I appreciate the contribution to thought IBM provides. However, if I could recommend something to study it would be material science and electrical engineering. Qubits are still pretty new (e.g. the transmon is almost replaced); makes sense to pursue this before correcting their errors.
Congratulations on your first episode! Enjoyed and will be following and trying to learn more. For me with a background in “classical computing” specifically testing integrated circuits. I want to understand how you prove a qbit is not faulty. For a traditional gate we have stuck at and delay faults. What kind of faults can a qbit have and how do you distinguish a working wbit from a faulty one.
Is the direction that Katie speaks of, unique to IBM or is it an issue across the board of all the QC development companies? Just thinking that collaborations across companies and disciplines would make sense as a means of building a nationwide front_line?
📝 Summary of Key Points: 📌 Katie Pelato, VP of IBM Quantum, discussed the exciting developments in Quantum Computing expected in 2024, focusing on increased system use for scientific discovery and the advancement of algorithms and capabilities. 🧐 The launch of a new Fleet of 100 Cubit processors by IBM signifies a significant milestone, enabling the exploration of more complex quantum computations and pushing the boundaries of the technology. 💡 Additional Insights and Observations: 💬 Katie emphasized the importance of practical use and building of quantum systems, highlighting the need for error correction, error mitigation, and the integration of classical and quantum technologies. 📊 The AI transpilation service and the new IBM Quantum learning platform were mentioned as key developments that will enhance the user experience and drive advancements in quantum computing education and software. 📣 Concluding Remarks: The conversation with Katie Pelato provided valuable insights into the future of Quantum Computing in 2024, focusing on practical applications, system advancements, and the integration of classical and quantum technologies. The upcoming developments in algorithms, error correction, and software tools are poised to shape the quantum computing landscape significantly. Exciting times lie ahead for the quantum community as they explore new possibilities and collaborations in this rapidly evolving field. Generated using TalkBud
Can somebody tell this ladies about "something GONE in Quantum Advantage"? or you wanna see which dayum thing I talk about? Yes Sabine video about "Bad News for Quantum Computing: Another Advantage Gone", review it please ladies~😂🙏🏼
@@magicmeatball4013I don't think it is a matter of opinion on this specific topic. There is a fact. In June, IBM published a paper about era of utility claiming that 127 spins TFIM (transverse field Ising model) was simulated on quantum computer better than on classical.ma few months later, it was shown that this simulation can be done using Tensor networks on a Mac M1 with better precision. In this crosstalk video, it was mentioned that utility is there, but without the caveat of later being disproved. I am very excited about quantum and I believe we will get there and beyond all imaginable advantages. With that, I am not in a rush to misrepresent the current state of affairs.
"John Watrous is an unsung hero." John Watrous is the best thing to ever happen to IBM. Period.
I'd love to hear about quantum news around the world. It would be really interesting to watch. Thanks for your work!
Expecting Dr. John Watrous in the next episode. Can't wait to see his new lessons 🙂
So inspiring and exciting to watch this conversation! I need to go for a run to calm down 😃
Quality content. In between technical stuff and industry/market informations.
Great first episode! looking forward for more
I would love to see people who are working on the hardware !
I appreciate the contribution to thought IBM provides. However, if I could recommend something to study it would be material science and electrical engineering. Qubits are still pretty new (e.g. the transmon is almost replaced); makes sense to pursue this before correcting their errors.
Thank you so much for sharing this with ❤ from SeoulNatU
Great interview!
Congratulations on your first episode! Enjoyed and will be following and trying to learn more.
For me with a background in “classical computing” specifically testing integrated circuits. I want to understand how you prove a qbit is not faulty. For a traditional gate we have stuck at and delay faults. What kind of faults can a qbit have and how do you distinguish a working wbit from a faulty one.
Great channel! I like this format of video where you are having a natural/casual conversation about quantum computing. Consider doing a podcast ❤
Thanks! keep it up! very interesting as usual 👍🏻✌🏻✌🏻
Is the direction that Katie speaks of, unique to IBM or is it an issue across the board of all the QC development companies? Just thinking that collaborations across companies and disciplines would make sense as a means of building a nationwide front_line?
very good questions!
📝 Summary of Key Points:
📌 Katie Pelato, VP of IBM Quantum, discussed the exciting developments in Quantum Computing expected in 2024, focusing on increased system use for scientific discovery and the advancement of algorithms and capabilities.
🧐 The launch of a new Fleet of 100 Cubit processors by IBM signifies a significant milestone, enabling the exploration of more complex quantum computations and pushing the boundaries of the technology.
💡 Additional Insights and Observations:
💬 Katie emphasized the importance of practical use and building of quantum systems, highlighting the need for error correction, error mitigation, and the integration of classical and quantum technologies.
📊 The AI transpilation service and the new IBM Quantum learning platform were mentioned as key developments that will enhance the user experience and drive advancements in quantum computing education and software.
📣 Concluding Remarks:
The conversation with Katie Pelato provided valuable insights into the future of Quantum Computing in 2024, focusing on practical applications, system advancements, and the integration of classical and quantum technologies. The upcoming developments in algorithms, error correction, and software tools are poised to shape the quantum computing landscape significantly. Exciting times lie ahead for the quantum community as they explore new possibilities and collaborations in this rapidly evolving field.
Generated using TalkBud
I wanna know more about the quantum world 😢
Self study isn't the way
Get a degree in mathematical physics
I want to join qiskit student program how can I join
you're a great company,hi guys,asset you have to performance, thanks,bye bye 🎉
Great
Bring Dr. Zlatko
Can somebody tell this ladies about "something GONE in Quantum Advantage"? or you wanna see which dayum thing I talk about? Yes Sabine video about "Bad News for Quantum Computing: Another Advantage Gone", review it please ladies~😂🙏🏼
What method do you use to decide which video on UA-cam will dictate your opinion?
@@magicmeatball4013I don't think it is a matter of opinion on this specific topic. There is a fact. In June, IBM published a paper about era of utility claiming that 127 spins TFIM (transverse field Ising model) was simulated on quantum computer better than on classical.ma few months later, it was shown that this simulation can be done using Tensor networks on a Mac M1 with better precision. In this crosstalk video, it was mentioned that utility is there, but without the caveat of later being disproved.
I am very excited about quantum and I believe we will get there and beyond all imaginable advantages. With that, I am not in a rush to misrepresent the current state of affairs.
That whole video (and title) is pure clickbait so no we will not be doing that
@@livlanes period.