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DTSTART;TZID=Europe/Madrid:20240604T160000
DTEND;TZID=Europe/Madrid:20240604T170000
DTSTAMP:20260604T100410
CREATED:20240524T080643Z
LAST-MODIFIED:20240529T085333Z
UID:755-1717516800-1717520400@www.talentq.es
SUMMARY:TalentQ Seminar - Javier Robledo\, Research Scientist at IBM
DESCRIPTION:Title: Chemistry Beyond Exact Solutions on a Quantum-Centric Supercomputer \nAbstract: A universal quantum computer can be used as a simulator capable of predicting properties of diverse quantum systems. Electronic structure problems in chemistry offer practical use cases around the hundred-qubit mark. This appears promising since current quantum processors have reached these sizes. However\, mapping these use cases onto quantum computers yields deep circuits\, and for for pre-fault-tolerant quantum processors\, the large number of measurements to estimate molecular energies leads to prohibitive runtimes. As a result\, realistic chemistry is out of reach of current quantum computers in isolation. A natural question is whether classical distributed computation can relieve quantum processors from parsing all but a core\, intrinsically quantum component of a chemistry workflow. In this seminar\, I will discuss the incorporation of quantum computations of chemistry in a quantum-centric supercomputing architecture\, using up to 6400 nodes of the supercomputer Fugaku to assist a Heron superconducting quantum processor. We simulate the N2 triple bond breaking in a correlation-consistent cc-pVDZ basis set\, and the active-space electronic structure of [2Fe–2S] and [4Fe–4S] clusters\, using 58\, 45 and 77 qubits respectively\, with quantum circuits of up to 10570 (3590 2-qubit) quantum gates. \nRegister: https://events.teams.microsoft.com/event/62638123-b208-4684-bec3-05953fc09253@8f0d452c-b7a4-4964-b810-8c397374477b \n 
URL:https://www.talentq.es/es_es/evento/talentq-seminar-javier-robledo/
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ORGANIZER;CN="TalentQ":MAILTO:javier.bouzas.arufe@usc.es
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DTSTART;TZID=Europe/Madrid:20240611T160000
DTEND;TZID=Europe/Madrid:20240611T170000
DTSTAMP:20260604T100410
CREATED:20240529T084952Z
LAST-MODIFIED:20240605T083803Z
UID:766-1718121600-1718125200@www.talentq.es
SUMMARY:TalentQ Seminar - Antonio Rubio\, Postdoctoral Researcher at ICFO
DESCRIPTION:TITLE: QUIONE: A quantum simulator based on ultracold strontium atoms \nABSTRACT: Neutral atoms have a wide range of applications in quantum science and technology. Strontium atoms\, in particular\, are popular for their use as atomic clocks in the field of quantum metrology. But recently\, their preparation in optical lattices and tweezers has also been exploited for quantum simulation and quantum computing. In this talk I will present QUIONE: an analog quantum simulator able to detect individual strontium atoms. The experiment\, built at ICFO\, constitutes the first strontium quantum-gas microscope. This means that we can prepare quantum-degenerate gases in an optical lattice and detect them with single-site resolution. By using a bosonic isotope\, we can realize the Bose-Hubbard model and use our microscope to prepare and detect superfluid phases of matter. Finally\, I will also show that\, by switching to a different isotope of strontium\, we can prepare fermionic gases\, and will soon allow us to study the exotic phases of the SU(N) Hubbard model. \n  \nRegister here: https://events.teams.microsoft.com/event/383576de-ab40-4cb2-91bd-f1d82d455175@8f0d452c-b7a4-4964-b810-8c397374477b
URL:https://www.talentq.es/es_es/evento/talentq-seminar-antonio-rubio-postdoctoral-researcher-at-icfo/
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ORGANIZER;CN="TalentQ":MAILTO:javier.bouzas.arufe@usc.es
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DTSTART;TZID=Europe/Madrid:20240625T160000
DTEND;TZID=Europe/Madrid:20240625T170000
DTSTAMP:20260604T100410
CREATED:20240619T081044Z
LAST-MODIFIED:20240619T082607Z
UID:815-1719331200-1719334800@www.talentq.es
SUMMARY:TalentQ SEMINAR | Henry Semenenko
DESCRIPTION:TITLE: Quantum Error Correction and Scaling with Trapped-Ions \nABSTRACT: Quantinuum’s quantum processors use the quantum charge-coupled device (QCCD) architecture with trapped-ion qubits to deliver leading performance with high-fidelity gates and all-to-all connectivity. As we look towards performing more complex algorithms that require vast numbers of operations\, it will be necessary to develop quantum error correction (QEC) to reduce error below the physical level. Recent QEC results using Quantinuum’s processors have demonstrated logical error rates significantly below the physical level signifying a transition towards reliable quantum computing. This talk will provide an overview of the QCCD trapped-ion architecture\, present QEC results demonstrating better-than-physical error rates\, and discuss the future scaling of Quantinuum’s processors. \nREGISTER HERE: https://events.teams.microsoft.com/event/2b88da0a-84cc-44f0-9a21-956b2cb69818@8f0d452c-b7a4-4964-b810-8c397374477b
URL:https://www.talentq.es/es_es/evento/talentq-seminar-henry-semenenko/
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ORGANIZER;CN="TalentQ":MAILTO:javier.bouzas.arufe@usc.es
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