Towards Resource-Efficient Streaming of Large-Scale Medical Image Datasets for Deep Learning

Q: How reproducible is "Towards Resource-Efficient Streaming of Large-Scale Medical Image Datasets for Deep Learning"?

Estimated time to first reproduction: a few days. Risk flags: No repository-level reproducibility signals are currently available, Estimate is based on paper-only reproduction flow. No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.

Pranav Kulkarni, Adway Kanhere, Eliot L. Siegel, Paul H. Yi, Vishwa S. Parekh

Published: Jul 1, 2023

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Evidence: Inferred

Domain fit: Niche / domain-specific

Verified repos: 0

No strong AI-core implementation/artifact signals were detected from current providers.

Time to first repro: a few days

2 risk flags

DOI Publisher

Large-scale medical imaging datasets have accelerated deep learning (DL) for medical image analysis. However, the large scale of these datasets poses a challenge for researchers, resulting in increased storage and bandwidth requirements for hosting and accessing them. Since different researchers have different use cases and require different resolutions or formats for DL, it is neither feasible to anticipate every re ...

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searcher's needs nor practical to store data in multiple resolutions and formats. To that end, we propose the Medical Image Streaming Toolkit (MIST), a format-agnostic database that enables streaming of medical images at different resolutions and formats from a single high-resolution copy. We evaluated MIST across eight popular, large-scale medical imaging datasets spanning different body parts, modalities, and formats. Our results showed that our framework reduced the storage and bandwidth requirements for hosting and downloading datasets without impacting image quality. We demonstrate that MIST addresses the challenges posed by large-scale medical imaging datasets by building a data-efficient and format-agnostic database to meet the diverse needs of researchers and reduce barriers to DL research in medical imaging.

Technical details

Canonical key: doi-10.48550_arxiv.2307.00438

Cache status: Stale (SWR served)

Generated at: May 11, 2026, 4:39 PM

Artifact coverage: sparse

HF provider: ok (mixed)

PWC source used: No

LLM status: not_generated

LLM model: n/a

LLM generated: Unknown

LLM content type: n/a

HF policy: hf-relevance-v27

context only

Benchmarks: missing

Time to repro: a few days

2 risk flags

Results & Benchmarks

Freshness tier: cold

Direct + Inferred Evidence

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Large-scale medical imaging datasets have accelerated deep learning (DL) for medical image analysis.

Implementation Evidence Summary

Confidence: low

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Reproduction Risks

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Hardware Notes

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Evidence disclosure

Evidence graph: 2 refs, 1 links.

Utility signals: depth 65/100, grounding 58/100, status medium.

Implementation Status

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Time to first repro: a few days

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Last checked: May 11, 2026

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Bottleneck, Computer science, Bandwidth (computing), Medical imaging, Operationalization, Scale (ratio), Real-time computing, Medicine

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