An n-Bit Adder Realized via Coherent Optical Parallel Computing

B. Reznychenko, Y. Paltiel, F. Remacle, M. Striccoli, E. Mazer, Maurizio Coden, E. Collini, Carlo Nazareno Dibenedetto, A. Donval, B. Fresch, Hugo Gattuso, N. Gross
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引用次数: 1

Abstract

The quantum properties of nanosystems present a new opportunity to enhance the power of classical computers, both for the parallelism of the computation and the speed of the optical operations. In this paper we present the COPAC project aiming at development of a ground-breaking nonlinear coherent spectroscopy combining optical addressing and spatially macroscopically resolved optical readout. The discrete structure of transitions between quantum levels provides a basis for implementation of logic functions even at room temperature. Exploiting the superposition of quantum states gives rise to the possibility of parallel computation by encoding different input values into transition frequencies. As an example of parallel single instruction multiple data calculation by a device developed during the COPAC project, we present a n-bit adder, showing that due to the properties of the system, the delay of this fundamental circuit can be reduced.
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相干光并行计算实现的n位加法器
纳米系统的量子特性为提高经典计算机的计算并行性和光学运算速度提供了新的机会。在本文中,我们提出了COPAC项目,旨在开发一种结合光学寻址和空间宏观分辨光学读出的突破性非线性相干光谱。量子能级间跃迁的离散结构为在室温下实现逻辑功能提供了基础。利用量子态的叠加性,通过将不同的输入值编码为跃迁频率,可以实现并行计算。作为一个在COPAC项目中开发的设备并行单指令多数据计算的例子,我们提出了一个n位加法器,表明由于系统的特性,可以减少该基本电路的延迟。
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[Copyright notice] Entangled State Preparation for Non-Binary Quantum Computing Integrated Photonics Architectures for Residue Number System Computations Experimental Insights from the Rogues Gallery Message from the 2019 ICRC General Co-Chairs
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