A browser-based system creates tile pyramids for semantic zoom on large graphs and routes edges via sleeve routing on Constrained Delaunay Triangulations with funnel paths and heuristics for speed.
Breaking the sorting barrier for directed single-source shortest paths
2 Pith papers cite this work. Polarity classification is still indexing.
years
2026 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
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Browsing Large Graphs with Tile Pyramids and Sleeve Routing in the Browser
A browser-based system creates tile pyramids for semantic zoom on large graphs and routes edges via sleeve routing on Constrained Delaunay Triangulations with funnel paths and heuristics for speed.
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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.