BEGIN:VCALENDAR
VERSION:2.0
PRODID:researchseminars.org
CALSCALE:GREGORIAN
X-WR-CALNAME:researchseminars.org
BEGIN:VEVENT
SUMMARY:Mar Tejedor
DTSTART:20250603T140000Z
DTEND:20250603T150000Z
DTSTAMP:20260423T021350Z
UID:TalentQ/24
DESCRIPTION:Title: <a href="https://researchseminars.org/talk/TalentQ/24/"
 >Distributed Quantum Circuit Cutting for Hybrid Quantum-Classical High-Per
 formance Computing</a>\nby Mar Tejedor as part of Quantum Spain\n\n\nAbstr
 act\nMost quantum computers today are constrained by hardware limitations\
 ,\nparticularly the number of available qubits\, causing significant\nchal
 lenges for executing large-scale quantum algorithms. Circuit cutting\nhas 
 emerged as a key technique to overcome these limitations by\ndecomposing l
 arge quantum circuits into smaller subcircuits that can be\nexecuted indep
 endently and later reconstructed. In this work\, we\nintroduce Qdislib\, a
  distributed and flexible library for quantum\ncircuit cutting\, designed 
 to seamlessly integrate with hybrid\nquantum-classical high-performance co
 mputing (HPC) systems. Qdislib\nemploys a graph-based representation of qu
 antum circuits to enable\nefficient partitioning\, manipulation and execut
 ion\, supporting both wire\ncutting and gate cutting techniques. The libra
 ry is compatible with\nmultiple quantum computing libraries\, including Qi
 skit and Qibo\, and\nleverages distributed computing frameworks to execute
  subcircuits across\nCPUs\, GPUs\, and quantum processing units (QPUs) in 
 a fully parallelized\nmanner. We present a proof of concept demonstrating 
 how Qdislib enables\nthe distributed execution of quantum circuits across 
 heterogeneous\ncomputing resources\, showcasing its potential for scalable
 \nquantum-classical workflows.\n
LOCATION:https://researchseminars.org/talk/TalentQ/24/
END:VEVENT
END:VCALENDAR