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Saying a brand new season of Microsoft Quantum Innovator Sequence Occasions
Get the within, first-hand account of the Microsoft technique to scaled quantum computing. On this collection, you’ll hear immediately from the Microsoft Azure Quantum scientists and leaders in regards to the path to quantum at scale and how one can become involved at present.
Why attend the subsequent occasion?
- Be among the many first to study latest developments.
- Get impressed to drive quantum innovation in your group.
- Uncover how quantum will rework numerous industries within the coming years.
Episode 1 | October 10: How will you put together for the long run quantum workforce?
It is going to take the world’s collective genius to understand the complete promise of quantum computing. With rising personal, authorities, and educational funding in quantum analysis, now could be the proper time for innovators and builders to get forward of the curve and domesticate their quantum computing information and expertise. Be a part of this webinar to learn the way Microsoft can assist you turn out to be quantum-ready with world-class programming tutorials and a broad number of studying supplies and instruments out there by Azure Quantum.
Audio system:
Dr. Wim van Dam, Principal Researcher, Superior Quantum Growth, Microsoft
Wim van Dam is a Principal Researcher within the Superior Quantum Growth group at Microsoft. His analysis focuses on quantum computation and quantum communication and his essential curiosity is the event of recent quantum algorithms that ship a big acceleration when put next with conventional, classical algorithms. Earlier than becoming a member of Microsoft, Dr. van Dam was Head of Quantum Algorithms at QC Ware and a professor within the Departments of Laptop Science and Physics at College of California, Santa Barbara.
Mariia Mykhailova, Principal Quantum Software program Engineer, Superior Quantum Growth, Microsoft
Mariia Mykhailova is a Principal Software program Engineer within the Superior Quantum Growth group at Microsoft. She works on growing software program for fault-tolerant quantum computation. Mariia can also be a part-time lecturer at Northeastern College, instructing Introduction to Quantum Computing since 2020, and the creator of O’Reilly ebook, “Q# Pocket Information”.
Episode 2 | Nov 28: How can Azure Quantum Components speed up scientific discovery at present and sooner or later?
Catalyzed by a brand new technology of AI, the world’s most superior AI fashions are powering breakthroughs in chemistry and serving to to usher in a brand new period of scientific discovery that can rework society. Even larger breakthroughs will include quantum supercomputing. Be a part of this webinar to learn the way Microsoft is accelerating chemistry and supplies science with Azure Quantum Components and the way business innovators are reworking their analysis and growth with quantum computing at present.
In regards to the speaker:
Dr. Nathan Baker, Head of Partnerships for Chemistry and Supplies, Azure Quantum, Microsoft
Nathan Baker is the Head of Partnerships for Chemistry and Supplies, Azure Quantum at Microsoft. Beforehand, Nathan was a Laboratory Fellow within the Bodily and Computational Sciences Directorate at Pacific Northwest Nationwide Laboratory (PNNL) and a college member at Washington College in St. Louis with roles that included Affiliate Professor (tenured) of Biochemistry and Molecular Biophysics and Director of the Biophysics PhD program. His analysis pursuits embody the event of recent algorithms in utilized arithmetic and information science to help purposes in chemistry, biology, and different domains. Dr. Baker is a member of the Washington State Academy of Sciences, Fellow of the American Affiliation for the Development of Science (AAAS), and a former Alfred P. Sloan Analysis Fellow.
Watch season one on-demand
Season one of the Quantum Innovator collection kicked off with our first occasion, “Have you ever began growing for sensible quantum benefit?” with Dr. Krysta Svore, distinguished engineer and VP of Quantum Software program, Microsoft. Throughout this webinar, you possibly can:
- Study what’s required for scalable quantum computing and what could be completed now to prepare for it.
- See the brand new Azure Quantum Useful resource Estimator—the primary end-to-end toolset that gives estimates for the variety of logical and bodily qubits in addition to runtime required to execute quantum purposes on post-NISQ, fault-tolerant quantum computer systems.
- Perceive the variety of qubits required for a quantum answer and the variations between qubit applied sciences.
- Discover how Microsoft is empowering innovators at present by co-designing instruments to optimize quantum options and to run small cases of algorithms on at present’s various and maturing quantum programs and put together for tomorrow’s scaled quantum computer systems.
- Take part in a dwell Q&A chat with the Azure Quantum group and be one of many first to listen to about latest developments.
In regards to the speaker:
Krysta Svore | Distinguished Engineer and Vice President of Superior Quantum Growth, Quantum at Microsoft
Dr. Svore has printed over 70 refereed articles and filed over 30 patents. She is a Fellow of the American Affiliation for the Development of Science. She gained the 2010 Yahoo! Studying to Rank Problem with a group of colleagues, acquired an ACM Better of 2013 Notable Article award, and was acknowledged as considered one of Enterprise Insider’s Most Highly effective Feminine Engineers of 2018. A Kavli Fellow of the Nationwide Academy of Sciences, she additionally serves as an advisor to the Nationwide Quantum Initiative, the Superior Scientific Computing Advisory Committee of the Division of Vitality, and the ISAT Committee of DARPA, along with quite a few different quantum facilities and initiatives globally.
Microsoft Quantum Innovator Sequence: Why and what’s the way forward for the topological qubit?
In our second episode from the primary season, we centered on why Microsoft determined to design its quantum machine with topological qubits—an strategy that’s each more difficult and extra promising than others—and what’s subsequent for Microsoft’s {hardware} ambitions. This episode shares extra about Microsoft’s quantum {hardware} journey, particularly concerning Microsoft’s physics breakthrough outlined in Dr. Nayak’s paper, and also will give attention to the physics behind the topological qubit. Be a part of our speaker Chetan Nayak, Technical Fellow and and VP of Quantum {Hardware} and Techniques Engineering, Microsoft to:
- Find out about topological phases in physics and the way they’re utilized to quantum computing.
- Discover how topological properties create a degree of safety that may, in precept, assist a qubit retain quantum info regardless of what’s occurring within the setting round it.
- Perceive the position of the topological hole and the lately found Majorana zero modes, and the way collectively they impression a topological qubit’s stability, measurement, and velocity.
- Discover ways to study the uncooked information and evaluation from Microsoft’s {hardware} analysis on Azure Quantum.
- Use interactive Jupyter notebooks and discover what’s subsequent in engineering the world’s first topological qubit.
- Take part in a dwell Q&A chat with the Azure Quantum group and be one of many first to listen to about latest developments.
In regards to the speaker:
Chetan Nayak | Technical Fellow and VP of Quantum {Hardware} and Techniques Engineering, Microsoft
Dr. Nayak is a pioneer of the examine of quantum matter, together with topological and non-equilibrium phases. He holds a bachelor’s diploma from Harvard and a PhD in physics from Princeton. He was an assistant, affiliate, and full professor at UCLA, a visiting professor at Nihon College in Tokyo, and is a professor of physics at UCSB. Chetan was a trustee of the Aspen Heart for Physics and an editor of Annals of Physics. He’s a Fellow of the American Bodily Society and a recipient of an Alfred P. Sloan Basis Fellowship and a Nationwide Science Basis CAREER award. He has printed greater than 150 refereed articles with greater than 20,000 citations and has been granted greater than 20 patents.
Microsoft Quantum Innovator Sequence: What sort of issues can we resolve at present with quantum simulation?
Our third episode from season one, featured Matthias Troyer, Microsoft Technical Fellow, discussing what sort of issues we are able to resolve at present with quantum simulation. Learn the way years of Microsoft analysis reveal that the invention of recent chemical compounds, supplies, and medicines that can in the end assist resolve the world’s most difficult issues will vastly profit from quantum computing. Dr. Troyer will clarify what is occurring at present and the way chemical and supplies science innovators can get began on their quantum journey:
- Learn the way actual progress could be made at present by combining excessive efficiency computing (HPC), state-of-the-art machine studying, and quantum information to essentially rework our capability to mannequin and predict the result of chemical processes.
- Get real-world insights from co-innovation initiatives occurring proper now with main chemical and supplies science corporations world wide.
- Learn the way researchers in chemical and supplies fields can get began on their quantum journey at present.
- Take part in a dwell Q&A chat with the Azure Quantum group and be one of many first to listen to about latest developments.
In regards to the speaker:
Matthias Troyer | Technical Fellow and Company Vice President, Microsoft
Matthias Troyer is Technical Fellow and Company Vice President at Microsoft, engaged on the system structure of quantum computer systems and their purposes. After receiving his PhD in 1994 from ETH Zurich in Switzerland and spending time as a postdoc on the College of Tokyo he has been professor of Computational Physics at ETH Zurich till becoming a member of Microsoft in 2017. Matthias is a Fellow of the American Bodily Society and President of the Aspen Heart for Physics. He’s recipient of the Hamburg Prize for Theoretical Physics and the Rahman Prize for Computational Physics of the American Bodily Society “…for pioneering numerical work in lots of seemingly intractable areas of quantum…physics and for offering environment friendly subtle laptop codes to the neighborhood.”
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