Title :
Quantum gauged neural networks: learning and recalling
Author :
Fujita, Yukari ; Hiramatsu, Takashi ; Matsui, Tetsuo
Author_Institution :
Dept. of Phys., Kinki Univ., Osaka, Japan
fDate :
31 July-4 Aug. 2005
Abstract :
We study quantum neural networks on a 3D lattice, which contain neuron variable Sx on each site and synaptic variables Jxμ(μ = 1,2,3) on each link. The networks have a local gauge symmetry, where Jxμ are regarded as gauge variables connecting nearest-neighbor sites. We simulate processes of learning a pattern of Sx and recalling it. The rate of recalling the pattern is calculated and compared for three cases, (I) classical (Hopfield-type) Z(2) model, (II) quantum U(1) Higgs model, (III) quantum CP1 + U(1) spin(qubit) model. The quantum effects are found to reduce the performance.
Keywords :
lattice theory; neural nets; quantum computing; 3D lattice; Higgs model; Hopfield-type model; local gauge symmetry; quantum effects; quantum gauged neural networks; synaptic variables; Associative memory; Biological neural networks; Electronic mail; Lattices; Microscopy; Neural networks; Neurons; Physics; Quantum mechanics; Temperature measurement;
Conference_Titel :
Neural Networks, 2005. IJCNN '05. Proceedings. 2005 IEEE International Joint Conference on
Print_ISBN :
0-7803-9048-2
DOI :
10.1109/IJCNN.2005.1556008
