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S7E4: Quantum Quartet: Insider Insights Toward Fault-Tolerant Systems

Science in Parallel

Release Date: 05/13/2026

S7E5: Celebrating Five Years of Science in Parallel show art S7E5: Celebrating Five Years of Science in Parallel

Science in Parallel

On July 15, 2021, Science in Parallel launched a six-episode season celebrating the 30th anniversary of the Department of Energy Computational Science Graduate Fellowship program. After five years, 45 episodes and 55 guests, we’re celebrating our coverage of computational collaboration and creativity, exploring research on energy, medicine, artificial intelligence, quantum science and more. You’ll meet:  Science in Parallel’s host : Senior Principal Scientist, GSK : Professor of Biomedical Engineering, Duke University : Chemist/Staff Scientist/Engineer, Lawrence Berkeley National...

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Quantum Quartet (Bonus): DOE CSGF Insights and Career Advice show art Quantum Quartet (Bonus): DOE CSGF Insights and Career Advice

Science in Parallel

Recently four alumni of the (DOE CSGF) met and discussed quantum science and quantum computing. They also shared how the DOE CSGF helped their careers and their advice for new fellows and other early career computational scientists. To celebrate the 35th anniversary of the DOE CSGF, we've included their answers here as a bonus episode. We hope their insights will help other researchers deepen their careers. You’ll meet: : Assistant Professor of Physics at the  : Senior Product Manager,  : Senior Member of Technical Staff,  : Senior Quantum Applications Architect,  ...

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S7E4: Quantum Quartet: Insider Insights Toward Fault-Tolerant Systems show art S7E4: Quantum Quartet: Insider Insights Toward Fault-Tolerant Systems

Science in Parallel

Quantum computing involves collaboration and interdisciplinarity, the meeting of minds from different perspectives to solve problems where their expertise overlaps. This episode does a version of that with audio, bringing together insider insights from four quantum researchers across industry, academia and the national labs. They discuss research areas including fundamental quantum mechanics, algorithms and calibration and the human and network connections that will be needed to build utility-scale quantum computers. All four guests are alumni of the  program, which supports this podcast....

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S7E3: Sam Stanwyck: Quantum Error Correction and Research Partnerships show art S7E3: Sam Stanwyck: Quantum Error Correction and Research Partnerships

Science in Parallel

NVIDIA is known for its AI work, and in quantum computing the company focuses on integrating quantum processors with classical processors to accelerate quantum computing. In this conversation NVIDIA's Sam Stanwyck talks about the challenge and importance of quantum error correction, the company's work on integrating quantum and classical hardware and the partnerships with startup companies and the national laboratories that propel this research forward. You'll meet: is the Director for Quantum Product at NVIDIA. He previously worked in quantum engineering at Rigetti Computing. He completed a...

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S7E2: Megan Ivory: Supporting the Quantum Workforce show art S7E2: Megan Ivory: Supporting the Quantum Workforce

Science in Parallel

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Jarrod McClean (Bonus): Parsing Logical Qubits show art Jarrod McClean (Bonus): Parsing Logical Qubits

Science in Parallel

Quantum computing comes with a new layer of concepts. Quantum bits are called qubits, but there's more. Physical qubits are often grouped to form logical qubits. In our recent conversation with Jarrod McClean, we discussed logical qubits. And we're sharing that discussion as a Science in Parallel short.

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S7E1: Jarrod McClean: Designing Quantum Algorithms show art S7E1: Jarrod McClean: Designing Quantum Algorithms

Science in Parallel

In our seventh season, we’re putting a spotlight on quantum computing, technology that could help speed up high-performance computing and artificial intelligence, shore up cybersecurity, study complex natural systems and much more. Jarrod McClean works on quantum algorithms and applications at the Google Quantum Artificial Intelligence laboratory, and this conversation links some of the ideas about AI for science from our last season to emerging quantum technology. Join us for a conversation about Jarrod's work at Google, where he thinks quantum computing could soon enter the computational...

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S6E10: Sunita Chandrasekaran: Computation in Translation show art S6E10: Sunita Chandrasekaran: Computation in Translation

Science in Parallel

Computational science requires translation, breaking ideas and principles into pieces that algorithms can parse. The work requires experts capable of zooming in on core computer science while also being able to step back and make sure that the big scientific questions are addressed. This guest, Sunita Chandrasekaran of the University of Delaware, moves seamlessly across these layers— from working with students and postdocs on fundamental software, collaborating with researchers on questions ranging from physics to art conservation and helping to shape AI policy in her state. In our...

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S6E9: Silvia Crivelli: Understanding Suicide Risk and Building a Foundation Model for Medicine show art S6E9: Silvia Crivelli: Understanding Suicide Risk and Building a Foundation Model for Medicine

Science in Parallel

Nearly a decade ago, the U.S Department of Veterans Affairs and the Department of Energy launched the MVP-CHAMPION initiative, not for sports, but as a data-driven strategy for improving healthcare outcomes for veterans and others. Silvia Crivelli of Lawrence Berkeley National Laboratory turned her skills in computational biology toward this new field, especially the problem of identifying veterans at high risk for suicide. As she and her colleagues worked on this challenge, large language models and the notion of foundation models emerged. Now her team is focused on a more comprehensive...

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S6E8:Youngsoo Choi: Building Reliable Foundation Models show art S6E8:Youngsoo Choi: Building Reliable Foundation Models

Science in Parallel

Foundation models-- LLMs or LLM-like tools-- are a compelling idea for advancing scientific discovery and democratizing computational science. But there's a big gap between these lofty ideas and the trustworthiness of current models. Youngsoo Choi of Lawrence Livermore National Laboratory and his colleagues are thinking about to how to close this chasm. They're engaging with questions such as: What are the essential characteristics that define a foundation model? And how do we make sure that scientists can rely on their results? In this conversation we discuss a position paper that Youngsoo...

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More Episodes

Quantum computing involves collaboration and interdisciplinarity, the meeting of minds from different perspectives to solve problems where their expertise overlaps. This episode does a version of that with audio, bringing together insider insights from four quantum researchers across industry, academia and the national labs. They discuss research areas including fundamental quantum mechanics, algorithms and calibration and the human and network connections that will be needed to build utility-scale quantum computers.

All four guests are alumni of the Department of Energy Computational Science Graduate Fellowship program, which supports this podcast.

You'll meet: