially women and people of color, to build a diverse quantum workforce pipeline- Quantum computing as an interdisciplinary field requiring expertise across physics, computer science, engineering, and other domains- The need to identify real-world problems and use cases that quantum computing can uniquely address- Balancing the hype around quantum computing's potential with setting realistic expectations - International collaboration and providing global access to quantum education and technologies- The unique opportunity of having an IBM quantum computer on the RPI campus to inspire students and enable cutting-edge researchResources Mentioned: - IBM Quantum learning platform - "Introduction to Classical and Quantum Computing" by Tom Wong- Qiskit YouTube channelIn summary, this episode explores the current state of quantum computing education, the importance of making it accessible to a broad and diverse group of students from an early age, and how academia and industry can partner to build the quantum workforce of the future. Olivia provides an insider's perspective on IBM Quantum's efforts in this space.

In their third Decode Quantum episode in English after Simone Severini from AWS and Tommaso Calarco from Julich, Fanny Bouton and Olivier Ezratty are with Jay Gambetta from IBM. And he welcomed them since they recorded this episode near his office at IBM Yorktown Heights Research lab in New York state. This is the 68th episode of Decode Quantum.Jay Gambetta is a quantum physicist. Born in Australia, he did his thesis there at Griffith University in a quantum foundations theme. He then worked on superconducting qubits as a post-doc at Yale University and the Institute of Quantum Computing of Waterloo University in Ontario, Canada. He then joined IBM in 2011 and became in 2019 the VP in charge of all things quantum computing: hardware, software and business development. He is also an American Physical Society fellow, an IEEE fellow, and an IBM fellow.

Exclusivité DCmag - Après l'offre et les usages quantiques, nous posons la question de l'installation d'un ordinateur quantique et de sa place dans le datacenter. Cinquième capsule vidéo de notre série sur l'informatique quantique, en compagnie de Pierre JAEGER, Strategic Partnership Executive chez IBM Quantum.A quoi ressemble un ordinateur quantique, les processeurs, le câblage, le refroidissement ? Comment installer un ordinateur quantique ? L'ordinateur quantique est une technologie évolutive. La surface... réduite, le plancher, la salle technique. Et la consommation énergétique également réduite. Et la question de la sécurité ? Pas vraiment un problème... dans un datacenter maîtrisé.

Exclusivité DCmag - Sixième et dernière capsule vidéo de notre série sur l'informatique quantique, en compagnie de Pierre JAEGER, Strategic Partnership Executive chez IBM Quantum. Après l'offre et les usages quantiques, l'installation d'un ordinateur quantique et sa place dans le datacenter, nous concluons sur l'évocation du RoI (retour sur investissement) du quantique, pas seulement économique mais surtout humain via le projet quantique et la production de la propriété intellectuelle. Nous terminons sur la roadmap d'IBM sur le quantique, avec une garantie d'investissement jusqu'en 2033.

Après l'offre, les équipements et le software, évoquons les usages quantiques et le passage de la réponse à la menace quantique à l'avantage quantique. Quatrième capsule vidéo de notre série sur l'informatique quantique. Pierre JAEGER, Strategic Partnership Executive chez IBM Quantum, apporte des exemples concrets, d'exploration des codes et algorithmes quantiques, dans trois grands domaines : science quantique, analyse du vivant et de la matière ; le machine learning, trouver des relations complexes dans des jeux de données ; et la recherche opérationnelle, l'optimisation.Pierre JAEGER évoque également la consommation énergétique de l'informatique quantique. Et termine par la complexité du passage à l'échelle.

Entrer dans l'ère de l'utilité quantique, construire les bases de l'informatique quantique génériques et l'ordinateur programmable de demain... Voici la troisième capsule vidéo de notre série sur l'informatique quantique. Pierre JAEGER, Strategic Partnership Executive chez IBM Quantum, évoque pour nous l'implication d'IBM sur un domaine qui reste encore tourné vers la recherche, mais qui s'accompagne de deux roadmaps, d'innovation et de développement. Les puces, l'électronique de contrôle, la cryogénisation, et la production de qubits de qualité. Les solutions et la volonté de l'open source. L'écosystème du quantique en France et dans le monde.

Dans cette seconde capsule vidéo, nous posons la question "Qu'est-ce que l'informatique quantique et comment ça marche ?". Pierre JAEGER, Strategic Partnership Executive chez IBM Quantum, apporte une réponse accessible, et évoque la conception de la machine qui met en application la théorie quantique avec la meilleure performance. Pour parler informatique quantique, nous nous sommes tournés vers IBM. Le géant historique de l'informatique a été l'un des premiers à déployer des infrastructures quantiques, à produire des processeurs quantiques, à développer un environnement et des applications quantiques, et à proposer des solutions quantiques que l'on peut tester et mettre en production. Mais nous avons volontairement choisi de nous détourner de l'approche scientifique du quantique, sachant qu'il est désormais temps de nous tourner vers les usages qui émergent dans les entreprises et les organisations.

A decade after demonstrating the first entanglement of semiconducting spin quantum bits, or qubits, Oliver Dial and IBM Quantum are developing the ICs, cryogenic systems, error mitigation techniques, and software tools that will identify solutions to problems beyond the scope of classical computers. Recently, the IBM Quantum team announced the Heron 133-qubit and Condor 1,121-qubit quantum processors, and Dial joins us to talk about a subject that he loves. The highlights of this conversation between Dial and our Moore's Lobby host, Daniel Bogdanoff, include: A comparison of quantum and classic Turing computing systems. Temperatures down to 0.1 kelvin (brrr!) to noise temperatures of 30,000 kelvin (hotter than the sun, but not really). An audio symphony of quantum circuits running computations from around the world. Qubits are probably much bigger than you would expect. Why packaging engineers are the unsung heroes of the semiconductor and quantum industries. Semiconductor engineers telling quantum engineers, “you guys are doing these all wrong.” The technology advance in the newer Heron processor that Dial is most excited about.

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On this episode of the Moor Insights & Strategy Insider Podcast, host Patrick Moorhead is joined by Dr. Jay Gambetta, IBM Fellow and Vice President of IBM Quantum. Their conversation covers: The recently published paper in the journal Nature from IBM and Berkeley that proves a noisy yet powerful quantum system of today was able to solve a complex problem that a supercomputer could not. How the results of the paper show a clear path toward useful quantum computing in industry and demonstrate the power of combining error mitigation with 100+ qubit quantum computers. What sets the results of this study apart from other newsworthy calculations done by quantum computers. What enabled IBM — and no one else — to obtain results like these. What is available right now to IBM clients. How these results are related to the idea of "quantum advantage." What's next for IBM Quantum. This is a fascinating conversation you don't want to miss!

How can we create the community of talented people who will build, program, and use the next generation of quantum computers? Take a listen to Season 2, Episode 6 of insideQuantum to find out!This week, Junye Huang (黄俊晔) tells us about his journey from materials science to quantum computer – as well as his experience making quantum games – and how this all led up to his current role as a Quantum Developer Advocate for IBM Quantum.Junye Huang obtained a Bachelor of Engineering (BEng) degree from Nanyang Technological University Singapore, followed by a Master of Engineering (MEng) degree from the National University of Singapore, before joining the IBM Quantum team in Singapore in March 2020, and moving to IBM Quantum in Madrid in July 2022.Junye is also very involved in the Qiskit Advocate Program - applications for the 2023 cycle are open from June 1st to July 1st. For more details, you can check out Qiskit on Twitter, YouTube or find out more from IBM Quantum on LinkedIn.

Dans cet épisode, 4 actualités sont décodées. La première concerne Amazon Prime Vidéo, qui prévoit de lancer un niveau d'abonnement avec de la publicité, emboîtant ainsi le pas à Netflix et Disney. La deuxième actualité porte sur JCDecaux, qui rachète les activités de son concurrent Clear Channel en Italie et en Espagne. Sans oublier : IBM va ouvrir un centre de données quantique en Europe, et TikTok vise un chiffre d'affaires de 20 milliards de dollars dans l'e-commerce.Les épisodes de Signaux faibles sont disponibles sur Siècle Digital et les plateformes de streaming. Hébergé par Acast. Visitez acast.com/privacy pour plus d'informations.

Applications of quantum computing in the workplace may still sound like a theoretical future, but the need for workers capable of working with quantum is immediate and real. In this episode of Get Reworked, we talk to Bradley Holt, program director of workforce development at IBM Quantum, about what the company is doing to close the quantum skills gap and why it's focused on getting younger generations interested in quantum computing now. "There are an estimated 27 million classical software developers in the world today," Bradley said. "So that's a very, very different workforce, right, 3,000 people actually applying their skills in the field of quantum compared to say, 27 million classical developers. So we're getting there .... I don't think we need to go and really trained tens of millions of quantum developers overnight. But over the next decade or two, we're likely going to see a really significant increase in demand for quantum developers." Highlights of the conversation include: How to get started exploring quantum in your organization. Whether widespread access to quantum computers is realistic in the near-term. How colleges are responding to the demand for quantum skills.  The different roles preparing for the quantum future. Why policymakers should be part of the learning cohort.  Plus, co-hosts Kate Cox and Siobhan Fagan talk with Bradley about his quantum computing pitch for an 8-year-old, why IBM is partnering with HBCUs on quantum education and quantum scientists' popular pet names. Listen in for more. Have a suggestion, comment or topic for a future episode? Drop us a line at editors@simplermedia.com.

Our latest episode truly probes the frontier of tech and innovation. We've spoken about quantum computing before on this show – now get ready for a much deeper dive.  Our guests – Richard Padbury from IBM Quantum and Sam Genway from Capgemini Quantum Lab – explain the differences between quantum and traditional computing,  and discuss the topic of quantum-centric supercomputing. Later, they explore topics including:  Quantum-centric R&D (QDDRD) and how it fits into the larger field of chemistry and material science research   How QDDRD accelerates that research, including examples of recent breakthroughs  The potential applications of these technologies in various fields  Challenges that researchers are facing This podcast is brought to you by Capgemini Invent. This episode is hosted by Kary Bheemaiah, lead by Afashan Sayyed and produced by Thomas O'Mahony. You can listen back to some of our previous Future Sight episodes:https://prod.ucwe.capgemini.com/insights/research-library/future-sight-sustainable-travel-is-beating-new-paths/ https://www.capgemini.com/insights/research-library/power-of-platforms/

A chemist by training, Jamie serves as Senior Research Manager of Quantum Applications and Software at IBM Quantum, which offers cloud access to advanced quantum computers capable of solving highly complex, highly interconnective, and dynamic problems.Learn about the superconducting qubits IBM Quantum uses to program quantum computers. (Need to back up a bit? Learn what a qubit is.)Jamie explains how a heavy hex architecture allows IBM to limit crosstalk between qubits to ensure coherence times long enough to complete practical calculations within hours, not years.IBM Quantum's Qiskit Runtime allows users to optimize workloads and efficiently execute them on quantum systems at scale. As you might expect, Jamie and her colleagues are already thinking hard about the intersection of quantum and AI. Learn about System Two, IBM's next-generation quantum system.Connect with Jamie on LinkedIn or Twitter.Congrats are in order for Stellar Question badge winner Dmitry z for asking How can I use environment variables in docker-compose?.

Inside Quantum Technology is delighted to support Black History Month with Chris Bishop's latest Quantum Tech Pod - an interview with Charles Robinson, Public Sector Leader IBM Quantum Computing & World Wide leader Quantum Safe Team. Charles is a veteran and a graduate of Howard University with over 30 years' experience in information technology, business development, engineering, and management in commercial, DOD and intelligence organizations. He has worked on all aspects of information and communications infrastructure. Charles was instrumental in the formation of the IBM-HBCU Quantum Center, enabling talented Black students to get involved in this exciting new technology. He currently leads IBM's Quantum Safe Team focused on securing the world's digital infrastructure for the era of quantum computing. Take a listen to this great conversation! @IBMQuantum IBMQuantumSafe #BlackHistoryMonth #HBCU #quantumsafe #PQC #quantumcomputing Inside Quantum Technology  

#ibm #quantumcomputing #quantummechanics #toctw #podcast Dr. Venkat Subramaniam is an experienced Leader in Artificial Intelligence and an IBM distinguished Quantum Computing ambassador, IBM Master Inventor with a demonstrated history of innovation and product creation. A strong researcher who has developed new products and published in top venues and been recognized as a master inventor. His focus has been on AI Reasoning and Quantum AI/ML & his vision is to set up Quantum Computing as a leading area of research in India. Dr. Venkat joined IBM Research India in 1998 where he currently leads a team of world-class researchers developing Neuro Symbolic AI and Quantum AI technologies. IBM Quantum leads the world in quantum computing. This nascent technology is widely expected to solve valuable problems that today's most powerful classical supercomputers cannot solve and never will. https://in.linkedin.com/in/lvsubramaniam https://mobile.twitter.com/folktechnology https://www.ibm.com/quantum

Last days in Iqaluit.  Back in Vancouver.   But more importantly this week we discover that nothing is real.  Or at least locally real.  We try to get to the bottom of this.  As well we deliver whale fat to our favourite bartender.  Special guest:  Olivia Lanes of IBM Quantum 

Title: Molecular and Subatomic Physics with David MazziottiDescription: Welcome to another episode of The New Quantum Era Podcast hosted by Kevin Rowney and Sebastian Hassinger. Today, they are joined by David Mazziotti, a physicist, and research team leader at the University of Chicago. He generously showed up with some deeply fascinating material for your consideration. Professor Mazziotti is a highly accomplished scholar, researcher, and mentor. This interview with David is a ringside seat on one of the most interesting recent research on molecular and subatomic physics that is now being explored by scholars using quantum computers. Today, David talks about how he got interested in quantum computing, his current findings and experiments, and his optimistic perspective about the possibility of breakthroughs in the near future of quantum.Key Takeaways:[6:13] David talks about his background.[11:32] David's first professor role was teaching quantum chemistry.[12:30] David speaks about the first time he used quantum computing hardware to perform experimentation, like simulation of quantum chemistry.[14:42] David Talks about his first foray into quantum computing.[16:45] What measurements is David doing inside the quantum computer to register that data on the polytopes?[18:58] Where did the inspiration come from for using limited hardware with limited capabilities (from a gate and noise perspective) in a really creative way to do really sophisticated simulations? [24:19] What are the major engineering or commercial applications?[28:43] David talks about his collaboration on a couple of papers on a generalizable system for free a simulation of open quantum systems.[31:24] Is there something that can be done on a standard quantum computer to simulate open systems? Is new hardware needed?[33:40] Is it possible for David to speculate if there will be brand new algorithmic breakthroughs for clever classical optimization problems? [35:10] David shares the publication of  a new paper on communications physics.[37:15] Can we make progress with noisy quantum computers?[40:39] David speaks about how he and his team ended up getting a spectrumscoptic noise “fingerprint” of each of their IBM Quantum computers on which they were doing an experiment. What does derive from the spectrum of the QC?[42:28] Is David  programming the pulses or is he using gates?[43:42] Is the fingerprint like a qubit? [45:22] David believes that a more holistic perspective on the noise could be the way to control noise better.[48:30] David's work has been on superconducting hardware, is it applicable to  trapped ions or neutral atoms or Rydberg atom systems that are coming out in the next year? And hopefully to photonic systems down the road? [49:46] Is David's work on superconducting hardware applicable to quantum sensing devices?[52:41] David shares his excitement about the evolution of quantum computing in the next couple of years.[56:19] For listeners who want to explore  some of the code and are qiskit literate? Is any of the stuff that David has  mentioned available open source style? [59:05] David speaks of his work on reduced density matrix theory. [1:00:26] If David could wish for any new hardware in the next year, what would he want? [1:04:53] Sebastian  and Kevin share their insights from a mind blowing conversation with David Mazziotti.Mentioned in this episode:Visit The New Quantum Era PodcastLearn more about David Mazziotti's work at his group's website and check out their github repoTweetables and Quotes:“So a polytope is basically a convex object with a bunch of flat sides and on one side, there's this polytope that's forbidden, on the other side, one that's allowed, and then there's this hyperplane in the middle called the Borland-Dennis Inequality, and you just don't want the points to go through.”  — David Mazziotti“In superconductivity, electrons form Cooper pairs, and these Cooper pairs of electrons all end up in a global quantum state and that allows you to send electricity into the superconductor, and actually have a current then come out from a macroscopic distance away, but not have any loss due to friction because you're really sending an electron into a global quantum state that's entangled with the electron that's coming out on the other side at the same time.”  — David Mazziotti“It's only after 2000, that people were able to realize excitation condensates by pumping them with light with radiation. And then in the last few years, since 2017, they've been able to prepare them in the laboratory, even without pumping them with radiation, either using strong magnetic fields or, actually, in some cases, not using any magnetic fields at all. But using Creative Chemistry.” — David Mazziotti“The quantum computer  gives one an ability  to look at some things that before were really more just a theoretical dream” — David Mazziotti“Can we make progress with noisy quantum computers? I think that's one of the central questions, because ultimately, quantum computers are always going to be somewhat noisy to some extent.” — David Mazziotti

Over two days, The Six Five On the Road hosts Daniel Newman and Patrick Moorhead had the opportunity to sit down with key executives across IBM to talk about their full-stack infrastructure and the future of computing. In this interview segment, Daniel and Patrick were joined by Jay Gambetta, IBM Fellow & VP Quantum Computing at IBM Research, to talk about how Quantum computing is shaping the future of IT. Disclaimer: The Six Five Webcast is for information and entertainment purposes only. Over the course of this webcast, we may talk about companies that are publicly traded and we may even reference that fact and their equity share price, but please do not take anything that we say as a recommendation about what you should do with your investment dollars. We are not investment advisors and we do not ask that you treat us as such.

Fastest AI supercomputer according to Google, price hikes by TSMC and Samsung, visualization of a black hole in our own galaxy, and IBM's ambitious and well-executed quantum computing roadmap. [audio mp3="http://orionx.net/wp-content/uploads/2022/05/024@HPCpodcas_Fastest-AI-Supercompuer_Chip-Prices_Black-Hole_IBM-Quantum_20220518.mp3"][/audio] The post @HPCpodcast-24: Fastest AI Supercomputer, Chips Prices, IBM Quantum appeared first on OrionX.net.

Chris Bishop's Quantum Tech Pod with Joe Broz is live! He was a founding Director of the QED-C and is now VP, Quantum Growth and Market Development at IBM. His focus is large deployments where IBM will establish strategic partnerships with companies, government organizations and academic institutions. When I asked him to look into his crystal ball and predict where quantum might be in 10 years, he demurred and shared the apocryphal quote from William Gibson: “The future is already here, it's just not evenly distributed.” Check out the conversation by clicking sound link below. Joseph S. Broz - Vice President, Quantum Growth and Markets, Thomas J. Watson Research Center, IBM will deliver the Diamond Sponsor Keynote to IQT San Diego on May 10 at 8:55 IBM is Diamond Sponsor of IQT-San Diego "The World's Quantum Enterprise" event May 10-12, 2022  

Leading global tech analysts Patrick Moorhead (Moor Insights & Strategy) and Daniel Newman (Futurum Research) are front and center on The Six Five analyzing the tech industry's biggest news each and every week and also conducting interviews with tech industry "insiders" on a regular basis.    The Six Five represents six (6) handpicked topics that will be covered for five (5) minutes each.    Welcome to this week's edition of “The 6-5.” I'm Patrick Moorhead with Moor Insights & Strategy, co-host, joined by Daniel Newman with Futurum Research. On this week's show we will be talking:   Intel Arc Discrete Graphics Launch https://futurumresearch.com/research-notes/intel-launches-its-arc-a-series-gpus-for-notebooks/ https://www.linkedin.com/posts/patmoorhead_gpus-mwc2022-ai-activity-6915003355220094976-VViP?utm_source=linkedin_share&utm_medium=member_desktop_web   Oracle HeatWave https://www.youtube.com/watch?app=desktop&v=a0m_M2yXOiM&feature=youtu.be https://www.forbes.com/sites/moorinsights/2022/03/29/heatwave-ml-real-time-intelligence-comes-to-mysql/   Intel Acquires Granulate https://www.techtarget.com/searchdatacenter/news/252515403/Intel-acquires-Granulate-to-boost-cloud-workload-speeds https://twitter.com/PatrickMoorhead/status/1509527271425683456?s=20&t=wrc3LOPl60203o2M_b6K7A https://www.intel.com/content/www/us/en/newsroom/news/corporate-news-march-2022.html?   Micron Earnings https://twitter.com/danielnewmanUV/status/1509134995700711427?s=20&t=pVaCdfjWKvZUiiAVOh9WIw https://twitter.com/danielnewmanUV/status/1508935516183580674?s=20&t=pVaCdfjWKvZUiiAVOh9WIw   Groq Day https://twitter.com/danielnewmanUV/status/1509604300628107265?s=20&t=pVaCdfjWKvZUiiAVOh9WIw https://twitter.com/PatrickMoorhead/status/1509595937827704847?s=20&t=-I5tbgTAPix8UOWgP-u5WA Note: Daniel Newman and Patrick Morhead are Groq investors. In this episode, the Six Five issues the following corrections from the segment covering Groq Day.  1. No customers participated as speakers or panelists at Groq day. 2. TPG is not an investor in Groq.  3. Dr. Ford Tamer joined Groq's Board of Directors from Inphi not Xilinx. IBM Quantum HSBC News https://newsroom.ibm.com/2022-03-29-HSBC-Working-with-IBM-to-Accelerate-Quantum-Computing-Readiness   Disclaimer: This show is for information and entertainment purposes only. While we will discuss publicly traded companies on this show. The contents of this show should not be taken as investment advice.

Vandaag geen gast aan tafel maar met het core team Karel, Tonny en Barend. Wij kijken terug op het afgelopen jaar en vertellen hoe we zijn begonnen.  Shownotes:Karel schuift ook bij Tech Data aan voor een podcast: https://www.tdcloud.nl/podcasts/ The IBM Quantum State of the Union: https://www.youtube.com/watch?v=-qBrLqvESNM IBM Quantum Roadmap: https://research.ibm.com/blog/ibm-quantum-roadmap Overzicht IBM Quantum systemen in de cloud: https://quantum-computing.ibm.com/services?services=systems Tweakers.net Quantum artikel: https://tweakers.net/nieuws/189470/ibm-neemt-eagle-quantumprocessor-met-127-qubits-in-december-in-gebruik.html Starten met IBM Quantum:- https://quantum-computing.ibm.com- https://qiskit.org Op- en aanmerkingen kunnen gestuurd worden naar: ofjestoptdestekkererin@nl.ibm.com

Tonya Hall talks to Dr. Zaira Nazario, technical lead for quantum theory at IBM Quantum, about future real-life applications outside the lab. Learn more about your ad choices. Visit megaphone.fm/adchoices

Tonya Hall interviews Dr. Zaira Nazario, technical lead for quantum theory and applications at IBM Quantum, about the nature and challenges of quantum circuits. Learn more about your ad choices. Visit megaphone.fm/adchoices

Inside Quantum Technology podcast host Chris Bishop speaks to Denise Ruffner, the VP for Business Development of IonQ, Inc., which is the first pure-play quantum company to go public. She is also the President of the Women in Quantum Chapter of OneQuantum, a quantum network dedicated to promoting and creating a community for the women in the quantum industry. Denise reviewed her "quantum journey" by explaining she worked at IBM for 18 years where she was an early employee of the quantum team. Her responsibilities included the startup program, the ambassador program and she gave presentations around the world about IBM Quantum. At that time, Denise wanted to try something more entrepreneurial and first went to quantum software and then after a year to IonQ, which is a "different modality" than IBM. Basics of IonQ solution. . IonQ makes a quantum compouter modality trapped Ions. She explained that the 'Trapped Ion solution runs at room temperature and reduces the size of device.  IonQ has an aggressive road map, Denice emphasized. She also discussed IonQ's application team and said she is "very impressed with the applications team" and commented "They move projects along very quickly". Denise also shared that she grew up in Southern California and her mother is a physicist. IQT hopes that our conversation with Denise Ruffner will make this an interesting, informative and worthwhile talk for you.

Please join us for a conversation with Kevin Roche, an advisory engineer & scientist at IBM Research Almaden. He specializes in materials for magnetoelectronics, spintronics, and is an IBM Quantum Ambassador.  Kevin is an expert in ultra-high-vacuum systems, thin-film deposition, data acquisition and laboratory automation.  In addition to his career in tech, he enjoys speaking to the public about science and technology, as well as, making interesting projects that combine technology with his love of the arts and costuming.  Notable projects include the "Tiki Dalek" and the ThinBot bartending robot. Bartending Robots & Spintronicsibm.com/blogs/research/2015/04/profile-of-an-ibm-scientist-kevin-rocheI'm a Maker and Costume Designer, Here's Why I'm Learning Quantum Computingmedium.com/qiskit/im-a-maker-and-costume-designer-here-s-why-i-m-learning-quantum-computing-1972a51b43f7Your Raspberry Pi running code on the IBM Quantum quantum processors via Python 3 github.com/KPRoche/quantum-raspberry-tieWearable light project - animated beltgithub.com/KPRoche/BLE-Beetle-PixelsIBM Quantum Composeribm.com/quantum-computing/tools

Brandaktuell: IBM kündigt für den 15. Juni den Quantum Launch an. Mark Mattingley-Scott, IBM Quantum, Ambassador Leader EMEA & AP at IBM verrät einige interessante Details des Launches. Außerdem unterhalten sich Dr. ir Johannes Drooghaag, Director EU, Global Cybersecurity Association und Martin Runde, Marketing Manager IBM Security DACH über das Thema Zero Trust und geben hierbei einen Ausblick auf den EMEA Security Summit 2021 am 15.6. Diversität ist ein immer wichtiger werdendes Thema in der heutigen Zeit. Auch IBM hat sich diesem Thema angenommen und ist dieses Jahr der Host der Konferenz „Chefsache“ am 14.6. Agnes Heftberger, Vice President, Sales DACH IBM und Julia Sperling-Magro, Partner at McKinsey & Company geben bereits heute interessante Einblicke in die Konferenz.

On May 6th, 1981, at the MIT Endicott House, a group of computer scientists gathered together with elite physicists to make the case that quantum phenomena could be used for computation. Here, ideas that would influence the next four decades of quantum computing research and development first took root, as a new wave of interdisciplinarians asked themselves: what lies beyond the 0's and 1's? In other words, if classical computing represented binary calculations, how could quantum computing represent calculations using the math of the universe? Sebastian Hassinger (IBM Quantum Research and Ecosystem Partnerships), and Abraham Asfaw (Global Lead, Quantum Education and Open Science at IBM Quantum) join host Matt Hooper in conversation with historian Susannah Glickman to learn about the forces and figures that transformed quantum information theory from a literal back-of-the-napkin idea into the next wave of computing. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

When we set out to produce this series, there was one name we heard more frequently than any other: Charlie Bennett. Charlie is one of the founding fathers of quantum information theory; a physicist, an information theorist, and an IBM Fellow; the photographer behind the famous picture captured at the Endicott House conference 40 years ago; and a visionary without whom we would be staring down a very different quantum future. Sebastian, Abe and Matt sit down for a conversation with Charlie about the rise of reversible computing, the limits of anthropocentrism in quantum information science, and the importance of broadening peoples' intuition in order to bring about seismic change. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

Real quantum computers are here, but they are small and noisy, and not fully mature. Be that as it may Professor Prineha Narang of Harvard is finding ways to use IBM's open-source quantum platforms to do useful things like simulation and probing the limits of what is possible right now. Additionally, she is pioneering ‘Quantum Entanglement as a Service' via her startup, Aliro, a software company whose goal is to democratize access to quantum computing. Join Sebastian and Matt as they chat with Prineha about her own quantum journey, the power and problems of quantum noise, and the development of both her class and business. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

Sometimes, you just want to experience a very large dilution refrigerator in action. And that's exactly what this episode delivers! Join Sebastian, Abe and Matt as they chat with Pat Gumann (Manager of Quantum Processor and System Integration, Quantum Computing at IBM) and Jay Gambetta (IBM Fellow and Vice President, Quantum Computing at IBM), about how the quantum field became a quantum industry, and the technical challenges of using a superconducting platform to build qubits. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

We've often referenced the cross-disciplinary nature of the quantum computing field. Nowhere is that clearer than in the stories of three of our guests, each of whom are professors at esteemed universities, and each of whom are propelling the field forward. Margaret Martonosi, the head of the Directorate for Computer and Information Science and Engineering at the National Science Foundation and a Professor of Computer Science at Princeton University; Tina Brower-Thomas, Principal Investigator for Integrated Quantum Materials and Director for the Integration for the NSF at Howard University; and Ken Brown, Professor in the Department of Electrical and Computer Engineering. Join Sebastian, Abe and Matt as they sit down with each of these QC leaders to discuss the downturn in quantum funding in the early 2000's, the trapped ion vs superconducting debate, and the opportunity to build a more inclusive workforce in the 2020's. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

In the mid-90's, there was no quantum computing field. There was excitement, sure, but nearly a decade and a half after the conference at MIT Endicott House, the possibilities of marrying physics and computer science had yet to yield a significant technological breakthrough. That is, until Peter Shor discovered a way to break RSA, the most famous public-key cryptosystem. Shor's Algorithm was more than a call to action for a generation of scientists, it was a glimpse of how much faster a quantum machine would be able to crack even the most complex encryption scheme. Sebastian, Abe and Matt sit down with Peter Shor to discuss the discovery of the algorithm, the extraordinary response his work received twenty-five years ago, and what's next for ensuing generations of scientists and information theorists. Credits: Co-created and co-hosted by Sebastian Hassinger and Abraham Asfaw. Produced, written, co-hosted and edited by Matt Hooper. Special thanks to the entire IBM Quantum team.

Das Livestudio packt einmal mehr brandaktuelle Themen an. Der Schwerpunkt liegt diesmal auf dem Thema #Banking, und zwar konkret auf dem aktuellen Trend des Instant Payment. Die Echtzeit-Kommunikation zwischen Menschen via WhatsApp und anderen Kommunikationsdiensten verändert die Nutzergewohnheiten rasant – das betrifft auch den Zahlungsverkehr. Banken wollen zwar #InstantPayment anbieten, verfügen aber oft nicht über die notwendigen Voraussetzungen wie 24/7-Verfügbarkeit, Managed Services und eine geeignete Infrastruktur, um die von den Clearing-Instanzen wie die EZB geforderte Abwicklung innerhalb von 10 Sekunden zu ermöglichen. Im IBM Livestudio stellen die Gäste Sadri Syla, General Manager GEVA Business Solutions und Ralf Heineke, Partner Executive Cloud Channel Sales DACH bei IBM Deutschland eine spannende Lösung für diese Herausforderung vor. In der #Presseschau kommentiert Moderator Stefan Pfeifer aktuelle Medienberichte über Technologiethemen und ordnet sie ein. Ganz aktuell: IBM Research kündigte gerade eine Software Roadmap zu #Quantum-Computing an. Mark Mattingley Scott, IBM Quantum, Ambassador Leader EMEA & AP at IBM gibt im Gespräch einige spannende Einblicke in die Details der Ankündigung. Während der #Eventvorschau stellen Isabel Knaust, Technical Sales Manager, IBM Public Cloud und Marius Merkel, Manager IBM Technology Enterprise & Brand Sales for Strategic Accounts D-A-CH das Event #LabComesToYou vor, das am 25. Februar stattfindet. Dabei tauchen IBM Experten virtuell mit Anwendern ganz tief in technische Themen ein, die Sie aktuell beschäftigen. Unter anderem geht es dabei um Workloads in der Public Cloud und die Rolle der Integration für Innovationen.

In this episode, I chat with Pratiti Deb, a Graduate Student in the Department of Physics at the University of Chicago, working in the group of Prof. David Awschalom. Before coming to UChicago, Pratiti completed her undergrad at Cornell University and has also been working as a Quantum Developer Intern at IBM Quantum. Pratiti has been actively working on the experimental implementation of qubits through spins in semiconductor defects and chemically synthesized molecular systems. We indulge in a magnificent conversation on quantum computing, her own research interests, her experience as an ethnic immigrant; how bias, discrimination, and racism on basis of gender, caste, and race pervade myriad fields; the false narrative of genius in science and how in reality it's truly collaborative, affirmative action as a tool of empowerment and making science a more diverse and inclusive space for minorities for all hues, and many more things!

Denise Ruffner recently became VP Of Business Development for IonQ. She was previously the Chief Business Officer for Cambridge Quantum Computing. Prior to that she was with IBM Quantum where she led the IBM Q Startup Program and IBM's global ambassador program and in charge of the quantum team's sales strategies. Denise is also a Senior Advisor for the OneQuantum startup network and she is the founder of Women in Quantum.    1. What is Women in Quantum and why the need for such an organization?   2. What response has WIQ received from the quantum ecosystem?   3.What is the importance and role of the community in quantum technology?   4. Can you tell us more about the Women in Quantum summit?   5. I hear that you even have a 15-year-old speaker for the Summit?   6. What do you plan for the next WIQ?   7. What are you most excited by in quantum today, and what do you want women considering a career in quantum to know?

Quanten sind sehr klein, haben aber das Potenzial, sehr große Herausforderungen zu lösen. Heike Riel, IBM Fellow, Head of Science & Technology und Lead des IBM Research Quantum Europe at IBM Research, nimmt die Zuschauer mit auf eine Reise ins Quantenuniversum und erläutert, dass wir an der Schwelle zur neuen Ära des „Quantum Advantage“ stehen. Dies bedeutet, dass zunehmend zukünftige potenzielle Anwendungsmöglichkeiten in den Vordergrund rücken. Es gibt viele Anwendungsfelder von #Quantum-Computing in Unternehmen, wie zum Beispiel komplexe mathematische Berechnungen in der Pharma-, Material-, Finanz- oder chemischen Industrie. Deshalb sollten sich Unternehmen auch bereits jetzt perspektivisch mit dieser disruptiven Technologie beschäftigen. Und das Beste: Bereits jetzt können #Forscher*innen und Entwickler*innen in der IBM Cloud auf Quantum-Computing zugreifen und daran mitarbeiten. IBM arbeitet darüber hinaus im IBM #Q-Netzwerk gemeinsam mit Partnern aus Wissenschaft und Industrie an der Zukunft des Quantum-Computings – beispielsweise auch mit dem Fraunhofer Institut. Die Quantum-Computing-Expertin erläutert interessante Details zu diesen Partnerschaften und zur IBM Roadmap mit konkreten Milestones auf dem Weg in die Quanten-Zukunft.

In May this year, IBM hosted its fourth annual Quantum Challenge. The four-day event consisted of four exercises designed to help classic software developers, researchers, and even business users better understand how quantum programming works. Participants were able to use the 18 IBM Quantum systems on the IBM Cloud to complete the exercises and according to IBM during the event the total use of these system "exceeded 1 billion circuits a day." Over 1,745 people from 45 countries participated in the challenge and 574 people actually completed all four exercises. In this episode of Dynamic Developer, Bill Detwiler talks with one of the IBM team members who helped put the challenge together. In our conversation, Abe Asfaw, Global Lead, Quantum Education and Open Science at IBM, explain the 2020 Quantum Challenge and the challenges developers face when trying to write programs for quantum computers. You can listen to episodes of Dynamic Developer on a variety of podcast platforms, including: Spotify: https://tek.io/34Vo2mT Stitcher: https://tek.io/2KkwjHG Apple Podcasts: https://tek.io/2xQUSt5 Google Play: https://tek.io/3btMluL Follow Bill Detwiler: https://twitter.com/billdetwiler Watch more TechRepublic videos: https://www.youtube.com/techrepublic TechRepublic on Twitter: https://twitter.com/TechRepublic/ TechRepublic on Facebook: https://www.facebook.com/TechRepublic/ TechRepublic on Instagram: https://www.instagram.com/techrepublic/ TechRepublic on LinkedIn: https://www.linkedin.com/company/techrepublic/ Learn more about your ad choices. Visit megaphone.fm/adchoices

Summary Abraham Asfaw of IBM talks about the current state of their quantum computing project, and how it has moved out of the lab and into industry and education. Details Who he is, what he does. Quick overview of quantum computing and Qiskit. Book on quantum computing for undergraduates. State of quantum in industry, optimization problems, quantum advantage. Industrial examples, financial, chemistry. Demand for developers. Current quantum volume – doubling every year. Why a million qubits by themselves would not be enough. The meaning of quantum advantage/supremacy. Combing classical and quantum computing. How many quantum computers IBM has. Where to get the free IBM book. Other useful resources. Full show notes

Summary Jay Gambetta of IBM talks about their new Quantum Information Science Kit which makes it easy to running chemistry, artificial intelligence and optimization applications on quantum computers. Details Who he is, what he does, quick overview of IBM Quantum Experience. Qiskit, Terra and Aqua, compilers, providers, simulators, experiment with chemistry, AI and optimization. Integration with existing software libraries. Reasons why quantum is better for some types of problems. Why use QISKIT instead of running on quantum hardware. IMB is Q Network. Start of the commercial quantum computing, who is involved, hard to define commercial. Can small companies get involved. IBM's research in the quantum world. Coherence and reducing error rates to allow algorithms to run longer. Where we might be in a few years, error. How to get started with quantum. Full show notes

Summary Jay Gambetta manager for quantum theory and computing at IBM talks to me about the IBM Quantum Experience. Details Who he is, what he does. Why is quantum computing different, entanglement and interference. How do quantum computers look, cryogenic refrigerators, close to absolute zero. IBM's history in quantum computing. What is the quantum experience, how a program goes from the cloud app to the supercooled quantum computer; free and open access to 5 and 16 qbit computers; how to write a program (called a circuit); examples of circuits; is 16 qbits enough for real problems. When can we break encryption with quantum computing, why error correction is so important. Popularity of quantum experience, how soon will a submitted circuit run; using python to submit circuits; what is the "Hello World" of quantum computing; how to write a python program for the quantum experience. Community involvement. Future of quantum, becoming a technology, what about the temperature requirements. Chaotic and exciting times coming.