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This review examines the evolution of intelligent radio access network architectures and their growing reliance on high\u2010speed, energy\u2010efficient processing solutions. Recent progress in photonic integrated circuits is highlighted, focusing on their role in implementing neural network operators\u2014including coherent matrix\u2010vector multiplication (MVM), noncoherent MVM, and activation functions\u2014as well as other optical neural networks (ONNs). The advantages of photonic integrated chip\u2010based computing, such as ultrahigh computational density and parallelism, are critically analyzed against challenges like nonlinear processing limitations, scalability bottlenecks, and practical deployment hurdles. Future perspectives address the integration of ONNs into intelligent radio access networks to tackle latency reduction, energy optimization, and dynamic resource management in the next generation of mobile technologies. 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