Author:
Isailovic Nemanja,Whitney Mark,Patel Yatish,Kubiatowicz John
Abstract
We analyze circuits for kernels from popular quantum computing applications, characterizing the hardware resources necessary to take ancilla preparation off the critical path. The result is a chip entirely dominated by ancilla generation circuits. To address this issue, we introduce optimized ancilla factories and analyze theirstructure and physical layout for ion trap technology. We introduce a new quantum computing architecture with highly concentrated data-only regions surrounded by shared ancilla factories. The results are a reduced dependence on costly teleportation, more efficient distribution of generated ancillae and more than five times speedup over previous proposals.
Publisher
Association for Computing Machinery (ACM)
Cited by
16 articles.
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1. An Asynchronous Transport Protocol for Quantum Data Networks;IEEE Journal on Selected Areas in Communications;2024-07
2. Asynchronous Entanglement Provisioning and Routing for Distributed Quantum Computing;IEEE INFOCOM 2023 - IEEE Conference on Computer Communications;2023-05-17
3. Modular Adder Design based on Reversible Toffoli CLA;2023 7th International Conference on Computing Methodologies and Communication (ICCMC);2023-02-23
4. Fast Swapping in a Quantum Multiplier Modelled as a Queuing Network;Reversible Computation;2021
5. SAQIP;ACM Transactions on Architecture and Code Optimization;2019-06-30