SHIFT is a topology-agnostic dynamic compute relocation framework for chiplet-based systems that reports 75.2-97.9% successful relocations, up to 76.8% latency reduction, 12.5x throughput gain, and 4.9x/5.9x/1.8x improvements in runtime/throughput/energy on LLM workloads.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
A DRL agent selects IoT service providers under security constraints while an FL-based behavioral fingerprinting model computes reliability scores incorporated into the selection process.
citing papers explorer
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SHIFT: Dynamic Compute Relocation Framework for Communication-Aware Chiplet-Based Systems
SHIFT is a topology-agnostic dynamic compute relocation framework for chiplet-based systems that reports 75.2-97.9% successful relocations, up to 76.8% latency reduction, 12.5x throughput gain, and 4.9x/5.9x/1.8x improvements in runtime/throughput/energy on LLM workloads.
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An AI-Based Solution for Secure Service Provisioning in IoT
A DRL agent selects IoT service providers under security constraints while an FL-based behavioral fingerprinting model computes reliability scores incorporated into the selection process.