PsiQuantumMercedes Gimeno-Segovia, Sr Director of Quantum Architecture at PsiQuantum, discusses architectures for fault-tolerant quantum computing with photonics in the newly-introduced fusion-based quantum computing paradigm at Quantum Research Seminars Toronto. Fusion-based quantum computing presents a new framework for fault-tolerant quantum computation, focused on the efficient integration of quantum error correction and physical-level hardware operations. #QRST
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
Fault-tolerant quantum computing with photonics | Mercedes Gimeno-SegoviaPsiQuantum2021-07-20 | Mercedes Gimeno-Segovia, Sr Director of Quantum Architecture at PsiQuantum, discusses architectures for fault-tolerant quantum computing with photonics in the newly-introduced fusion-based quantum computing paradigm at Quantum Research Seminars Toronto. Fusion-based quantum computing presents a new framework for fault-tolerant quantum computation, focused on the efficient integration of quantum error correction and physical-level hardware operations. #QRST
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.Mercedes Gimeno Segovia - Q2B23 Silicon Valley 2023PsiQuantum2024-01-31 | ...Sam Pallister - Q2B23 Silicon Valley 2023PsiQuantum2024-01-31 | It is no longer a contrarian position that quantum computers require fault tolerance for useful applications. However, even in this regime it is incumbent on us to make concrete statements about: (i) how difficult algorithms are to run on a prespecified piece of hardware; (ii) how much improvement we can expect with better compilation of those algorithms; and (iii) whether we can broaden utility of that hardware by unlocking new algorithms. In this talk, we will discuss PsiQuantum’s recent efforts in tackling these problems, both in terms of building new algorithms but also in developing tools to help expedite the process.Fault tolerant quantum computing with photons | Q2B SV 2022 | Naomi NickersonPsiQuantum2023-11-03 | A quantum architecture for fault tolerant quantum computing with photons defines how basic components (such as beamsplitters, and photon detectors) are assembled together.
From low level physical operations, through to quantum error correction and eventually compilation of algorithms to logical gates.
The design can dramatically change the tolerance to device imperfections, photon loss, and system size needed for error correction, improvements that are needed for utility scale quantum computing to be feasible. · In this talk, Naomi looks at some of the recent advances in quantum architecture at PsiQuantum which have improved error tolerance and reduced the resources required for computation.Silicon Photonic Quantum Computing – Towards Large-Scale Systems | Q2B SV 2022 | Pete ShadboltPsiQuantum2023-11-03 | Many efforts around the world are now pursuing the ambitious goal of utility-scale, fault-tolerant quantum computing. Consistent themes are emerging across the field, as teams attempt to scale from existing small systems to the millions of qubits needed for useful applications. Systems partitioning, manufacturability, cooling power, networking, and control electronics are recurring challenges across all qubit technologies.
PsiQuantum has pursued a photonic approach, based on qubits implemented using optical photons propagating in lithographically fabricated waveguides. In this talk we will give a broad overview of recent technical progress, framed against these major scaling challenges. We will describe progress at the micro, meso, and macro-scale, including high-throughput test, semiconductor manufacturing, device performance, integration, packaging, control, and cryogenic systems. We will also present new architectural results pertaining to fault-tolerant compilation.Silicon Photonic Quantum Computing towards Large-scale Systems | Quantum Australia | Jeremy OBrienPsiQuantum2023-11-03 | ...UNSW Gerald Westheimer Lecture 2023 | Jeremy OBrienPsiQuantum2023-11-03 | Jeremy O'Brien delivers a 20–30-minute keynote on his origin story – where he came from, how he got into science, what made him want to study quantum physics, and starting PsiQuantum.Greater than the sums of their parts - Quantum, Robotics, and AI | Future Work Summit 2022PsiQuantum2022-05-09 | When AI and robotics meet quantum, the possibilities will fuel imaginations, unlock insights, power innovation and challenge societies. What does the future really hold and what are the skills we will require to harness the potential constructively?
4:43 Dr. Jeremy O'Brien 7:21 Future of Work - Introduction to PsiQuantum 8:06 Quantum computers 11:29 Silicon Photonics 13:48 Semiconductor Manufacturing 14:36 Qubits 18:00 Working in Quantum Computing 19:16 Semiconductor Manufacturing
22:13 Dr. Sue Kaey 22:56 Why does Australia develop robotic technologies? 23:21 Outdoor AI 25:26 Robot Interactions 26:55 How we respond emotionally to our robotic helpers? 29:41 Will robots take our jobs?
32:30 Professor Toby Walsh 36:21 Practical and commercial applications 40:00 Impact on workforce
47:11 Emeritus Professor Christina Slade 49:52 Private and Public
1:00:22 Q&A
SPEAKERS Dr Jeremy O’Brien, CEO PsiQuantum Dr Sue Keay, Founder and Chair of Robotics Australia Professor Toby Walsh, Laureate Fellow and Scientia Professor of Artificial Intelligence, University of New South Wales Emeritus Professor Christina Slade, Member of the University Council, Charles Sturt University
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.COP26 | Session 2: Potential for transformative climateaction in the nutrition & health value chainPsiQuantum2021-11-23 | COP 26 United Nations Climate Change – Global Innovation Hub
November 8, 2021 – Session 2: Potential for transformative climate action in the nutrition & health value chain
PsiQuantum CEO Jeremy O’Brien joined NGO and UN leaders in a panel discussion on why is imperative that leaders in business, technology, governments and NGOs work together to create and deploy new technologies as quickly as possible to solve some of the world’s biggest challenges, including decarbonization at scale.
Moderator: Dr. Jim Woodhill, University of Oxford, UK Panelists: • Tom Bruulsema, Chairman of the Scientific Panel on Responsible Plant Nutrition • Lesley Mitchell, Associate Director for Sustainable Nutrition, Forum for the Future • Oumar N’Diaye, Business Development Director Africa, Nutrition International • Anitha Seetha, Senior Scientist, International Crops Research Institute for the Semi-Arid Tropics • Jeremy O’Brien, CEO, PsiQuantum
Synergy between achieving climate goals and improving nutrition. 00:22:43 - Tom Bruulsema 00:24:07 - Anitha Seetha 00:25:40 - Oumar N’Diaye 00:30:16 - Lesley Mitchel 00:33:44 - Jeremy O’Brien 00:39:19
Radically different ways of feeding the world in a more nutritious & environmentally sustainable way vs. tweaking the basic structure we have.00:40:44 - Jeremy O’Brien 00:41:45 - Tom Bruulsema 00:45:30 - Lesley Mitchel 00:48:28 - Oumar N’Diaye 00:50:51
Developing an integrated approach towards value change. 00:51:50 - Lesley Mitchel 00:52:51 - Oumar N’Diaye 00:54:46 - Tom Bruulsema 00:55:08 - Anitha Seetha 00:56:34
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.Computing Technology at a Tipping PointPsiQuantum2021-07-20 | Jeremy O'Brien, co-founder and CEO of Psi Quantum, discusses photonic quantum computing at the World Ecomomic Forum, addressing how governments and business players are preparing for the quantum future.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.MIT Technology Review: The Race to a Million-Qubit Quantum ComputerPsiQuantum2021-07-20 | Jeremy O’Brien, the co-founder and CEO of PsiQuantum discusses quantum computing with Elizabeth Bramson-Boudreau, CEO of the MIT Tech Review and Peter Barrett, founder and general partner at Playground Global, at the MIT Tech Review Future Compute Conference.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.Silicon photonic quantum technologies | Mark ThompsonPsiQuantum2021-07-20 | Mark Thompson, co-founder and Chief Technologist at PsiQuantum gives his talk titled "Silicon photonic quantum technologies" - from day one of BQIT:18.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.Measurement based fault tolerance beyond foliation | Naomi NickersonPsiQuantum2021-07-20 | Naomi Nickerson presents, “Measurement-based fault tolerance beyond foliation” to QEC'19 - the 5th International Conference on Quantum Error Correction at Senate House in London.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.Fusion-based quantum computation | QIP2021 | Mihir PantPsiQuantum2021-07-20 | Mihir Pant, Quantum Computing Architect at PsiQuantum, discusses PsiQuantum’s Fusion-based quantum computation (FBQC) approach to fault tolerance.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.
To learn more, visit www.psiquantum.com.How to stop worrying and love the photons | Terry RudolphPsiQuantum2021-07-20 | Terry Rudolph, co-founder and Chief Architect at PsiQuantum, discusses quantum computing using photonics in a talk entitled, “How to stop worrying and love the photon” to Qubit, Israel’s quantum computing community.
About PsiQuantum Powered by breakthroughs in silicon photonics and fault-tolerant quantum architecture, PsiQuantum is building the first utility-scale quantum computer to solve some of the world’s most important challenges. PsiQuantum’s approach is based on photonic qubits, which have significant advantages at the scale required to deliver a fault-tolerant, general-purpose quantum computer. With quantum chips now being manufactured in a world-leading semiconductor fab, PsiQuantum is uniquely positioned to deliver quantum capabilities that will drive advances in climate, healthcare, finance, energy, agriculture, transportation, communications, and beyond.