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  <title><![CDATA[Quantum Matters: Where Quantum Computing Gets Real]]></title>
  <description><![CDATA[Quantum computing has a “reputation.” To many, it sounds like pure science fiction: a mythical machine that can crack every code, outpace every supercomputer, and solve the world’s biggest problems overnight. But the truth is even more exciting. 

The Quantum Matters podcast reveals how quantum computing is already transforming the world around us — from automotive manufacturing to retail operations. Created by D-Wave, the world’s first commercial quantum company, each episode unpacks big ideas in plain English and shows where quantum is starting to make a difference today.

You’ll hear from researchers, academics, and industry leaders who are walking the talk of applying quantum solutions to their most computationally complex problems.

Quantum isn’t “someday.” It’s here. It’s scaling. It’s not afraid of its critics — and it’s creating opportunities faster than most people realize. Don’t get left behind. Follow D-Wave’s Quantum Matters to discover how this once-mythical technology is beginning to change lives, transform industries, and rewrite the future, today. ]]></description>
  <itunes:summary><![CDATA[Quantum computing has a “reputation.” To many, it sounds like pure science fiction: a mythical machine that can crack every code, outpace every supercomputer, and solve the world’s biggest problems overnight. But the truth is even more exciting. 

The Quantum Matters podcast reveals how quantum computing is already transforming the world around us — from automotive manufacturing to retail operations. Created by D-Wave, the world’s first commercial quantum company, each episode unpacks big ideas in plain English and shows where quantum is starting to make a difference today.

You’ll hear from researchers, academics, and industry leaders who are walking the talk of applying quantum solutions to their most computationally complex problems.

Quantum isn’t “someday.” It’s here. It’s scaling. It’s not afraid of its critics — and it’s creating opportunities faster than most people realize. Don’t get left behind. Follow D-Wave’s Quantum Matters to discover how this once-mythical technology is beginning to change lives, transform industries, and rewrite the future, today. ]]></itunes:summary>
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  <pubDate>Wed, 21 Jan 2026 14:57:15 -0500</pubDate>
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    <title><![CDATA[Quantum Matters: Where Quantum Computing Gets Real]]></title>
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  <title><![CDATA[Blockchain Meets Quantum]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">What if a blockchain network could run on quantum computers—and use a fraction of the energy?</span></p><p><br></p><p><span style="background-color: transparent;">On this episode of Quantum Matters, Postquant Labs co-founders Colton Dillion and Rick Karbach share how D-Wave's annealing quantum technology is integrated into the Quip Network, a quantum-classical blockchain network. They explain their “proof of useful work” model, where quantum and classical computers compete side by side to solve optimization problems as a way to validate transactions more efficiently. Early testing with D-Wave’s quantum processing unit suggests it can produce higher-quality solutions faster and with significantly lower energy use than comparable GPU-based approaches, while the classical compute decentralizes the network until quantum computers become more numerous.</span></p><p><br></p><p><span style="background-color: transparent;">Listen in to hear how this hybrid approach works in practice and why energy efficiency is quickly becoming one of the most important challenges in the future of blockchain systems.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More about D-Wave: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">D-Wave blockchain paper: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Quip Network: </span><a href="https://quip.network/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://quip.network/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Postquant Labs: </span><a href="https://postquant.xyz/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://postquant.xyz/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">09:32 – Building a Hybrid System Between Classical and Quantum</span></p><p><span style="background-color: transparent;">15:43 – Real-World Energy and Speed Tradeoffs</span></p><p><span style="background-color: transparent;">25:47 – The Vision: A Worldwide Quantum-Classical Computer</span></p><p><br></p><p><br></p><p><br></p><p><br></p>]]></description>
  <pubDate>Tue, 30 Jun 2026 05:00:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
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  <itunes:title><![CDATA[Blockchain Meets Quantum]]></itunes:title>
  <itunes:duration>31:32</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">What if a blockchain network could run on quantum computers—and use a fraction of the energy?</span></p><p><br></p><p><span style="background-color: transparent;">On this episode of Quantum Matters, Postquant Labs co-founders Colton Dillion and Rick Karbach share how D-Wave's annealing quantum technology is integrated into the Quip Network, a quantum-classical blockchain network. They explain their “proof of useful work” model, where quantum and classical computers compete side by side to solve optimization problems as a way to validate transactions more efficiently. Early testing with D-Wave’s quantum processing unit suggests it can produce higher-quality solutions faster and with significantly lower energy use than comparable GPU-based approaches, while the classical compute decentralizes the network until quantum computers become more numerous.</span></p><p><br></p><p><span style="background-color: transparent;">Listen in to hear how this hybrid approach works in practice and why energy efficiency is quickly becoming one of the most important challenges in the future of blockchain systems.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More about D-Wave: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">D-Wave blockchain paper: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Quip Network: </span><a href="https://quip.network/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://quip.network/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Postquant Labs: </span><a href="https://postquant.xyz/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://postquant.xyz/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">09:32 – Building a Hybrid System Between Classical and Quantum</span></p><p><span style="background-color: transparent;">15:43 – Real-World Energy and Speed Tradeoffs</span></p><p><span style="background-color: transparent;">25:47 – The Vision: A Worldwide Quantum-Classical Computer</span></p><p><br></p><p><br></p><p><br></p><p><br></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">What if a blockchain network could run on quantum computers—and use a fraction of the energy?</span></p><p><br></p><p><span style="background-color: transparent;">On this episode of Quantum Matters, Postquant Labs co-founders Colton Dillion and Rick Karbach share how D-Wave's annealing quantum technology is integrated into the Quip Network, a quantum-classical blockchain network. They explain their “proof of useful work” model, where quantum and classical computers compete side by side to solve optimization problems as a way to validate transactions more efficiently. Early testing with D-Wave’s quantum processing unit suggests it can produce higher-quality solutions faster and with significantly lower energy use than comparable GPU-based approaches, while the classical compute decentralizes the network until quantum computers become more numerous.</span></p><p><br></p><p><span style="background-color: transparent;">Listen in to hear how this hybrid approach works in practice and why energy efficiency is quickly becoming one of the most important challenges in the future of blockchain systems.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More about D-Wave: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">D-Wave blockchain paper: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Quip Network: </span><a href="https://quip.network/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://quip.network/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Postquant Labs: </span><a href="https://postquant.xyz/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://postquant.xyz/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">09:32 – Building a Hybrid System Between Classical and Quantum</span></p><p><span style="background-color: transparent;">15:43 – Real-World Energy and Speed Tradeoffs</span></p><p><span style="background-color: transparent;">25:47 – The Vision: A Worldwide Quantum-Classical Computer</span></p><p><br></p><p><br></p><p><br></p><p><br></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[What if a blockchain network could run on quantum computers—and use a fraction of the energy?On this episode of Quantum Matters, Postquant Labs co-founders Colton Dillion and Rick Karbach share how D-Wave's annealing quantum technology is integrate...]]></itunes:subtitle>
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  <title><![CDATA[Quantum Computing for Computational Advantage]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">What does quantum advantage actually mean? How do you prove a quantum computer can outperform the world’s most powerful supercomputers? And why is its energy efficiency arriving at such an important time for the world?</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, host Murray Thom sits down with Dr. Andrew King, Senior Distinguished Scientist at D-Wave, to discuss the company’s landmark peer-reviewed research demonstrating quantum computational advantage on a</span></p><p><span style="background-color: transparent;">problem relevant to materials discovery.</span></p><p><br></p><p><span style="background-color: transparent;">Together, they unpack the result behind the headlines, including a calculation completed in minutes on a quantum processor that could take classical supercomputers nearly a million years. They explore what it took to validate that claim, why energy efficiency is becoming a critical part of the quantum computing story, and how these advances could impact materials science, blockchain, and AI.</span></p><p><br></p><p><span style="background-color: transparent;">Join us for an inside look at one of the most significant milestones in quantum computing and what it could mean for the future of computation.</span></p><p><br></p><p><br></p><p><span style="background-color: transparent;">Learn more about the Beyond Classical research:</span></p><p><a href="https://www.dwavequantum.com/beyond-classical/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/beyond-classical/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Explore the Blockchain research: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Highlights:&nbsp;</strong></p><p><br></p><p><span style="background-color: transparent;">03:41 — The Most Exciting Quantum Breakthrough in Years</span></p><p><br></p><p><span style="background-color: transparent;">11:49 — Why Quantum Computing Could Revolutionize Energy Efficiency</span></p><p><br></p><p><span style="background-color: transparent;">29:12 — What’s Next for Quantum Computing: New Controls and Capabilities</span></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Show Glossary</strong></p><p><br></p><ul><li><span style="background-color: transparent;">Quantum Phase Transition: A change in the state of a quantum system driven by quantum effects rather than changes in temperature.</span></li><li><span style="background-color: transparent;">Programmable Quantum Magnet: A controllable quantum system designed to mimic the behavior of magnetic materials for experiments and simulations.</span></li><li><span style="background-color: transparent;">Constraint Satisfaction Problem (CSP): A problem where a solution must satisfy a specified set of constraints or rules.</span></li><li><span style="background-color: transparent;">Spin Glass: A disordered magnetic system with competing interactions that make finding its lowest-energy state difficult.</span></li><li><span style="background-color: transparent;">Polynomial Speedup: An improvement where a quantum algorithm scales more favorably than a classical algorithm as problem size increases.</span></li><li><span style="background-color: transparent;">Matrix Product State (MPS): A mathematical representation used to efficiently simulate certain quantum systems on classical computers.</span></li><li><span style="background-color: transparent;">Projected Entangled Pair States (PEPS): An advanced tensor-network method used to model higher-dimensional quantum systems.</span></li><li><span style="background-color: transparent;">Thermal Bath: The surrounding environment that exchanges heat with a physical system and can influence its behavior.</span></li><li><span style="background-color: transparent;">Topological Phase Transition: A phase transition characterized by changes in a system’s global structure rather than conventional ordering.</span></li><li><span style="background-color: transparent;">Order by Disorder: A phenomenon where fluctuations create an ordered state from a set of equally possible disordered configurations.</span></li><li><span style="background-color: transparent;">Degenerate Ground States: Multiple lowest-energy states of a system that all have exactly the same energy.</span></li><li><span style="background-color: transparent;">Hamiltonian: The mathematical description of the total energy and evolution of a physical system.</span></li><li><span style="background-color: transparent;">Non-Ising Hamiltonian: A Hamiltonian that includes interactions beyond those found in the standard Ising model of magnetism.</span></li><li><span style="background-color: transparent;">Multicolor Annealing: A quantum annealing technique that applies different control schedules to different groups of qubits.</span></li><li><span style="background-color: transparent;">State Preparation: The process of initializing a quantum system into a desired starting state before computation or simulation.</span></li><li><span style="background-color: transparent;">Doping Parameter: A variable describing how impurities are intentionally added to a material to alter its properties.</span></li><li><span style="background-color: transparent;">Hopfield Network: A type of recurrent neural network that stores and retrieves patterns using an energy-based framework.</span></li><li><span style="background-color: transparent;">Tensor Network: A mathematical framework used to represent and compute properties of complex quantum systems.</span></li></ul><p><br></p><p><br></p>]]></description>
  <pubDate>Tue, 16 Jun 2026 05:00:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Quantum Computing for Computational Advantage]]></itunes:title>
  <itunes:duration>34:01</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">What does quantum advantage actually mean? How do you prove a quantum computer can outperform the world’s most powerful supercomputers? And why is its energy efficiency arriving at such an important time for the world?</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, host Murray Thom sits down with Dr. Andrew King, Senior Distinguished Scientist at D-Wave, to discuss the company’s landmark peer-reviewed research demonstrating quantum computational advantage on a</span></p><p><span style="background-color: transparent;">problem relevant to materials discovery.</span></p><p><br></p><p><span style="background-color: transparent;">Together, they unpack the result behind the headlines, including a calculation completed in minutes on a quantum processor that could take classical supercomputers nearly a million years. They explore what it took to validate that claim, why energy efficiency is becoming a critical part of the quantum computing story, and how these advances could impact materials science, blockchain, and AI.</span></p><p><br></p><p><span style="background-color: transparent;">Join us for an inside look at one of the most significant milestones in quantum computing and what it could mean for the future of computation.</span></p><p><br></p><p><br></p><p><span style="background-color: transparent;">Learn more about the Beyond Classical research:</span></p><p><a href="https://www.dwavequantum.com/beyond-classical/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/beyond-classical/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Explore the Blockchain research: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Highlights:&nbsp;</strong></p><p><br></p><p><span style="background-color: transparent;">03:41 — The Most Exciting Quantum Breakthrough in Years</span></p><p><br></p><p><span style="background-color: transparent;">11:49 — Why Quantum Computing Could Revolutionize Energy Efficiency</span></p><p><br></p><p><span style="background-color: transparent;">29:12 — What’s Next for Quantum Computing: New Controls and Capabilities</span></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Show Glossary</strong></p><p><br></p><ul><li><span style="background-color: transparent;">Quantum Phase Transition: A change in the state of a quantum system driven by quantum effects rather than changes in temperature.</span></li><li><span style="background-color: transparent;">Programmable Quantum Magnet: A controllable quantum system designed to mimic the behavior of magnetic materials for experiments and simulations.</span></li><li><span style="background-color: transparent;">Constraint Satisfaction Problem (CSP): A problem where a solution must satisfy a specified set of constraints or rules.</span></li><li><span style="background-color: transparent;">Spin Glass: A disordered magnetic system with competing interactions that make finding its lowest-energy state difficult.</span></li><li><span style="background-color: transparent;">Polynomial Speedup: An improvement where a quantum algorithm scales more favorably than a classical algorithm as problem size increases.</span></li><li><span style="background-color: transparent;">Matrix Product State (MPS): A mathematical representation used to efficiently simulate certain quantum systems on classical computers.</span></li><li><span style="background-color: transparent;">Projected Entangled Pair States (PEPS): An advanced tensor-network method used to model higher-dimensional quantum systems.</span></li><li><span style="background-color: transparent;">Thermal Bath: The surrounding environment that exchanges heat with a physical system and can influence its behavior.</span></li><li><span style="background-color: transparent;">Topological Phase Transition: A phase transition characterized by changes in a system’s global structure rather than conventional ordering.</span></li><li><span style="background-color: transparent;">Order by Disorder: A phenomenon where fluctuations create an ordered state from a set of equally possible disordered configurations.</span></li><li><span style="background-color: transparent;">Degenerate Ground States: Multiple lowest-energy states of a system that all have exactly the same energy.</span></li><li><span style="background-color: transparent;">Hamiltonian: The mathematical description of the total energy and evolution of a physical system.</span></li><li><span style="background-color: transparent;">Non-Ising Hamiltonian: A Hamiltonian that includes interactions beyond those found in the standard Ising model of magnetism.</span></li><li><span style="background-color: transparent;">Multicolor Annealing: A quantum annealing technique that applies different control schedules to different groups of qubits.</span></li><li><span style="background-color: transparent;">State Preparation: The process of initializing a quantum system into a desired starting state before computation or simulation.</span></li><li><span style="background-color: transparent;">Doping Parameter: A variable describing how impurities are intentionally added to a material to alter its properties.</span></li><li><span style="background-color: transparent;">Hopfield Network: A type of recurrent neural network that stores and retrieves patterns using an energy-based framework.</span></li><li><span style="background-color: transparent;">Tensor Network: A mathematical framework used to represent and compute properties of complex quantum systems.</span></li></ul><p><br></p><p><br></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">What does quantum advantage actually mean? How do you prove a quantum computer can outperform the world’s most powerful supercomputers? And why is its energy efficiency arriving at such an important time for the world?</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, host Murray Thom sits down with Dr. Andrew King, Senior Distinguished Scientist at D-Wave, to discuss the company’s landmark peer-reviewed research demonstrating quantum computational advantage on a</span></p><p><span style="background-color: transparent;">problem relevant to materials discovery.</span></p><p><br></p><p><span style="background-color: transparent;">Together, they unpack the result behind the headlines, including a calculation completed in minutes on a quantum processor that could take classical supercomputers nearly a million years. They explore what it took to validate that claim, why energy efficiency is becoming a critical part of the quantum computing story, and how these advances could impact materials science, blockchain, and AI.</span></p><p><br></p><p><span style="background-color: transparent;">Join us for an inside look at one of the most significant milestones in quantum computing and what it could mean for the future of computation.</span></p><p><br></p><p><br></p><p><span style="background-color: transparent;">Learn more about the Beyond Classical research:</span></p><p><a href="https://www.dwavequantum.com/beyond-classical/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/beyond-classical/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">Explore the Blockchain research: </span><a href="https://www.dwavequantum.com/blockchain/" target="_blank" style="background-color: transparent; color: rgb(17, 85, 204);">https://www.dwavequantum.com/blockchain/</a><span style="background-color: transparent;">&nbsp;</span></p><p><br></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Highlights:&nbsp;</strong></p><p><br></p><p><span style="background-color: transparent;">03:41 — The Most Exciting Quantum Breakthrough in Years</span></p><p><br></p><p><span style="background-color: transparent;">11:49 — Why Quantum Computing Could Revolutionize Energy Efficiency</span></p><p><br></p><p><span style="background-color: transparent;">29:12 — What’s Next for Quantum Computing: New Controls and Capabilities</span></p><p><br></p><p><br></p><p><strong style="background-color: transparent;">Show Glossary</strong></p><p><br></p><ul><li><span style="background-color: transparent;">Quantum Phase Transition: A change in the state of a quantum system driven by quantum effects rather than changes in temperature.</span></li><li><span style="background-color: transparent;">Programmable Quantum Magnet: A controllable quantum system designed to mimic the behavior of magnetic materials for experiments and simulations.</span></li><li><span style="background-color: transparent;">Constraint Satisfaction Problem (CSP): A problem where a solution must satisfy a specified set of constraints or rules.</span></li><li><span style="background-color: transparent;">Spin Glass: A disordered magnetic system with competing interactions that make finding its lowest-energy state difficult.</span></li><li><span style="background-color: transparent;">Polynomial Speedup: An improvement where a quantum algorithm scales more favorably than a classical algorithm as problem size increases.</span></li><li><span style="background-color: transparent;">Matrix Product State (MPS): A mathematical representation used to efficiently simulate certain quantum systems on classical computers.</span></li><li><span style="background-color: transparent;">Projected Entangled Pair States (PEPS): An advanced tensor-network method used to model higher-dimensional quantum systems.</span></li><li><span style="background-color: transparent;">Thermal Bath: The surrounding environment that exchanges heat with a physical system and can influence its behavior.</span></li><li><span style="background-color: transparent;">Topological Phase Transition: A phase transition characterized by changes in a system’s global structure rather than conventional ordering.</span></li><li><span style="background-color: transparent;">Order by Disorder: A phenomenon where fluctuations create an ordered state from a set of equally possible disordered configurations.</span></li><li><span style="background-color: transparent;">Degenerate Ground States: Multiple lowest-energy states of a system that all have exactly the same energy.</span></li><li><span style="background-color: transparent;">Hamiltonian: The mathematical description of the total energy and evolution of a physical system.</span></li><li><span style="background-color: transparent;">Non-Ising Hamiltonian: A Hamiltonian that includes interactions beyond those found in the standard Ising model of magnetism.</span></li><li><span style="background-color: transparent;">Multicolor Annealing: A quantum annealing technique that applies different control schedules to different groups of qubits.</span></li><li><span style="background-color: transparent;">State Preparation: The process of initializing a quantum system into a desired starting state before computation or simulation.</span></li><li><span style="background-color: transparent;">Doping Parameter: A variable describing how impurities are intentionally added to a material to alter its properties.</span></li><li><span style="background-color: transparent;">Hopfield Network: A type of recurrent neural network that stores and retrieves patterns using an energy-based framework.</span></li><li><span style="background-color: transparent;">Tensor Network: A mathematical framework used to represent and compute properties of complex quantum systems.</span></li></ul><p><br></p><p><br></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[What does quantum advantage actually mean? How do you prove a quantum computer can outperform the world’s most powerful supercomputers? And why is its energy efficiency arriving at such an important time for the world?In this episode of Quantum Mat...]]></itunes:subtitle>
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  <title><![CDATA[Missile Defense Optimization with Quantum]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">What role can quantum computing play in national defense? In this episode of Quantum Matters, host Murray Thom speaks with Dale Moore, president and CEO of Davidson</span></p><p><span style="background-color: transparent;">Technologies, about the effort to bring quantum computing into practical defense applications.</span></p><p><span style="background-color: transparent;">Dale details his team’s collaboration with D-Wave and Anduril applying quantum computing to</span></p><p><span style="background-color: transparent;">air and missile defense planning, and discusses the importance of housing a D-Wave</span></p><p><span style="background-color: transparent;">Advantage2 system at Davidson’s facilities in Huntsville, Alabama.&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">From advanced simulations to mission-critical decision-making, discover what quantum</span></p><p><span style="background-color: transparent;">computing can do when national security is on the line.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/solutions-and-products/public-sector/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/public-sector/</a></p><p><br></p><p><strong style="background-color: transparent;">Highlights include:</strong></p><p><br></p><p><span style="background-color: transparent;">08:24 - Quantum Breakthrough in Missile Defense (Anduril × D-Wave × Davidson)</span></p><p><span style="background-color: transparent;">12:25 - Why Missile Defense Is a Perfect Quantum Use Case</span></p><p><span style="background-color: transparent;">22:59 - Making Quantum Real in Defense (Huntsville Deployment &amp; Access)</span></p>]]></description>
  <pubDate>Tue, 02 Jun 2026 04:01:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Missile Defense Optimization with Quantum]]></itunes:title>
  <itunes:duration>39:52</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">What role can quantum computing play in national defense? In this episode of Quantum Matters, host Murray Thom speaks with Dale Moore, president and CEO of Davidson</span></p><p><span style="background-color: transparent;">Technologies, about the effort to bring quantum computing into practical defense applications.</span></p><p><span style="background-color: transparent;">Dale details his team’s collaboration with D-Wave and Anduril applying quantum computing to</span></p><p><span style="background-color: transparent;">air and missile defense planning, and discusses the importance of housing a D-Wave</span></p><p><span style="background-color: transparent;">Advantage2 system at Davidson’s facilities in Huntsville, Alabama.&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">From advanced simulations to mission-critical decision-making, discover what quantum</span></p><p><span style="background-color: transparent;">computing can do when national security is on the line.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/solutions-and-products/public-sector/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/public-sector/</a></p><p><br></p><p><strong style="background-color: transparent;">Highlights include:</strong></p><p><br></p><p><span style="background-color: transparent;">08:24 - Quantum Breakthrough in Missile Defense (Anduril × D-Wave × Davidson)</span></p><p><span style="background-color: transparent;">12:25 - Why Missile Defense Is a Perfect Quantum Use Case</span></p><p><span style="background-color: transparent;">22:59 - Making Quantum Real in Defense (Huntsville Deployment &amp; Access)</span></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">What role can quantum computing play in national defense? In this episode of Quantum Matters, host Murray Thom speaks with Dale Moore, president and CEO of Davidson</span></p><p><span style="background-color: transparent;">Technologies, about the effort to bring quantum computing into practical defense applications.</span></p><p><span style="background-color: transparent;">Dale details his team’s collaboration with D-Wave and Anduril applying quantum computing to</span></p><p><span style="background-color: transparent;">air and missile defense planning, and discusses the importance of housing a D-Wave</span></p><p><span style="background-color: transparent;">Advantage2 system at Davidson’s facilities in Huntsville, Alabama.&nbsp;</span></p><p><br></p><p><span style="background-color: transparent;">From advanced simulations to mission-critical decision-making, discover what quantum</span></p><p><span style="background-color: transparent;">computing can do when national security is on the line.</span></p><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/solutions-and-products/public-sector/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/public-sector/</a></p><p><br></p><p><strong style="background-color: transparent;">Highlights include:</strong></p><p><br></p><p><span style="background-color: transparent;">08:24 - Quantum Breakthrough in Missile Defense (Anduril × D-Wave × Davidson)</span></p><p><span style="background-color: transparent;">12:25 - Why Missile Defense Is a Perfect Quantum Use Case</span></p><p><span style="background-color: transparent;">22:59 - Making Quantum Real in Defense (Huntsville Deployment &amp; Access)</span></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[What role can quantum computing play in national defense? In this episode of Quantum Matters, host Murray Thom speaks with Dale Moore, president and CEO of DavidsonTechnologies, about the effort to bring quantum computing into practical defense app...]]></itunes:subtitle>
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  <title><![CDATA[Rethinking Warehouse Operations with Quantum]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">Modern warehouses process many thousands, sometimes millions, of items in constantly changing conditions, where each decision affects the flow of goods in the warehouse, and across the supply chain.</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, Murray Thom speaks with Gabriel Fernandes of the Wernher von Braun Advanced Research Center about a warehouse challenge faced by an automotive manufacturer. With warehouse capacity limits looming and the challenge of maintaining product flow, Gabriel shares how he turned to quantum-powered optimization to help rethink operations at scale.</span></p><p><br></p><p><span style="background-color: transparent;">Using real operational data, Gabriel explores how products could be assigned to gravity flow racks, demonstrating in simulation a 10x reduction in product re-insertions.</span></p><p><br></p><p><span style="background-color: transparent;">The result reflects a new way of thinking about coordination across modern supply chains, a practical, eye-opening look at quantum computing’s potential in action.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><p><br></p><ul><li><span style="background-color: transparent;">6:30 - Programming a quantum computer for the first time&nbsp;</span></li><li><span style="background-color: transparent;">15:53 - Quantum Solving the Warehouse “Tetris Problem”</span></li><li><span style="background-color: transparent;">21:00 -The 90% Cost Reduction Result</span></li></ul><p><br></p>]]></description>
  <pubDate>Tue, 19 May 2026 05:00:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Rethinking Warehouse Operations with Quantum]]></itunes:title>
  <itunes:duration>31:32</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">Modern warehouses process many thousands, sometimes millions, of items in constantly changing conditions, where each decision affects the flow of goods in the warehouse, and across the supply chain.</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, Murray Thom speaks with Gabriel Fernandes of the Wernher von Braun Advanced Research Center about a warehouse challenge faced by an automotive manufacturer. With warehouse capacity limits looming and the challenge of maintaining product flow, Gabriel shares how he turned to quantum-powered optimization to help rethink operations at scale.</span></p><p><br></p><p><span style="background-color: transparent;">Using real operational data, Gabriel explores how products could be assigned to gravity flow racks, demonstrating in simulation a 10x reduction in product re-insertions.</span></p><p><br></p><p><span style="background-color: transparent;">The result reflects a new way of thinking about coordination across modern supply chains, a practical, eye-opening look at quantum computing’s potential in action.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><p><br></p><ul><li><span style="background-color: transparent;">6:30 - Programming a quantum computer for the first time&nbsp;</span></li><li><span style="background-color: transparent;">15:53 - Quantum Solving the Warehouse “Tetris Problem”</span></li><li><span style="background-color: transparent;">21:00 -The 90% Cost Reduction Result</span></li></ul><p><br></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">Modern warehouses process many thousands, sometimes millions, of items in constantly changing conditions, where each decision affects the flow of goods in the warehouse, and across the supply chain.</span></p><p><br></p><p><span style="background-color: transparent;">In this episode of Quantum Matters, Murray Thom speaks with Gabriel Fernandes of the Wernher von Braun Advanced Research Center about a warehouse challenge faced by an automotive manufacturer. With warehouse capacity limits looming and the challenge of maintaining product flow, Gabriel shares how he turned to quantum-powered optimization to help rethink operations at scale.</span></p><p><br></p><p><span style="background-color: transparent;">Using real operational data, Gabriel explores how products could be assigned to gravity flow racks, demonstrating in simulation a 10x reduction in product re-insertions.</span></p><p><br></p><p><span style="background-color: transparent;">The result reflects a new way of thinking about coordination across modern supply chains, a practical, eye-opening look at quantum computing’s potential in action.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><p><br></p><ul><li><span style="background-color: transparent;">6:30 - Programming a quantum computer for the first time&nbsp;</span></li><li><span style="background-color: transparent;">15:53 - Quantum Solving the Warehouse “Tetris Problem”</span></li><li><span style="background-color: transparent;">21:00 -The 90% Cost Reduction Result</span></li></ul><p><br></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[Modern warehouses process many thousands, sometimes millions, of items in constantly changing conditions, where each decision affects the flow of goods in the warehouse, and across the supply chain.In this episode of Quantum Matters, Murray Thom sp...]]></itunes:subtitle>
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  <title><![CDATA[Quantum + Robots For Optimized Quality Control]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">There’s an opportunity to improve robotic quality inspection with quantum computing technology. In this episode of Quantum Matters, host Murray Thom speaks with Dr. Eneko Osaba, Principal Researcher at Tecnalia, about applying hybrid quantum optimization to robotic quality inspection. Eneko shares how his team tackled a practical path-planning problem, optimizing how a physical robot inspects parts under real constraints. Using D-Wave’s Stride™ Hybrid Solver, they reduced solve times from hours to seconds in this case while achieving approximately 86% of the benchmark solution quality, highlighting a tradeoff industry often prefers: fast and good over slow and perfect. Listen in to explore how to identify problems suited for quantum optimization, what it takes to implement these systems in practice, and why collaboration between domain experts and quantum teams is critical.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><ol><li><span style="background-color: transparent;">2:45 From Curiosity to quantum&nbsp;</span></li><li><span style="background-color: transparent;">6:29 Robot inspection at work</span></li><li><span style="background-color: transparent;">15: 32 Quantum built with industry, not theory</span></li></ol><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/</a></p><p><br></p><p><span style="background-color: transparent;">Quantum Optimization: </span><a href="https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/</a></p><p><br></p><p><span style="background-color: transparent;">Get Started with D-Wave Today: </span><a href="https://www.dwavequantum.com/build/getting-started/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/build/getting-started/</a></p>]]></description>
  <pubDate>Tue, 05 May 2026 05:00:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Quantum + Robots For Optimized Quality Control]]></itunes:title>
  <itunes:duration>24:39</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">There’s an opportunity to improve robotic quality inspection with quantum computing technology. In this episode of Quantum Matters, host Murray Thom speaks with Dr. Eneko Osaba, Principal Researcher at Tecnalia, about applying hybrid quantum optimization to robotic quality inspection. Eneko shares how his team tackled a practical path-planning problem, optimizing how a physical robot inspects parts under real constraints. Using D-Wave’s Stride™ Hybrid Solver, they reduced solve times from hours to seconds in this case while achieving approximately 86% of the benchmark solution quality, highlighting a tradeoff industry often prefers: fast and good over slow and perfect. Listen in to explore how to identify problems suited for quantum optimization, what it takes to implement these systems in practice, and why collaboration between domain experts and quantum teams is critical.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><ol><li><span style="background-color: transparent;">2:45 From Curiosity to quantum&nbsp;</span></li><li><span style="background-color: transparent;">6:29 Robot inspection at work</span></li><li><span style="background-color: transparent;">15: 32 Quantum built with industry, not theory</span></li></ol><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/</a></p><p><br></p><p><span style="background-color: transparent;">Quantum Optimization: </span><a href="https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/</a></p><p><br></p><p><span style="background-color: transparent;">Get Started with D-Wave Today: </span><a href="https://www.dwavequantum.com/build/getting-started/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/build/getting-started/</a></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">There’s an opportunity to improve robotic quality inspection with quantum computing technology. In this episode of Quantum Matters, host Murray Thom speaks with Dr. Eneko Osaba, Principal Researcher at Tecnalia, about applying hybrid quantum optimization to robotic quality inspection. Eneko shares how his team tackled a practical path-planning problem, optimizing how a physical robot inspects parts under real constraints. Using D-Wave’s Stride™ Hybrid Solver, they reduced solve times from hours to seconds in this case while achieving approximately 86% of the benchmark solution quality, highlighting a tradeoff industry often prefers: fast and good over slow and perfect. Listen in to explore how to identify problems suited for quantum optimization, what it takes to implement these systems in practice, and why collaboration between domain experts and quantum teams is critical.</span></p><p><br></p><p><span style="background-color: transparent;">Highlights include:</span></p><ol><li><span style="background-color: transparent;">2:45 From Curiosity to quantum&nbsp;</span></li><li><span style="background-color: transparent;">6:29 Robot inspection at work</span></li><li><span style="background-color: transparent;">15: 32 Quantum built with industry, not theory</span></li></ol><p><br></p><p><span style="background-color: transparent;">Learn More: </span><a href="https://www.dwavequantum.com/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/</a></p><p><br></p><p><span style="background-color: transparent;">Quantum Optimization: </span><a href="https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/solutions-and-products/quantum-optimization/quantum-optimization/</a></p><p><br></p><p><span style="background-color: transparent;">Get Started with D-Wave Today: </span><a href="https://www.dwavequantum.com/build/getting-started/" target="_blank" style="background-color: transparent; color: rgb(0, 0, 0);">https://www.dwavequantum.com/build/getting-started/</a></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[There’s an opportunity to improve robotic quality inspection with quantum computing technology. In this episode of Quantum Matters, host Murray Thom speaks with Dr. Eneko Osaba, Principal Researcher at Tecnalia, about applying hybrid quantum optimi...]]></itunes:subtitle>
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  <title><![CDATA[Insights from a Quantum Optimization Expert]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">Quantum computing can feel abstract… Until you see the kinds of business problems it’s already being applied to. On this episode of Quantum Matters, host Murray Thom is joined by Mayowa Ayodele, Manager, Solutions Architect on D-Wave’s Professional Services team, to explore how organizations are using hybrid-quantum computing approaches to help deliver measurable results today. Drawing on real-world client engagements across industries like logistics, manufacturing, energy, and finance, Ayodele breaks down what makes a problem well- suited for quantum-powered optimization: challenges that are large, complex, and driven by discrete decisions. She also unpacks why classical systems can begin to struggle as constraints multiply, how hybrid solvers can, in some cases, reduce time to solution from hours to seconds, and what it can take to move from proof of concept to production. The conversation also highlights the importance of clean data, strong collaboration with domain experts, and practical pathways for teams that are new to quantum computing to get started with confidence.</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">8:00 - The 3 Things You Need to Solve Problems with Quantum</span></p><p><span style="background-color: transparent;">13:21 - Good Data Determines Good Results</span></p><p><span style="background-color: transparent;">23:36 - What Makes a Quantum Project Successful</span></p><p><br></p>]]></description>
  <pubDate>Tue, 21 Apr 2026 05:00:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Insights from a Quantum Optimization Expert]]></itunes:title>
  <itunes:duration>33:24</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">Quantum computing can feel abstract… Until you see the kinds of business problems it’s already being applied to. On this episode of Quantum Matters, host Murray Thom is joined by Mayowa Ayodele, Manager, Solutions Architect on D-Wave’s Professional Services team, to explore how organizations are using hybrid-quantum computing approaches to help deliver measurable results today. Drawing on real-world client engagements across industries like logistics, manufacturing, energy, and finance, Ayodele breaks down what makes a problem well- suited for quantum-powered optimization: challenges that are large, complex, and driven by discrete decisions. She also unpacks why classical systems can begin to struggle as constraints multiply, how hybrid solvers can, in some cases, reduce time to solution from hours to seconds, and what it can take to move from proof of concept to production. The conversation also highlights the importance of clean data, strong collaboration with domain experts, and practical pathways for teams that are new to quantum computing to get started with confidence.</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">8:00 - The 3 Things You Need to Solve Problems with Quantum</span></p><p><span style="background-color: transparent;">13:21 - Good Data Determines Good Results</span></p><p><span style="background-color: transparent;">23:36 - What Makes a Quantum Project Successful</span></p><p><br></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">Quantum computing can feel abstract… Until you see the kinds of business problems it’s already being applied to. On this episode of Quantum Matters, host Murray Thom is joined by Mayowa Ayodele, Manager, Solutions Architect on D-Wave’s Professional Services team, to explore how organizations are using hybrid-quantum computing approaches to help deliver measurable results today. Drawing on real-world client engagements across industries like logistics, manufacturing, energy, and finance, Ayodele breaks down what makes a problem well- suited for quantum-powered optimization: challenges that are large, complex, and driven by discrete decisions. She also unpacks why classical systems can begin to struggle as constraints multiply, how hybrid solvers can, in some cases, reduce time to solution from hours to seconds, and what it can take to move from proof of concept to production. The conversation also highlights the importance of clean data, strong collaboration with domain experts, and practical pathways for teams that are new to quantum computing to get started with confidence.</span></p><p><br></p><p><strong style="background-color: transparent;">Highlights:</strong></p><p><br></p><p><span style="background-color: transparent;">8:00 - The 3 Things You Need to Solve Problems with Quantum</span></p><p><span style="background-color: transparent;">13:21 - Good Data Determines Good Results</span></p><p><span style="background-color: transparent;">23:36 - What Makes a Quantum Project Successful</span></p><p><br></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[Quantum computing can feel abstract… Until you see the kinds of business problems it’s already being applied to. On this episode of Quantum Matters, host Murray Thom is joined by Mayowa Ayodele, Manager, Solutions Architect on D-Wave’s Professional...]]></itunes:subtitle>
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  <title><![CDATA[Quantum Computing Meets Real-World Impact]]></title>
  <description><![CDATA[<p>Can quantum computers really change the way we move, work, and solve problems in the real world? In this premiere episode of Quantum Matters, host Murray Thom sits down with global tech executive Martin Hofmann to explore how quantum computing is tackling challenges that are too complex for classical systems. Hofmann shares his experience partnering with D-Wave on projects in Beijing, Barcelona, and Lisbon, where hybrid quantum-classical systems are used to improve traffic prediction and optimize routes—cutting travel times by up to 30% in some cases. He also introduces the idea of outcome engineering—starting with a clear goal and working backward—and explains why meaningful innovation goes beyond proof-of-concept experiments. Listen in as they explore the future of quantum computing and agentic AI, and how combining these technologies could help reshape industries.</p><p><br></p><p>Highlights include:&nbsp;</p><p><br></p><p>7:10 - Solving Beijing's Traffic Congestion Problem with Quantum</p><p>13:42 - Live Traffic Rerouting in Action</p><p>20:08 - Hybrid Quantum + AI Collaboration</p>]]></description>
  <pubDate>Tue, 07 Apr 2026 04:01:00 -0400</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Quantum Computing Meets Real-World Impact]]></itunes:title>
  <itunes:duration>33:36</itunes:duration>
  <itunes:summary><![CDATA[<p>Can quantum computers really change the way we move, work, and solve problems in the real world? In this premiere episode of Quantum Matters, host Murray Thom sits down with global tech executive Martin Hofmann to explore how quantum computing is tackling challenges that are too complex for classical systems. Hofmann shares his experience partnering with D-Wave on projects in Beijing, Barcelona, and Lisbon, where hybrid quantum-classical systems are used to improve traffic prediction and optimize routes—cutting travel times by up to 30% in some cases. He also introduces the idea of outcome engineering—starting with a clear goal and working backward—and explains why meaningful innovation goes beyond proof-of-concept experiments. Listen in as they explore the future of quantum computing and agentic AI, and how combining these technologies could help reshape industries.</p><p><br></p><p>Highlights include:&nbsp;</p><p><br></p><p>7:10 - Solving Beijing's Traffic Congestion Problem with Quantum</p><p>13:42 - Live Traffic Rerouting in Action</p><p>20:08 - Hybrid Quantum + AI Collaboration</p>]]></itunes:summary>
  <content:encoded><![CDATA[<p>Can quantum computers really change the way we move, work, and solve problems in the real world? In this premiere episode of Quantum Matters, host Murray Thom sits down with global tech executive Martin Hofmann to explore how quantum computing is tackling challenges that are too complex for classical systems. Hofmann shares his experience partnering with D-Wave on projects in Beijing, Barcelona, and Lisbon, where hybrid quantum-classical systems are used to improve traffic prediction and optimize routes—cutting travel times by up to 30% in some cases. He also introduces the idea of outcome engineering—starting with a clear goal and working backward—and explains why meaningful innovation goes beyond proof-of-concept experiments. Listen in as they explore the future of quantum computing and agentic AI, and how combining these technologies could help reshape industries.</p><p><br></p><p>Highlights include:&nbsp;</p><p><br></p><p>7:10 - Solving Beijing's Traffic Congestion Problem with Quantum</p><p>13:42 - Live Traffic Rerouting in Action</p><p>20:08 - Hybrid Quantum + AI Collaboration</p>]]></content:encoded>
  <itunes:subtitle><![CDATA[Can quantum computers really change the way we move, work, and solve problems in the real world? In this premiere episode of Quantum Matters, host Murray Thom sits down with global tech executive Martin Hofmann to explore how quantum computing is t...]]></itunes:subtitle>
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  <title><![CDATA[Introducing Quantum Matters: Where Quantum Computing Gets Real]]></title>
  <description><![CDATA[<p><span style="background-color: transparent;">Introducing Quantum Matters, a podcast from D-Wave, the world’s first commercial</span></p><p><span style="background-color: transparent;">quantum computing company. Every episode will explore where quantum is making a</span></p><p><span style="background-color: transparent;">tangible difference today. You’ll hear from industry leaders, researchers, and academics</span></p><p><span style="background-color: transparent;">who are applying quantum technology to find answers to their most challenging</span></p><p><span style="background-color: transparent;">computational problems. You’ll also learn about real-world case studies to help you cut</span></p><p><span style="background-color: transparent;">through the hype, separate fact from fiction, and develop an informed position on what</span></p><p><span style="background-color: transparent;">this incredible technology could mean for you today.</span></p><p><br></p><p><span style="background-color: transparent;">Because quantum isn’t coming someday—it’s here, it’s scaling, and it’s creating</span></p><p><span style="background-color: transparent;">opportunities and delivering real ROI right now. So whether you’re a quantum skeptic,</span></p><p><span style="background-color: transparent;">enthusiast, or undecided, keep an eye out for Quantum Matters from D-Wave, coming</span></p><p><span style="background-color: transparent;">soon to YouTube, Spotify, Apple, and everywhere you get your podcasts.</span></p>]]></description>
  <pubDate>Wed, 21 Jan 2026 12:32:00 -0500</pubDate>
  <link>https://www.dwavequantum.com/learn/quantum-matters-podcast/</link>
  <author><![CDATA[podcasts@jaraudio.com (D-Wave)]]></author>
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  <itunes:title><![CDATA[Introducing Quantum Matters: Where Quantum Computing Gets Real]]></itunes:title>
  <itunes:duration>1:32</itunes:duration>
  <itunes:summary><![CDATA[<p><span style="background-color: transparent;">Introducing Quantum Matters, a podcast from D-Wave, the world’s first commercial</span></p><p><span style="background-color: transparent;">quantum computing company. Every episode will explore where quantum is making a</span></p><p><span style="background-color: transparent;">tangible difference today. You’ll hear from industry leaders, researchers, and academics</span></p><p><span style="background-color: transparent;">who are applying quantum technology to find answers to their most challenging</span></p><p><span style="background-color: transparent;">computational problems. You’ll also learn about real-world case studies to help you cut</span></p><p><span style="background-color: transparent;">through the hype, separate fact from fiction, and develop an informed position on what</span></p><p><span style="background-color: transparent;">this incredible technology could mean for you today.</span></p><p><br></p><p><span style="background-color: transparent;">Because quantum isn’t coming someday—it’s here, it’s scaling, and it’s creating</span></p><p><span style="background-color: transparent;">opportunities and delivering real ROI right now. So whether you’re a quantum skeptic,</span></p><p><span style="background-color: transparent;">enthusiast, or undecided, keep an eye out for Quantum Matters from D-Wave, coming</span></p><p><span style="background-color: transparent;">soon to YouTube, Spotify, Apple, and everywhere you get your podcasts.</span></p>]]></itunes:summary>
  <content:encoded><![CDATA[<p><span style="background-color: transparent;">Introducing Quantum Matters, a podcast from D-Wave, the world’s first commercial</span></p><p><span style="background-color: transparent;">quantum computing company. Every episode will explore where quantum is making a</span></p><p><span style="background-color: transparent;">tangible difference today. You’ll hear from industry leaders, researchers, and academics</span></p><p><span style="background-color: transparent;">who are applying quantum technology to find answers to their most challenging</span></p><p><span style="background-color: transparent;">computational problems. You’ll also learn about real-world case studies to help you cut</span></p><p><span style="background-color: transparent;">through the hype, separate fact from fiction, and develop an informed position on what</span></p><p><span style="background-color: transparent;">this incredible technology could mean for you today.</span></p><p><br></p><p><span style="background-color: transparent;">Because quantum isn’t coming someday—it’s here, it’s scaling, and it’s creating</span></p><p><span style="background-color: transparent;">opportunities and delivering real ROI right now. So whether you’re a quantum skeptic,</span></p><p><span style="background-color: transparent;">enthusiast, or undecided, keep an eye out for Quantum Matters from D-Wave, coming</span></p><p><span style="background-color: transparent;">soon to YouTube, Spotify, Apple, and everywhere you get your podcasts.</span></p>]]></content:encoded>
  <itunes:subtitle><![CDATA[Introducing Quantum Matters, a podcast from D-Wave, the world’s first commercialquantum computing company. Every episode will explore where quantum is making atangible difference today. You’ll hear from industry leaders, researchers, and academicsw...]]></itunes:subtitle>
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