FieldCore is a fully multiplexed photonic tensor core harnessing five optical dimensions to deliver 69.12 TOPS throughput and support 1,800 parallel input streams for tasks including image convolution, digit recognition, hyperspectral classification, and fault diagnosis.
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Pith papers citing it
fields
physics.optics 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
DUET is a photonic tensor core paradigm that uses structural symmetry in VODICs to support arbitrary signed operands directly, experimentally tested on image classification, segmentation, and Transformer tasks.
A review of integrated photonic computing that organizes low- to high-dimensional architectures and argues that exploiting light's full dimensionality offers a path to scalable, energy-efficient information processing.
citing papers explorer
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Fully multiplexed photonic tensor computing
FieldCore is a fully multiplexed photonic tensor core harnessing five optical dimensions to deliver 69.12 TOPS throughput and support 1,800 parallel input streams for tasks including image convolution, digit recognition, hyperspectral classification, and fault diagnosis.
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General-Purpose Photonic Computing Primitive for Contemporary Artificial Intelligence
DUET is a photonic tensor core paradigm that uses structural symmetry in VODICs to support arbitrary signed operands directly, experimentally tested on image classification, segmentation, and Transformer tasks.
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Integrated photonic computing: towards high-dimensional information processing
A review of integrated photonic computing that organizes low- to high-dimensional architectures and argues that exploiting light's full dimensionality offers a path to scalable, energy-efficient information processing.