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DTSTART:20220313T070000
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DTSTART:20211107T060000
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DTSTART;TZID=America/Toronto:20220824T120000
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URL:https://uwaterloo.ca/institute-for-quantum-computing/events/iqc-student
 -seminar-featuring-sarah-li-0
LOCATION:QNC - Quantum Nano Centre 200 University Avenue West QNC 1201 Wate
 rloo ON N2L 3G1 Canada
SUMMARY:IQC Student Seminar featuring Sarah Li
CLASS:PUBLIC
DESCRIPTION:DYNAMIC QUBIT ALLOCATION AND ROUTING FOR CONSTRAINED TOPOLOGIES
  BY\nCNOT CIRCUIT RE-SYNTHESIS\n\nRecent strides in quantum computing have
  made it possible to execute\nquantum algorithms on real quantum hardware.
  When mapping a quantum\ncircuit to the physical layer\, one has to consid
 er the numerous\nconstraints imposed by the underlying hardware architectu
 re. Many\nquantum computers have constraints regarding which two-qubit\nop
 erations are locally allowed. For example\, in a superconducting\nquantum 
 computer\, connectivity of the physical qubits restricts\nmulti-qubit oper
 ations to adjacent qubits [1]. These restrictions are\nknown as _connecti
 vity constraints_ and can be represented by\na _connected graph_ (a.k.a
 . _topology_)\, where each vertex\nrepresents a distinct physical qubit. 
 When two qubits are adjacent\,\nthere is an edge between the corresponding
  vertices.
DTSTAMP:20260408T193813Z
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