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Xiaodong Yan uses soundwaves to improve computer chips

July 5, 2026
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A portrait of Xiadong Yan

Frank L. and Daphna Lederman Professor Xiaodong Yan designs brain-like computer chips.

Researchers developing neuromorphic computing take inspiration from the brain's synapses to design computer chips. These designs use dramatically less energy than conventional artificial intelligence chips. But an emerging field of neuromorphic devices uses sound waves to enable chips to operate faster and more energy-efficiently.

“This could make future neuromorphic hardware more compact, more parallel, and more efficient for tasks that require combining many features, such as pattern recognition, sensory processing and data analysis,” Frank L. and Daphna Lederman Professor Xiaodong Yan said in an article with IEEE Spectrum

Recently, scientists have developed acoustic devices in which sound waves can encode multiple values in their wave phase. These phase bits, or phi-bits, can in turn support quantum-like logic gates and parallel computing. Whereas conventional bits only symbolize zero or one and require a separate physical component for each bit, phi-bits each represent multiple variables and coexist within one space, said IEEE Spectrum. 

“In a topological acoustic synapse, the acoustic wave interactions help transform and organize information before the final readout,” said Yan, assistant professor of ECE and materials science and engineering.