Explore every episode of the podcast Beyond the Qubit
| Title | Pub. Date | Duration | |
|---|---|---|---|
| Europe has strong quantum talent. That does not mean it will build strong quantum companies. | 17 Apr 2026 | 00:42:46 | |
In Part 3 of this conversation, Frank Dekker reflects on one of the biggest takeaways from his discussion with Olivier Ezratty: great science alone does not create a winning quantum ecosystem. Europe has deep talent, strong research, and serious technical capability, but turning that into globally relevant companies is a different challenge. This episode is for investors, founders, policymakers, and anyone trying to understand what it will really take for Europe to compete in quantum. The conversation goes beyond technology and looks at the harder questions around energy, coordination, ecosystem building, and long term strategy. That is what makes Olivierās perspective so valuable. He is not only trying to understand where quantum is going. He is trying to improve the odds that Europe builds something meaningful around it. š” In this episode, we cover:
Chapters 00:00 Introduction to Olivier Ezratty 00:48 Olivierās background in software, Microsoft, and startups 04:07 How curiosity led him into science and quantum 05:52 From tech events to explaining quantum publicly 10:25 Building a 1,500-page quantum guide 13:36 Olivierās goals for the next five years 14:18 Why Europe has talent but not enough quantum companies 35:39 Quantum Energy Initiative and why energy matters early 37:53 The hidden classical costs behind useful quantum computing 39:05 Why quantum needs a system-level engineering mindset 41:31 Quantum matter, new materials, and Europeās next opportunity š Resources / LinksFollow Olivier Ezratty on LinkedIn: https://www.linkedin.com/in/ezratty/ Listen to all episodes: https://open.spotify.com/show/7HZpSCz1w7a782e1B26MYA Share this episode with someone following Europeās quantum future. Subscribe or follow Beyond the Qubit for more conversations on quantum technology, markets, and investing. š Disclaimer: This post is shared on a personal basis, and I do not represent any company. | |||
| Quantum computing has a hype problem. | 10 Apr 2026 | 00:58:00 | |
Quantum computing has a hype problem. But the real challenge is much harder than most people think. In Part 2 of this conversation, Frank Dekker continues his deep dive with Olivier Ezratty and gets into what real progress in quantum actually looks like. One of the clearest takeaways is that every step forward can create a new bottleneck. Solve one problem, and another appears right behind it. This episode is for investors, founders, and anyone trying to understand why scaling quantum computing is so difficult. The challenge is not just adding more qubits. It is building a system that can handle noise, error correction, control complexity, and energy demands, while still producing something useful at a cost the market can bear. That is what makes this conversation so valuable. Olivier brings a grounded perspective that goes beyond exciting narratives and focuses on what it really takes to make the whole system work. š” In this episode, we cover:
YouTube Chapters 00:00 Introduction and the core question 00:52 Does a quantum computer really work? 05:45 Is a quantum computer really a computer? 10:39 Quantum memory, QRAM, and communication 14:28 How AI helps quantum and where it still does not 19:38 Which quantum technology platform will win? 27:20 Why every scaling solution creates a new problem 40:05 Quantum Energy Initiative and why energy matters 52:49 The three expensive classical costs behind FTQC 56:10 Quantum engineering and the bigger opportunity in quantum š Resources / Links Follow Olivier Ezratty on LinkedIn: https://www.linkedin.com/in/ezratty/ Listen to all episodes: https://open.spotify.com/show/7HZpSCz1w7a782e1B26MYA Share this episode with someone following quantum computing seriously. Subscribe or follow Beyond the Qubit for more conversations on quantum technology, markets, and investing. š Disclaimer: This post is shared on a personal basis and I do not represent any company. | |||
| Summary QC Design | 06 Feb 2026 | 00:38:30 | |
This post is a short summary of a longer conversation on theBeyond the Qubit podcast. I sat down with the CEO of QC Design to talk about whatquantum computing really is once you strip away the metaphors. A qubit is not a bit with uncertainty. You cannot read it without destroying it. You never really ask a qubit a question. What you actually do is prepare a physical system, let itevolve under carefully designed control pulses, and then force a measurement. The qubit does not reason, choose, or understand thequestion. Seen this way, quantum computation looks less likecomputation and more like continuous damage control layered on top of aphysical process that barely exists long enough to be manipulated. This perspective matters. The full conversation goes much deeper into what this meansfor system design, abstractions, and where many roadmaps quietly break down. More in the full episode of Beyond the Qubit. https://youtu.be/9ydv1tFjgqo Ā Quantum #QuantumArchitecture #ErrorCorrection #QuantumSoftware #BeyondTheQubit š Disclaimer: Thispost is shared on a personal basis and I do not represent any company | |||
| Error correction isnāt primarily blocked by physics anymore | 30 Jan 2026 | 00:49:18 | |
Itās blocked by design choices.ā That was one of thestrongest realizations from Part 2 of my deepdive with Ish Dhand, co-founder of QCDesign, on Beyond the Qubit. Most people talkabout fault-tolerant quantum computing as if itās a single problem. In reality, itās a design-space explosion. That reframed how Ithink about progress in quantum. What stood out to mein this part of the conversation: ⢠Hardware teamsdonāt struggle with one error, they struggle with many interacting imperfections at the same time ⢠Open-sourcesimulators can scale to thousands of qubits, but usually only by assuming very simplified error models ⢠Real hardware hasto deal with leakage, coherent errors, pulse timing, idling, cross-talk,Ā all at once ⢠Many of theseeffects only become visible at the scale of thousandsof physical qubits per logical qubit This is where QCDesign plays a unique role. Rather than bettingon a single error-correction code or architecture, they help hardware teams simulate realistic fault-tolerant systems beforebuilding them,Ā across platforms,codes, decoders, and noise models. What really changedmy perspective: Error correctionisnāt just about finding a better code. Itās aboutunderstanding where engineering effort actuallypays off. If leakage hurtsyour logical qubits more than erasures, why spend yearsoptimizing the wrong thing? If longer pulsesimprove gate fidelity but quietly destroy system performance through idlingerrors, whereās the realoptimum? These arenātacademic questions. They determine cost, timelines, and whether scaling is even feasible. One line from Ishreally stuck with me: Today, the cost of a truly useful fault-tolerantquantum computer is effectively infinite. The real progress is making that number finite, andthen bringing it down. That single sentencereframes the entire industry. In this episode, wego deep into: ⢠why decoding speedmatters as much as code efficiency ⢠why āsoftware willfix it laterā is usually the wrong mindset ⢠why logicalfidelity matters more than raw qubit counts ⢠and why faulttolerance is becoming a full-stack engineeringproblem If you care about how quantum computers will actually be built,Ā not just announced, Ā this conversation is worth your time. šļøBeyond the Qubit ā Part 2 with Ish Dhand šhttps://youtu.be/ugo3g1Mws2M #FaultTolerantQuantum#QuantumArchitecture #ErrorCorrection#QuantumSoftware #BeyondTheQubit Ā āØ@IshDhandā© āØ@QC_Designā© Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| āWhat does the ultimate computer look like under the laws of physics?ā | 23 Jan 2026 | 00:53:13 | |
Thatās the question Ish Dhand has been obsessed with for years. Itās also what ledhim from academia, to Xanadu, and now toco-founding QC Design. Iām excited to sharethat Ish is joining me on Beyond the Qubit. What struck me mostin our conversation wasnāt hype or timelines, it was how hard the problem really is. A few takeaways thatstayed with me: ⢠Fault-tolerantquantum computers arenāt blocked by a single breakthrough, but by thousands of interacting design decisions ⢠Error correctionisnāt just a physics problem, itās an architecture,control, and decoding problem all at once ⢠Many hardwareteams underestimate how early they needto think about fault tolerance ⢠Software canunlock orders-of-magnitude improvements,but only if itās grounded in realistic noise models and hardware constraints At one point, Ishdescribed QC Design as the Cadence / Synopsysof quantum computing. Not building thehardware itself, but helping hardware teams understand what theyāre actually building before they build it. What I appreciatedmost was his bias for action: ship early, getfeedback from real hardware teams, iterate fast, even when the problem space ismessy and incomplete. In this episode, wego deep into: ⢠how logical qubitsreally emerge from physical ones ⢠why differentqubit platforms face fundamentally different error profiles ⢠why āsoftware willfix it laterā is often the wrong mental model ⢠and what actuallyneeds to go right for fault-tolerant quantum computing to arrive If you care about how quantum systems are designed,Ā not just announced, Ā this is a conversation worth your time. šļøBeyond the Qubit,Ā episodewith Ish Dhand š (link) Ā #QuantumComputing#FaultTolerantQuantum #QuantumArchitecture #ErrorCorrection#QuantumSoftware #BeyondTheQubit Ā āØ@IshDhandā© āØ@QC_Designā© Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| QuEra Deep Dive interview Part 2 CCO Yuval Boger | 19 Dec 2025 | 00:57:57 | |
Quantumās āimpossible problemā is finally shiftingfrom science ā engineering. Ā In Part 2 of myconversation with Yuval Boger (CCO, QuEra)on Beyond the Qubit, we went deep into Error correction,Ā Scaling and the physics that will determine which platforms survive. Hereare the insights š Ā Ā Ā 1. Every qubit technology has a fundamental weaknessā¦until you correct it. Yuval put itbluntly: āQubitsare fragile. Everything in the universe wants to disturb them.ā Cosmic rays,vibrations, electromagnetic noise, even a gate failing 1 in 10,000 times becomes catastrophic when your algorithmrequires millions of operations. This is why error correction is the real battleground. Not qubit count. Not coherence time. Not marketingslides. This clicked for me:you donāt win by adding more qubits, you win byadding the right ones. Ā 2. Mobility changes everything about logical qubits. Most qubit platformsare fixed in place. Neutral atoms move, and that changes the math. Yuval gave a visualI canāt unsee: Two logical qubits,each made of five physical qubits. Static hardware? You must connectthem pair by pair, accumulating errorswith every handshake. Neutral atoms? ā”ļø Move the qubits physically ā”ļø Apply one pulse of light ā”ļø Create all interactionsin parallel Parallelism ā feweroperations Fewer operations āfewer errors Fewer errors ā farfewer physical qubits needed per logical qubit Neutral atoms arenātjust another modality, theyāre a differentscaling strategy. Ā 3. The telecom analogy that reframes the entirearchitecture I comparedsuperconducting qubits to fixed fiber and neutral atoms to wireless networks. Yuval extended itbeautifully: If the central nodefails, fixed-line users are stuck. Wireless? You movethe tower closer and reconnect. Neutral atomsprovide that same architectural freedom: Ā 4. Neutral-atom scaling isnāt PowerPoint. Itāsphysics. Many companies claimtheyāll scale. Yuval asked thequestion that matters: āAreyou relying on miracles, or engineering?ā Neutral atoms scalethrough: Scale-out acrossmachines? Possible. But what struck meis that scaling within a single system has aclear physics-based roadmap, unlike many competing architectures. Ā 5. Error correction is no longer theoretical, QuEra isdemonstrating it. Yuvalwalked through the early steps: Ā He didnāt revealtheir full roadmap, but the direction is unmistakable. Ā 6. Quantum is becoming practical and customers arevoting with usage, not words. Yuval shared severalsignals that quantum is crossing from research into industry: These arenātexperiments, theyāre real workloads on real systems. Talk is cheap; usageis not. Ā This isnāt hype. This is earlyindustrialization. Ā š¤ Which modality do you believe reaches fault-tolerant scale first? Neutral atoms?Superconducting? Trapped ions? Photonics? Or somethingcompletely different? Iād love to hearyour perspective. Ā #QuantumComputing,#QuantumTechnology #DeepTech, #BeyondTheQubit, #QuEra, #NeutralAtoms #QuantumHardware,#FutureOfComputing, #QuantumAdvantage, #RydbergAtoms, #TechInnovation #ScienceAndTechnology,#FrontierTech, #MIT, #Harvard, #Podcast Ā @Yuval Boger@QuEra Ā Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| Deep dive interview QuEra CCO Yuval Boger | 11 Dec 2025 | 00:50:22 | |
āQuantum computers today still canāt outperformclassical systems, and thatās exactly why this moment matters.ā That was one of thefirst things Yuval Boger (CCO, QuEra)told me during our deep dive on Beyond theQubit. And it genuinelyreframed how I look at the entire quantum industry. Hereāswhat most people miss š
Yuval explained thatwith fewer than ~50 perfect qubits, a supercomputer can simulate everythinganyway. So the currentsystems, noisy, small, early,Ā are notthe point. What matters is trajectory. QuEraās mission? ā”ļø Build quantum computers with hundreds, thousands, andeventually tens of thousands ofhigh-fidelity neutral-atom qubits. Because thatās where classical methodsbreak,Ā and quantum starts to matter. Ā 2. Neutral atoms donāt just improve quantum computing.They change the rules. Most qubittechnologies are manufactured. Neutral atoms are natural, identical, and stable at room temperature. A few thingssurprised me: This isnāttheoretical. Itās running today on AWS Braket. Ā 3. One advantage people underrate: MIT +Harvard ā QuEra Four founders camefrom MIT and Harvard. Two still contributeweekly. Neutral-atom systemsevolve fast in academia,Ā beingphysically close lets QuEra commercialize breakthroughs months or even yearsahead of competitors Ā That proximityenables: Itās an unfair advantage, in the best possible way. Ā 4. Yuvalās biggest lesson (and the most transferableone): customer curiosity Not physics. Not algorithms. Not hardware. ā”ļøCustomer curiosity. He listens not forwhat customers say today, but for what theyāll need 18 months from now. Itās a mindset thatcontributed to QuEraās roadmap. Ā #QuantumComputing,#QuantumTechnology #DeepTech, #BeyondTheQubit, #QuEra, #NeutralAtoms #QuantumHardware,#FutureOfComputing, #QuantumAdvantage, #RydbergAtoms, #TechInnovation #ScienceAndTechnology,#FrontierTech, #MIT, #Harvard, #Podcast Ā @Yuval Boger@QuEra Ā https://open.spotify.com/episode/1SyBtguc5fqEQe1PivVdrs?si=z0aHKAUrRFSnQddfSal2zQ Ā Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| QuEra, CCO Yuval BogerNeutral atoms just went from dark horse ā workhorse. | 08 Dec 2025 | 00:43:34 | |
This week on Beyond the Qubit, I sat down with Yuval Boger, CCO of QuEra, and he said something that hit me hard: āQuantum computers today are almost useless⦠butthatās exactly why now is the most exciting time.ā Ā Hereāswhat I learned š 1. Neutral atoms might be the first scalable path to real quantum advantage Most qubits aremanufactured. Neutral atoms are perfect by nature. No fabricationdefects. No calibrationbattles. No cryogenic fridgesthe size of a room. A laser tweezertraps each atom. A laser moves itwherever you want. A single laser pulsecan operate on multiple qubits in parallel. Ā This means: Itās wild. 2. Customer-first thinking is QuEraās secret weapon Before we eventouched physics, Yuval talked about⦠listening. Not to qubits. To customers. Ā Itās rare indeep-tech. And itās exactly whyQuEra builds things people actually use: This is no longeracademic curiosity. 3. Why QuEraās proximity to MIT & Harvard matters Four founders camefrom Harvard and MIT. Two are still deeply involved. And the labs areliterally a bike ride away. Ā This creates aflywheel: That speed ofiteration is something other modalities canāt replicate. 4. The big picture: error correction & scale Yuval gave a simpleanalogy: If youāre shoutingyour credit card number in the wind, you repeat eachdigit multiple times so it arrives correctly. Logical qubits workthe same way. And neutral atomsallow parallel operations between allphysical qubits in a logical block, something static qubits cannot do. Ā This dramaticallyaccelerates progress toward error-corrected systems. 5. The most important signal? āWeāve moved fromscientific challenges ā engineering challenges.ā Thatās how you knowa technology is about to break out. Transcript summaryQuEra Ā My takeaway Neutral atoms are nolonger the ādark horse.ā Theyāre becoming theworkhorse of quantum computing. And QuEra is notbuilding a B-2 bomber (beautiful but rare). Theyāre building theAirbus A350 of quantum: usable, scalable,and built for the real world. Ā If you want tounderstand how quantum will scale fromhundreds to tens of thousands of qubits, this episode is a must-listen. šļøEpisode link: Neutral atoms just went from dark horse āworkhorse. And it changes everything. Ā Ā Ā Ā Ā #QuantumComputing,#QuantumTechnology #DeepTech, #BeyondTheQubit, #QuEra, #NeutralAtoms #QuantumHardware,#FutureOfComputing, #QuantumAdvantage, #RydbergAtoms, #TechInnovation #ScienceAndTechnology,#FrontierTech, #MIT, #Harvard, #Podcast Ā @Yuval Boger@QuEra Ā Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| Part 2 deep dive interview Thomas Ohki | 28 Nov 2025 | 00:52:10 | |
The future of compute might not get hotter. It mightget colder. In Part 2 of my deep-dive with Thomas Ohki, CTO and co-founder of Emergence Quantum, we explored how cryogenic engineering could reshape everything we know about performance, scaling, andenergy use. Thomas and his teamare building control electronics that can operate close to absolute zero. Thesechips could solve one of the biggest bottlenecks in computing, bringingclassical and quantum systems together. What stood out mostto me in this conversation: Ā 1). Why scalingquantum systems isnāt about adding more qubits, but removing the IO bottleneck 2). How energyefficiency is becoming the next competitive frontier in AI and data centers 3). Why the nextgeneration of computing might evolve where itās cold, not hot Ā Thomas put it in away that stuck with me: āThenext revolution in compute might not be hotter. It might be cold.ā #BeyondTheQubit#QuantumComputing #CryoCMOS #AIHardware #DeepTech #EmergenceQuantum #Innovation#Podcast Ā š Disclaimer: This post is shared on a personal basis and I do not represent any company Ā The future of compute might not get hotter. It mightget colder. InPart 2 of my deep-dive with Thomas Ohki, CTO and co-founder of Emergence Quantum, we explored how cryogenic engineering could reshape everything we know about performance, scaling, andenergy use. Thomas and his teamare building control electronics that can operate close to absolute zero. Thesechips could solve one of the biggest bottlenecks in computing, bringingclassical and quantum systems together. What stood out mostto me in this conversation: Ā 1). Why scalingquantum systems isnāt about adding more qubits, but removing the IO bottleneck 2). How energyefficiency is becoming the next competitive frontier in AI and data centers 3). Why the nextgeneration of computing might evolve where itās cold, not hot Ā Thomas put it in away that stuck with me: āThenext revolution in compute might not be hotter. It might be cold.ā š§ Listento Beyond the Qubit āEmergence Quantum (Deep Dive Part 2) Ā š [Insert Spotify or YouTube link] Ā #BeyondTheQubit#QuantumComputing #CryoCMOS #AIHardware #DeepTech #EmergenceQuantum #Innovation#Podcast Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company Ā | |||
| Emergence Quantum CTO Thomas Ohki | 21 Nov 2025 | 00:57:16 | |
Inside Emergence Quantum: Engineering at the Edge ofCold Computing In the first part of my deep-dive interview, I sit down with Thomas Ohki, CTO andco-founder of Emergence Quantum. We explored how innovation really happens and why the future of computing might be colder than we think. Most people see quantum as a story about qubits. Thomas explains that the real breakthroughs might come from everything around them: the architecture, the materials, the cooling, the engineering. Before founding Emergence Quantum, Thomas worked at the frontiers of physics at Raytheon BBN and Microsoft Quantum. He brings a rare mix of scientific depth and hands-on engineering. What stood out most to me was his view on building and learning. āIf you want to build something truly new, you have to accept that failure is part of the process. The goal isnāt to avoid mistakes, itās to learn from themfaster than anyone else.ā š” Key insights from Part 1 š§ Cryogenic technology could redefine performance inAI and quantum systems āļø Engineering at cryogenic temperatures is essentialfor scaling quantum computers š§ Innovation depends as much on mindset as onphysics š§ Listento Beyondthe Qubit ā Part 1: Emergence Quantum (Deep Dive) Ā Ā #BeyondTheQubit#QuantumComputing #AIHardware #CryoCMOS #DeepTech #EmergenceQuantum #Innovation#Podcast Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| The Next Tectonic Shift in Compute Might Not Be Quantum, It Might Be Cold | 14 Nov 2025 | 00:37:09 | |
The Next Tectonic Shift in Compute MightNot Be Quantum, It Might Be Cold Everyone is talkingabout GPUs, AI, and compute power. But what if the next revolution isnāt about more energy, itās about less? In the new episode of Beyond theQubit, I sit down with Thomas Ohki, CTO of Emergence Quantum a startup born from the Microsoft Quantum team thatās now pioneering a newfrontier: cryo-CMOS and cryogenicelectronics. These are the systems that bridge todayās classical chips with tomorrowās quantum processors,the connective tissue between the hot and the cold, the digital and the quantum. And hereās the crazypart: āļø They built itwithoutexternal capital. No VC rounds. Nohype cycles. Just science, conviction, and partnerships. We talked about: Thomas saidsomething that stuck with me: āResearch isnāt engineering. Itās learning to fail productively.ā This episode will make you rethink what ācomputeā really means in a post-AI world. š§ Watch or listen here ā Ā Ā #BeyondTheQubit#QuantumComputing #DeepTech #AIHardware #CryoCMOS #Semiconductors #Innovation#Podcast Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| Pex Machina: Part two deep dive interview: CEO Matthias Kaiser | 07 Nov 2025 | 00:57:13 | |
The future of quantum is already touching patients In Part 2 of my deep-dive with MatthiasKaiser, CEO of Pex Machina, we explore how quantum simulationis changing drug discovery and why the next medical breakthroughs might comefrom software, not the lab. Pex Machinaāsmission is simple: help companies develop better cancer treatments. Quantum simulation is the tool that makes it possible, cutting the time, cost, and risk of new drug development. What impressed memost is how Matthias thinks about execution. He built a team that combines deep domain knowledge from pharma with real quantum expertise. They move fast, learn from every iteration, and build proof instead of PowerPoints. Matthias said something that stayed with me: āWeāre not building technology for technologyās sake. Weāre building tools that solve real problems.ā What stood out in this part of our conversation: š” Why precision medicine needs better simulationtools to scale š§ How pharma collaboration is about access andtrust, not just algorithms š Why execution speed and real-world validationmatter more than hype š§ Listento Beyondthe Qubit ā Pex Machina (Deep Dive Part 2) š [Insert Spotify or YouTube link] Ā Ā #BeyondTheQubit#QuantumComputing #PrecisionMedicine #DeepTech #Innovation #PexMachina #AI#DrugDiscovery Ā Please do not forget to check out the presentationfrom Matthias (CEO of Pex Machina) https://drive.google.com/file/d/18LwU4QNtl3nRDAIcPWQ9kb2VLintVQEY/view?usp=drive_link Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company | |||
| Why Olivier Ezratty Made His 1,500-Page Quantum Bible Guide Free | 03 Apr 2026 | 01:05:05 | |
Why is quantum computing still so hard to explain clearly, even for smart investors? In this episode of Beyond the Qubit, Frank Dekker sits down with Olivier Ezratty, one of the most respected independent voices in quantum technology. Olivier shares how he went from software engineering and Microsoft to becoming a key educator, researcher, and bridge builder across the quantum ecosystem. This conversation is for investors, founders, and deep tech professionals who want a clearer view of quantum computing without the hype. They discuss what sparked Olivierās obsession with the field, why so many people still explain quantum poorly, and what it really takes to understand the space across hardware, software, physics, and market reality. š” In this episode, we cover:
Chapters 00:00 Introduction to Olivier Ezratty 04:09 Olivierās background from software to Microsoft to deep tech 08:13 Why Olivier started creating long-form knowledge resources 33:09 What first sparked his interest in quantum computing 37:20 Olivierās goals: quantum energy, teaching, and Europe 40:07 Why Europe needs both strong research and strong startups 50:17 The biggest bottlenecks for the next five years š Resources / Links Follow Olivier Ezratty on LinkedIn: https://www.linkedin.com/in/ezratty/ Listen to all episodes: https://open.spotify.com/show/7HZpSCz1w7a782e1B26MYA Share this episode with someone investing in or building in quantum and make sure to subscribe or follow Beyond the Qubit for more conversations on quantum technology, markets, and investing. | |||
| Pex Machina Deep dive interview part 1: Matthias Kaiser | 31 Oct 2025 | 00:47:53 | |
Building the bridge between quantum and real-worldimpact In Part 1 of my deep-dive with MatthiasKaiser, CEO of Pex Machina, we talked about what it reallytakes to turn quantum research into something that matters. Matthias started out as a physicist but spent years working in business development before launching his startup. That mix of science and sales shaped how he looks at innovation. He learned early that many quantum companies start with the technology and then go searching for a problem. Pex Machina flips that logic. They start with real problems in oncology and use quantumsimulation as a tool, not as the story. Matthias put it simply: āWe donāt want to push quantum computing. We want to solve problems that matter.ā What I liked most about this conversation: š” How sales experience helps founders stay groundedin what customers actually need š§ Why quantum simulation could change how we developcancer treatments š Why the real challenge in deep tech isnāt science,itās product-market fit š§ Listento Beyondthe Qubit ā Pex Machina (Deep Dive Part 1) š YouTube link:Ā https://youtu.be/mvHWPsyjF9A #BeyondTheQubit#QuantumComputing #PrecisionMedicine #DeepTech #PexMachina #Innovation #Podcast Ā Please do not forget to check out the presentationfrom Matthias (CEO of Pex Machina) https://drive.google.com/file/d/18LwU4QNtl3nRDAIcPWQ9kb2VLintVQEY/view?usp=drive_link Ā š Disclaimer: This post is shared on a personal basis and I do not represent any company | |||
| Quantum meets oncology: building solutions that matter | 24 Oct 2025 | 00:34:33 | |
In the latest episode of Beyond theQubit, I spoke with Matthias Kaiser, CEO of Pex Machina. What struck me most is how focused he is on solving real problems instead of chasing thehype around quantum computing. Pex Machina develops quantumsimulations for precision medicine, helpingpharmaceutical companies design better cancer treatments faster. Matthias started as aphysicist but spent years in business development before launching his startup.That combination gives him a rare perspective ā one that blends deep sciencewith commercial discipline. He put it simply: āOur goal isnāt to push quantum computing. Itās to solve problems that matter topatients.ā What I liked mostabout this conversation: š” Quantum simulation as a bridge between AI,chemistry, and pharma š§ The role of precision medicine in making cancertreatment more personal š How real-world traction matters more thantheoretical breakthroughs Ā #BeyondTheQubit#QuantumComputing #PrecisionMedicine #DeepTech #PharmaTech #Innovation#PexMachina #Podcast Ā Please do not forget to check out the presentationfrom Matthias (CEO of Pex Machina) Ā https://drive.google.com/file/d/18LwU4QNtl3nRDAIcPWQ9kb2VLintVQEY/view?usp=drive_link Ā š Disclaimer: This post is shared on a personal basis and I do not represent any company | |||
| Part 2 Deep dive interview Quantum scout Olga Mamlyga | 17 Oct 2025 | 00:32:34 | |
š Quantum security is no longer a future problem Itās here. Today. When I sat down with Olga Mamlyga, co-founder of Quantum Scout Apps, one insight kept echoing: āHackersdonāt follow the rules. If you only protect one layer, theyāll find another.ā Olga is building a 7-layer quantum-secure network that protects every layer of the OSI stack: from physicalfiber to application logic. Not in ten years. Now. šKey takeaways fromthe conversation: ⢠Quantum KeyDistribution (QKD) isnāt enough,Ā itcovers a single layer and is too costly for large-scale rollout. ⢠Quantum threatslike store-now-decrypt-later mean thatdata stolen today can be cracked by tomorrowās quantum computers. ⢠Criticalinfrastructure: banking, power grids, hospitals,Ā needs protection before quantum decryption is practical. ⢠Even cryptonetworks are far less secure than we assume. š”Why it matters for investors & builders Ā If you care aboutwhere deep tech meets national security,this episode is a wake-up call. Letās make quantumsecurity visibleĀ before the threat is visible to everyone else. #BeyondTheQubit#QuantumComputing #Cybersecurity #QuantumNetworks #StoreNowDecryptLater#DeepTech Ā Please make sure tocheck Olga her presenation: Ā https://drive.google.com/file/d/1hN5a38MUbDyvP7CAobwNu1C1lnAzFq8n/view?usp=sharing Ā š Disclaimer: This post is shared on a personal basis and I do notrepresent any company. Ā #BeyondTheQubit#QuantumSecurity #CyberSecurity #DeepTech #StoreNowDecryptLater | |||
| Hackers donāt follow the book. If you only protect one layer, they willl go around it. | 10 Oct 2025 | 00:36:04 | |
š The next cyber-attack wonāt wait for quantum computers. On the new Beyond the Qubit I sat downwith Olga Mamlyga, co founder of Quantum Scout Apps. Her team builds physics-based quantum networks that secure all 7 layers of the internet stack far beyond what post-quantum cryptography can cover. āHackersdonāt follow the rules. If you protect only one layer, theyāll simply go aroundit.ā Why it matters now ⢠āStore-now,decrypt-laterā theft is already happening. ⢠Nation-stateactors are probing grids, hospitals, and crypto networks today. ⢠True QuantumNetworks can roll out on existing fiber tomorrowno decade-long wait. Quantum security isthe new digital backbone. How many layers ofyour organization are really safe? Ā #BeyondTheQubit#QuantumSecurity #CyberSecurity #DeepTech #StoreNowDecryptLater Ā Please make sure tocheck Olga her presentation: https://drive.google.com/file/d/1hN5a38MUbDyvP7CAobwNu1C1lnAzFq8n/view?usp=sharing Ā š Disclaimer: This post is shared on a personal basis and I do not represent any company. | |||
| Quantum cybersecurity isnāt 10 years away itās happening now. | 03 Oct 2025 | 00:29:52 | |
Please don't forget to check out the presentation from Olga: https://drive.google.com/file/d/1hN5a38MUbDyvP7CAobwNu1C1lnAzFq8n/view?usp=sharingQuantum cybersecurityisnāt 10 years away itās happening now. Jump to a section thatinterests you: ā©Chapters 00:00 Introduction āQuantum cybersecurity is already here 02:10 Meet OlgaMamlyga and True Quantum Networks (TQN) 05:30 From Ukraine toquantum: Olgaās journey into deep-tech security 09:15 Why āstore now,decrypt laterā attacks are an urgent threat 13:40 PQC vs QKD āwhat every decision-maker must understand 18:05 Defending all 7OSI layers with quantum networking 23:20 Hybrid AI +quantum cyberattacks: the next big risk 27:45 Deployingquantum networks today ā practical steps and timelines 32:30 Building aquantum-secure ecosystem for critical infrastructure 37:10 Investoroutlook: the business case for quantum cybersecurity 41:55 Final insights& key takeaways š¬ Whatās your view? ⢠Will post-quantum cryptography (PQC) be enough, ordo we need quantum key distribution (QKD)now? ⢠How urgent is the āstore-now, decrypt-laterā threat for yourindustry? š Share your thoughts, like the video, and subscribefor more deep-tech conversations on quantum computing, quantum networks, and criticalinfrastructure security. #QuantumCybersecurity#TrueQuantumNetworks #BeyondTheQubit #PQC #QKD #QuantumComputing#CriticalInfrastructure #AI #CyberSecurity #StoreNowDecryptLater š Disclaimer: This post is shared on a personal basisand I do not represent any company. | |||
| Classiq: Deep dive interview part 2 | 26 Sep 2025 | 00:35:41 | |
Beyond the Qubit ā Deep Dive with Amir Naveh,Co-Founder & CPO of Classiq (Part 2) Quantum computingwonāt succeed without a software layer that bridges research and hardware. InPart 2 of my conversation with Amir Naveh,co-founder and Chief Product Officer at Classiq,we dive into how software abstraction is unlocking real-world applications. From derivative pricing with banks to thedevelopment of a quantum copilot, Amirexplains why Classiq is becoming the āMicrosoft momentā for quantum ā creatingthe layer that will make hardware truly useful. š”What youāll learn inPart 2: ⢠Where Classiq fits in the quantum software stack ⢠Why abstraction is critical for building scalable quantum applications ⢠Real-world use cases: finance, optimization, and derivative pricing ⢠How Classiq integrates with IBM, IonQ, Quantinuum, Rigetti, NVIDIA, and others ⢠The role of AI in building the first quantum coding assistant ⢠Who will win in quantum: integrated hardware/software players or specialized software leaders? šWhy it matters: Just as Microsoftunlocked the PC revolution, Classiq is building the software foundation thatcould define the next tectonic shift in computing. š§ Listen to Part 2 now on Spotify, YouTube, or yourfavorite podcast app. #QuantumComputing#Classiq #BeyondTheQubit #QuantumSoftware #Investing #DeepTech #VentureCapital | |||
| Classiq: Deep dive part 1: Co founder Amir Naveh | 19 Sep 2025 | 00:39:18 | |
Beyond the Qubit ā Deep Dive with Amir Naveh, Co-Founder & CPO of Classiq Quantum computing wonāt reach its potential without scalable software. In Part 1 of this deep dive, I sit down with Amir Naveh, co-founder and Chief Product Officer of Classiq, the worldās leading independent quantum software company. From building satellites in Israelās defense industry to raising $170M for Classiq, Amir shares the lessons, beliefs, and breakthroughs shaping the next wave of quantum. š” What youāll learn in this episode: ⢠How Amirās background in the Israeli defense & space sector shaped his vision ⢠Why software is the true bottleneck in quantum computing ⢠How Classiq enables scalable programming beyond manual gate-level coding ⢠The founding story: from Talpiot, to IBM Quantum, to launching Classiq during COVID ⢠Why investors should pay close attention to the software layer of the quantum stack š Why it matters: Just like Microsoft unlocked the PC era, Classiq aims to create the software layer that makes quantum computers useful for finance, pharma, logistics, and beyond. š§ Available now on Spotify, YouTube, and all major podcast platforms. #QuantumComputing #Classiq #BeyondTheQubit #QuantumSoftware #DeepTech #Investing #VentureCapital | |||
| āWithout scalable software, quantum hardware is useless.ā | 11 Sep 2025 | 00:29:23 | |
Beyond the Qubit Summary interview with Amir Naveh, Co-Founder & CPO of Classiq Quantum computing wonāt transform industries without powerful software. In this episode, I sitdown with Amir Naveh, co-founder andChief Product Officer of Classiq, theworldās leading independent quantum software company. From buildingsatellites in Israelās defense sector to raising $170Mfor Classiq, Amir shares the lessons, beliefs, and breakthroughs that areshaping the future of quantum. š”What youāll learn inthis episode: šWhy it matters: Just as operatingsystems unlocked the PC revolution, abstraction and automation in quantumprogramming will determine who wins the next wave of computing. š§ Listen now on Spotify, YouTube, or your favoritepodcast app. #QuantumComputing#BeyondTheQubit #Classiq #QuantumSoftware #Investing #DeepTech #VentureCapital Ā š Disclaimer: This post is shared on a personal basis and does not represent any company | |||
| Koen Groenland Part 2 Deep dive interview | 05 Sep 2025 | 00:49:58 | |
š Logical Qubits, Machine Learning & the Future ofQuantum Applications When will quantumcomputers truly impact society? In part 2 of Beyond the Qubit with Koen Groenland, we dug deeper into applications ā and cleared up somemisconceptions along the way. š” Key takeaways: Koen put it simply: āQuantumcomputers wonāt replace classical ones. Theyāre special-purpose machines āpowerful only for very specific problems.ā Ā š Bonus: Donāt miss the presentation from Koen for a deeper dive intotheir vision and technology.Ā Ā https://drive.google.com/file/d/17XnSkwlj1IWm3xZgsqyDx9u2ExSp5aGJ/view?usp=sharing Ā Ā š Disclaimer: This post is shared ona personal basis and does not represent any company. @Koen Groenland #QuantumComputing #Quantum algorithms#BeyondTheQubit #Quantum Software #ScalingQuantum #VentureCapitalĀ #BlockchainĀ #BitcoinĀ #Quantum #Error correction Ā Ā š§ Listen to the full conversation here: Ā Youtube: https://youtu.be/ehubBArKRDs | |||
| Koen Groenland Part 1 Deep Dive interview | 29 Aug 2025 | 00:47:31 | |
ā” The Biggest Myth About QuantumComputers Most people think quantum computers are faster. The reality? Theyāre actually slower than your laptop. So why all the excitement? Because quantum unlocks new algorithms that solve problems classicalcomputers canāt touch ā from cracking encryption to simulating new medicines. In Beyond the Qubit, I spoke with KoenGroenland (Quantum Amsterdam, CWI, QSoft). His mission: Koen also shared a lesson I love: āSometimesthe best results come when you work smarter, not harder.ā š§ Full episode here: https://youtu.be/_DF-v-8MKZg Ā š Bonus: Donāt miss the presentation from Koen for a deeper dive into their vision and technology.Ā Ā https://drive.google.com/file/d/17XnSkwlj1IWm3xZgsqyDx9u2ExSp5aGJ/view?usp=sharing Ā Ā š Disclaimer: This post is shared ona personal basis and does not represent any company. @Koen Groenland #QuantumComputing #Quantum algorithms#BeyondTheQubit #Quantum Software #ScalingQuantum #VentureCapitalĀ #BlockchainĀ #BitcoinĀ #Quantum #Error correction Ā Chapters 00:00Introduction to Quantum Computing and KoenGroenland 02:45Navigating Between Academia and Industry 06:02The Evolution of Quantum Computing 10:20Misconceptions About Quantum Technology 12:44Understanding Quantum Algorithms 17:35Current Research and Future Aspirations 25:55The Role of Quantum Key Distribution 29:22Building a Quantum Ecosystem in Amsterdam 30:44Hardware Developments in Quantum Computing 41:01Future Applications of Quantum Technology 44:24The Impact of Quantum Computing on Blockchain | |||
| European DeepMind for quantum computing | 27 Mar 2026 | 00:29:44 | |
DeepMind helped transform AI by using games as a training ground. Evert van Nieuwenburg wants to build the European DeepMind for quantumcomputing. In my conversation with Evertvan Nieuwenburg on Beyond the Qubit, one idea stood out: What if games are not just a way to explain quantum computing, but a way tounlock it? Thatsounds playful. Butthe ambition is serious. DeepMindshowed that games could be much more than entertainment.They became structured environments for learning, experimentation, search, anddiscovery. Evertāsvision is that quantum computing may need something similar. Notjust better hardware. Notjust more qubits. Notjust lower error rates. It may also need a better playground for building intuition. Becausethe space of possible quantum circuits and quantum algorithms isenormous. Mostof it is noise. Usefulstructure is rare. Andintuition is hard to build. Thatis where quantumgames become interesting. Gamescreate structure. They give people rules, feedback, andgoals. And when a hard problem becomes game-like, it can become easier forhumans to explore and potentially easier for AI systems to learn from too. Thatis the part of the conversation I keep coming back to. Evertis not talking about games as a side project for outreach. He is pointing at a bigger idea: Europe may have a chance to build its own DeepMind for quantum computing notby copying AI exactly, butby creating the structured environments that help peopleand machines discover what matters in quantum. Thatis a bold vision. Andbold visions are usually where the interesting companiesbegin. Ā Ā #QuantumComputing #QuantumTechnology #AI #Gaming #DeepTech@evertvannieuwenburg š Disclaimer:This post is shared on a personal basis and I do not represent any company | |||
| Summary interview Koen Groenland | 21 Aug 2025 | 00:35:27 | |
"Quantum computers arenāt fast ā theyāre slow, error-prone, and difficult to scale. So why do experts like Koen Groenland believe they could still transform entire industries? Find out in this episode of Beyond the Qubit."In this episode, Frank Dekker speaks with Koen Groenland ā physicist, PhD from CWI, author of Introduction to Quantum Computing for Business, and innovation officer at the University of Amsterdam. Koen has spent years at the intersection of academia and entrepreneurship, helping to translate quantum research into real-world applications while growing the Dutch start-up ecosystem through Quantum Amsterdam.Koen explains: ⢠Why quantum computers arenāt āfaster computersā but something fundamentally different. ⢠How quantum algorithms, not hardware speed, will drive breakthroughs. ⢠Why error correction is the biggest bottleneck ā and what new approaches like surface codes and low-density parity check codes could mean for future platforms. ⢠How encryption and blockchain could be impacted when hardware and algorithms finally meet. ⢠Why he believes the Netherlands can become a global hub for quantum technology. Please check out the presentation from Koen: https://drive.google.com/file/d/17XnSkwlj1IWm3xZgsqyDx9u2ExSp5aGJ/view?usp=sharing Youtube: | |||
| Delft Circuit: CEO Sal Jua Bosman Part 2 Deep Dive interview | 18 Jul 2025 | 01:03:17 | |
š§ From āfrozen-spaghettiā coax to CryoFlexĀ® loaders Delft Circuits just previewed its new roadmap, and quantum cabling is starting to look a lot morelike advanced PCB engineering than lab-bench plumbing. Key takeaway: I/O is no longer anafter-thoughtāitās the in-memory data highwaythat determines whether your 1 000-qubit machine even boots. Ā šø Why investors should keep an eye on cryogenic I/O Reason What it means CAPEX sponge Cabling can swallow 10-20 % of a quantum computerās build cost. Channel counts are about to doubleāunless you move to CryoFlex ribbons. 1 000-qubit threshold Above ~1 k physical qubits, coax becomes a thermal & mechanical nightmare. Superconducting flex wins on heat leak and reliability. Early-mover moat NbTi-on-flex process, on-ribbon filters, and a Delft foundry now opening to select partners. Ā š Sound bites from my chat with CEO Sal Bosman Ā ā¢"Collaboration is key in advancing quantum technology." ⢠"Customeradoption is gradual but shows strong momentum." ⢠"Investing inquantum presents unique opportunities." Ā ā© Want the full context? Skip to the chapterthat matters for you: Chapters 00:00 Introductionto Quantum Technology and Its Potential 00:59Delft Circuit:Innovations in Cryogenic I.O. 03:37Product Roadmapand Technological Advancements 06:40Challenges inProduct Innovation and Quality Control 08:27Collaborationand Co-Creation in Quantum Technology 10:28Superconductorsand Their Importance in Quantum Computing 12:41IntegratedFilters and Their Role in Quantum Systems 13:42Comparing FlexTechnology to Coax Cables 14:49Impact ofGovernment Subsidies on Quantum Industry 16:27Delft Circuit'sRoadmap and Future Technologies 19:06Product andService Offerings of Delft Circuit 22:24Sales Strategyand Market Dynamics 26:01CustomerAdoption and Market Demand 31:45InvestorInsights and Business Momentum 35:53Market Size andCompetitive Landscape 41:12Future DemandDrivers in Quantum Technology 43:22Team Dynamicsand Company Culture 49:03Long-termVision and Must-Win Battles 50:40Valuation andMarket Potential 55:06Funding Needsand Future Growth 56:57Conclusion andInvestment Opportunities Ā Cablingjust became the gatekeeper to large-scale quantum. šāļø Ā Ā š Bonus: Donāt miss the Delft Circuits presentation for a deeper dive into their vision andtechnology.Ā https://drive.google.com/file/d/1sjqw_2tKvrkfvD9PBUux50a5WSy4Wy4N/view?usp=sharing š Disclaimer: This post is shared on a personal basisand does not represent any company. @Sal Jua Bosman @ DelftCircuits #QuantumComputing#Cryogenics #DeepTech #BeyondTheQubit #DelftCircuits #QubitInfrastructure#ScalingQuantum#VentureCapital
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| Deep dive interview part 1 Delft Circuits: CEO Sal Jua Bosman | 10 Jul 2025 | 01:06:25 | |
āYou canāt scale quantum with cables designed for roomtemperature.ā Please check out the presentation from Sal Jua Bosman CEO Delft Circuitshttps://drive.google.com/file/d/1sjqw_2tKvrkfvD9PBUux50a5WSy4Wy4N/view?usp=sharing š āYou canāt scale quantum with cables designed for room temperature.ā In Part 1 of my conversation with Sal Jua Bosman, CEO ofDelft Circuits, we explore the sub-4 Kelvin world ā where conventional hardware solutions break down, and true innovation happens in the cold. šļø Delft Circuits builds infrastructure for quantumsystems. Not just wires ā but flexible, fully integrated cryogenic I/O (Cri/oFlexĀ®) that reduce thermal load and enable control overhundreds or even thousands of qubits. Sal shares openly: š āAt some point, your bottleneck isnāt the qubit āitās the cable.ā Whether youāreinvesting, building, or teaching in deep tech ā this episode reveals the unseen infrastructure challenges in quantum computing, and how Delft Circuits is solving them. @Sal Jua Bosman @ DelftCircuits #QuantumComputing#Cryogenics #DeepTech #BeyondTheQubit #DelftCircuits #QubitInfrastructure#ScalingQuantum | |||
| Inside the I/O Backbone of Quantum Computers. Delft Circuits CEO Sal Jua Bosman | 03 Jul 2025 | 00:37:17 | |
Don't forget to check out the presenation from CEO Sal Jua Bosman Delft Circuits https://drive.google.com/file/d/1sjqw_2tKvrkfvD9PBUux50a5WSy4Wy4N/view?usp=sharing Interview with CEO Sal Jua Bosman from Delft Circuits In this episode, I speak with SalJua Bosman, CEO of Delft Circuits ā a pioneering company tackling one ofquantum computingās biggest bottlenecks: **cryogenic I/O**. āļøā” As quantum computers scale, getting signals in and outof ultra-cold environments becomes a critical challenge. Sal explains how DelftCircuitsā CryoFlex⢠technology offers a scalable, reliable, and thermallyefficient solution ā potentially becoming *the standard* in this crucial partof the quantum value chain. š¹ Why cryogenic I/O matters for quantum computingĀ š¹ How Delft Circuits helps reduce complexity, failurepoints, and heat loadĀ š¹ Insights on scaling quantum systems beyond 1,000qubitsĀ š¹ Broader relevance: applications in aerospace, HPC,and AIĀ š” Sal also shares his personal journey ā from buildingwireless sensor networks in 2006 to leading one of Europeās most strategicquantum scale-ups today. š§ Listen now and explore the future of quantumhardware, thermal engineering, and scaling. Ā š Disclaimer: This post is shared on a personal basisand does not represent any company. Ā #BeyondTheQubit #QuantumComputing #Cryogenics#DelftCircuits #DeepTech #AI #QubitScaling #QuantumHardware Ā @Sal Jua Bosman @ DelftCircuits | |||
| Qblox CEO Niels Bultink. Deep dive interview part 2 | 27 Jun 2025 | 00:23:58 | |
šPart 2 is live:Scaling QuantumāInside the Mind of Qblox CEO Niels Bultink šļø In this episode of Beyond the Qubit, I dive deeper into the heartof quantum control electronics with Niels Bultink, CEO of Qblox, one of the most essential enablers inthe global quantum computing stack. š”What makes Qbloxunique? āļø 120+ customers and 150+ FTEs āļø One of the few companies with significant revenue before the quantum age truly begins āļø Their processor is lean, fast, and alreadyreshaping how we control qubits š„ What stood out? š§© If you want to understand the real bottlenecks to scaling to millions of qubitsāand why thecontrol layer is becoming the gatekeeperādonāt miss this one. š§ Listen now ā [insert Spotify link] Ā š Bonus: Donāt missthe Qblox presentation for a deeper dive into their visionand technology.Ā https://drive.google.com/file/d/1OAo5FEfVqCpW1p4q_WJvRcKJnTPwzT1S/view?usp=sharing Ā @NielsBultink, @Qblox Ā š Disclaimer: This post is shared on a personal basisand does not represent any company. Ā Ā #BeyondTheQubit#QuantumComputing #Qblox #CryoControl #TechPodcast #QuantumTechnology#QuantumHardware #DeepTech #Photonics #Delft | |||
| Deep Dive interview Part 1 Qblox CEO Niels Bultink | 20 Jun 2025 | 00:33:46 | |
š Bonus: Donāt miss the Qblox presentation for a deeper dive into their vision andtechnology.Ā ā https://drive.google.com/file/d/1OAo5FEfVqCpW1p4q_WJvRcKJnTPwzT1S/view?usp=sharingā Summary In this episode of Beyond the Qubit, host Frank Dekker interviews Niels Bultink, CEO of Qblox, a company focused on developing control systems for quantum computing. They discuss the transformative potential of quantum technology, its societal benefits, and the unique position of Qblox within the quantum technology landscape. Niels shares insights into the challenges of scaling quantum systems, the importance of innovation, and the competitive environment in the quantum tech industry. Takeaways⢠Quantum technology has the potential to reshape society.⢠Qblox focuses on the control stack in quantum computing.⢠The importance of high standards and team culture in startups.⢠Quantum technology applications span various fields, including medicine and energy.⢠Error correction is crucial for the advancement of quantum systems.⢠The control systems developed by Qblox are essential for driving quantum bits.⢠Qblox aims to reduce costs and increase the density of quantum systems.⢠The competitive landscape includes both specialized companies and in-house developments by tech giants.⢠Speed of innovation is key to maintaining a competitive edge.⢠Qblox has a significant number of customers, indicating market demand. Sound Bites⢠"We chose the control stack as our focus."⢠"We need to create those interactions."⢠"We now serve over 120 customers." Chapters00:00 Introduction to Quantum Technology and Qblox06:37 The Importance of Quantum Technology for Society12:44 Diving into Qblox: Mission and Technology18:56 Understanding Qblox' Control Systems24:34 Challenges and Competitive Landscape in Quantum Technology | |||
| Quantum Control at Scale ā Qblox CEO Niels Bultink on Building a Quantum Tech Leader (Summary) | 13 Jun 2025 | 00:29:44 | |
What does it take to lead a quantum tech company at the forefront of scalable quantum computing? In this episode of Beyond the Qubit, we speak with Niels Bultink, co-founder and CEO of Qblox, a leading supplier of modular quantum control systems with over 120 global customers. šÆ Topics we explore:
š” If you're following the quantum computing ecosystem ā this episode is essential. š Keywords: quantum computing, quantum control, quantum hardware, deep tech, venture capital, Qblox, superconducting qubits, scalable quantum systems šļø Listen now and subscribe for more conversations at the edge of quantum innovation. š Listen on Spotify #QuantumComputing #DeepTech #QuantumControl #Qblox #BeyondTheQubit #QuantumTechnology #VentureCapital Please check out the presentation from Qblox: ā ā https://drive.google.com/file/d/1OAo5FEfVqCpW1p4q_WJvRcKJnTPwzT1S/view?usp=sharingā ā | |||
| Deep dive interview part 2: CEO IQM Jan Goetz | 05 Jun 2025 | 00:39:55 | |
Deep dive interview part 2: CEO IQM Jan Goetz | |||
| Deep dive interview part 1: CEO IQM Jan Goetz | 30 May 2025 | 00:43:32 | |
Please check out the presentation: | |||
| Summary: Interview CEO IQM Jan Goetz | 23 May 2025 | 00:36:17 | |
Please check out the presentation of IQM | |||
| What if games are not just a way to explain quantum, but a way to build real quantum intuition? | 20 Mar 2026 | 00:40:31 | |
What if games are not just a way to explain quantum, but a way to build realquantum intuition? Thatmay sound playful, but the idea is serious. Onereason DeepMind changed the direction of AI is that ittreated games as more than entertainment. They became environments forlearning, experimentation, search, and discovery. Thatmatters for quantum computing too. Becausein quantum, the challenge is not only building betterhardware. It is also learning how to navigate an enormous space of possiblequantum circuits, quantum algorithms, and interactions. Mostof that space is noise. Usefulstructure is rare. Andintuition is hard to build. Thatis where games become interesting. Gamescreate rules, feedback, and goals. They give people a morestructured way to explore complexity. Andif a quantum problem can be turned into somethinggame-like, it may become easier for humans to experiment, easier for creativethinkers to engage, and potentially more accessible to AI methods that havealready proven powerful in game environments. Thatis why this conversation stood out to me. Maybegames can do for quantum computing what they once did forAI: notsolve everything, butcreate the interface that helps people discover whatmatters. Part 2 with Evert van Nieuwenburg is out now on Beyond the Qubit. Do you think games could become a real tool for quantum research andquantum algorithm discovery, or will they remain mostly educational? #QuantumComputing #QuantumAlgorithms #QuantumResearch #AI #Gaming#DeepTech #BeyondTheQubit | |||
| Deep dive interview part 2: Single Quantum COO Dr. Jessie Qin-Dregely | 16 May 2025 | 01:01:10 | |
Please check out the presentation from Single Quantum: Ā https://drive.google.com/file/d/1MPjXMIX6Edx7dI9uI85x13FR1opUNO1X/view?usp=drive_link Ā | |||
| Deep dive interview part 1: Single Quantum COO Dr. Jessie Qin-Dregely | 09 May 2025 | 00:53:44 | |
Please check out the presentation from Single Quantum: Ā https://drive.google.com/file/d/1MPjXMIX6Edx7dI9uI85x13FR1opUNO1X/view?usp=drive_link | |||
| Summary Single Quantum COO Dr. Jessie Qin-Dregely | 17 Apr 2025 | 00:32:53 | |
| Deep dive interview part 2: Groove Co-founder & CTO Nico Hendrickx | 11 Apr 2025 | 01:12:43 | |
Make sure to checkout the presentation from Groove CTO and Co-founder Nico Hendrickx Ā https://drive.google.com/file/d/1BTvKDm5327qf_LK9N-Jau_mFqPXPPFJZ/view?usp=sharing | |||
| Deep dive interview part 1: Groove Co-founder & CTO Nico Hendrickx | 04 Apr 2025 | 00:54:36 | |
Make sure to checkout the presentation from Groove CTO and Co-founder Nico Hendrickx Ā https://drive.google.com/file/d/1BTvKDm5327qf_LK9N-Jau_mFqPXPPFJZ/view?usp=sharing | |||
| Summary Groove CTO Nico Hendrickx | 27 Mar 2025 | 00:33:49 | |
Make sure to checkout the presentation from Groove CTO and Co-founder Nico Hendrickx Ā https://drive.google.com/file/d/1BTvKDm5327qf_LK9N-Jau_mFqPXPPFJZ/view?usp=sharing | |||
| Deep Dive Interview part 2: Q*bird CEO Ingrid Romijn | 21 Mar 2025 | 00:50:38 | |
Please check out thepresentation from Ingrid: https://drive.google.com/file/d/1ekfBjpmkLHNeV7SILDS3mptHPJOZ6e-o/view?usp=drive_link #Quantum technology #startup #Quantum encryption # cybersecurity #Q*Bird #Ingrid Romijn | |||
| Deep Dive Interview part 1: Q*Bird Ingrid Romijn | 14 Mar 2025 | 00:59:35 | |
Deep dive part 1: Interview CEO Q*Bird Ingrid Romijn. Please check out the presentation from Ingrid: https://drive.google.com/file/d/1ekfBjpmkLHNeV7SILDS3mptHPJOZ6e-o/view?usp=drive_link | |||
| Summary Q*Bird: CEO Ingrid Romijn | 07 Mar 2025 | 00:36:30 | |
Summary Interview CEO Q*Bird Ingrid Romijn. Please check out the presentation from Ingrid: https://drive.google.com/file/d/1ekfBjpmkLHNeV7SILDS3mptHPJOZ6e-o/view?usp=drive_link | |||
| Deep Dive Interview part 2: Founder Orange Quantum Systems Adriaan Rol | 28 Feb 2025 | 00:56:29 | |
Please check out the presentation from the founder Adriaan Rol. https://drive.google.com/file/d/1aq84jiWMpUu_5Dem-WDHxhQ6ZP3ZztE0/view?usp=sharing | |||
| Could games help unlock the next phase of quantum computing? | 13 Mar 2026 | 00:45:27 | |
In Part 1 of my conversation with Evert van Nieuwenburg on Beyond the Qubit, weexplored whether games could help unlock the next phase of quantum computing. Thatmay sound playful, but the idea is serious. Gamescreate structure. They make complex systems easier toexplore, help people build intuition, and may open the door to more creativeways of thinking about quantum problems. If a quantum problem can be shaped into something game-like, it may alsobecome more accessible to AI methods that have already proven powerful in gameenvironments. WhatI found most interesting is that this is not just abouteducation. It is about creativity, interaction, and discovery. Sometimesthe next breakthrough starts when more people can actuallyengage with a technology. Thatis what made this conversation with Evert stand out to me. Ā Here are thelinks: Youtube: Ā Ā #QuantumComputing #QuantumTechnology #AI #Gaming #DeepTech@evertvannieuwenburg š Disclaimer:This post is shared on a personal basis and I do not represent any company | |||
| Deep Dive interview part 1: Founder Orange Quantum Systems Adriaan Rol | 21 Feb 2025 | 01:01:02 | |
Please check out the CEO of Orange Quantum Systems' presentation. https://drive.google.com/file/d/1aq84jiWMpUu_5Dem-WDHxhQ6ZP3ZztE0/view?usp=drive_link | |||
| Summary Orange Quantum Systems: Founder Adriaan van Rol | 14 Feb 2025 | 00:35:07 | |
Please check out the CEO of Orange Quantum Systems' presentation. https://drive.google.com/file/d/1aq84jiWMpUu_5Dem-WDHxhQ6ZP3ZztE0/view?usp=drive_link | |||
| Deep Dive part 2: Interview CEO Quantware Matthijs Rijlaarsdam | 07 Feb 2025 | 00:44:14 | |
Interview CEO Quantware. Matthijs created a presentation that provides visual support to the interview: https://drive.google.com/file/d/1Zq05u2Yx07kxO4Xj9ge8-X-TcOS-5OZl/view?usp=sharing
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| Deep Dive part 1: CEO Quantware Matthijs Rijlaarsdam | 31 Jan 2025 | 00:55:42 | |
Interview CEO Quantware. Matthijs created a presentation that provides visual support to the interview: https://drive.google.com/file/d/1Zq05u2Yx07kxO4Xj9ge8-X-TcOS-5OZl/view?usp=sharing
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