Corpus ID: 8224349

Squash 2: a hierarchical scalable quantum mapper considering ancilla sharing

  title={Squash 2: a hierarchical scalable quantum mapper considering ancilla sharing},
  author={Mohammad Javad Dousti and Alireza Shafaei and Massoud Pedram},
  journal={Quantum Inf. Comput.},
  • Mohammad Javad Dousti, Alireza Shafaei, Massoud Pedram
  • Published 2016
  • Computer Science, Mathematics, Physics
  • Quantum Inf. Comput.
  • We present a multi-core reconfigurable quantum processor architecture, called Requp, which supports a hierarchical approach to mapping a quantum algorithm while sharing physical and logical ancilla qubits. Each core is capable of performing any quantum instruction. Moreover, we introduce a scalable quantum mapper, called Squash 2, which divides a given quantum circuit into a number of quantum modules---each module is divided into k parts such that each part will run on one of k available cores… CONTINUE READING
    3 Citations
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    • IEEE Circuits and Systems Magazine
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    Squash: a scalable quantum mapper considering ancilla sharing
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    Layered architecture for quantum computing
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    Quantum Memory Hierarchies: Efficient Designs to Match Available Parallelism in Quantum Computing
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    A quantum logic array microarchitecture: scalable quantum data movement and computation
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    ScaffCC: a framework for compilation and analysis of quantum computing programs
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    Transversality Versus Universality for Additive Quantum Codes
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    Minimizing the latency of quantum circuits during mapping to the ion-trap circuit fabric
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    Design of a universal logic block for fault-tolerant realization of any logic operation in trapped-ion quantum circuits
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    Scaffold: Quantum Programming Language
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