Laplacian Canonization: A Minimalist Approach to Sign and Basis Invariant Spectral Embedding

Q: How reproducible is "Laplacian Canonization: A Minimalist Approach to Sign and Basis Invariant Spectral Embedding"?

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.

Q: What framework is used to implement "Laplacian Canonization: A Minimalist Approach to Sign and Basis Invariant Spectral Embedding"?

The primary implementation uses Hugging Face Transformers training guide.

Jiangyan Ma, Yifei Wang, Yisen Wang

Published: Oct 28, 2023

No direct implementation yet

Evidence: Inferred

Domain fit: AI-adjacent

Verified repos: 0

Paper appears method- or tooling-adjacent to AI workflows with partial ecosystem coverage.

Framework: Hugging Face Transformers training guide

Time to first repro: a few days

2 risk flags

DOI Publisher

Spectral embedding is a powerful graph embedding technique that has received a lot of attention recently due to its effectiveness on Graph Transformers. However, from a theoretical perspective, the universal expressive power of spectral embedding comes at the price of losing two important invariance properties of graphs, sign and basis invariance, which also limits its effectiveness on graph data. To remedy this issu ...

Read full abstract

e, many previous methods developed costly approaches to learn new invariants and suffer from high computation complexity. In this work, we explore a minimal approach that resolves the ambiguity issues by directly finding canonical directions for the eigenvectors, named Laplacian Canonization (LC). As a pure pre-processing method, LC is light-weighted and can be applied to any existing GNNs. We provide a thorough investigation, from theory to algorithm, on this approach, and discover an efficient algorithm named Maximal Axis Projection (MAP) that works for both sign and basis invariance and successfully canonizes more than 90% of all eigenvectors. Experiments on real-world benchmark datasets like ZINC, MOLTOX21, and MOLPCBA show that MAP consistently outperforms existing methods while bringing minimal computation overhead. Code is available at https://github.com/PKU-ML/LaplacianCanonization.

Technical details

Canonical key: doi-10.48550_arxiv.2310.18716

Cache status: Stale (SWR served)

Generated at: Jun 16, 2026, 2:09 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

Hugging Face Transformers training guide

Results & Benchmarks

Freshness tier: cold

Direct + Inferred Evidence

No concrete benchmark grounding is available yet. Treat the page as context or an implementation starting point only.

Spectral embedding is a powerful graph embedding technique that has received a lot of attention recently due to its effectiveness on Graph Transformers.

Implementation Evidence Summary

Confidence: low

Recommendation evidence is currently too limited for a maintained-repo choice. Use Implementation Status and Reproduction Path for a practical baseline plan.

Reproduction Risks

Estimate is based on paper-only reproduction flow

Hardware Notes

Expect multi-day setup/compute for meaningful reproduction based on current guidance.

Evidence disclosure

Evidence graph: 2 refs, 1 links.

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

Implementation Status

No verified maintained repo

There is no verified maintained implementation yet. Use this baseline plan to decide whether to prototype now or defer.

No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.
Start from related paper: Embedding as a modeling problem.
Start from this likely method family: Algorithm.

Time to first repro: a few days

Reproduction readiness

No Repo

Time to first repro: days

Last checked: Jun 16, 2026

Hardware requirements

Expect multi-day setup/compute for meaningful reproduction based on current guidance.

No verified implementation available

· No maintained repository has been identified for this paper. Check adjacent implementations or HF artifacts below.

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Framework baselines

Hugging Face Transformers training guide
Modern transformer training baseline.
PyTorch nn.Transformer docs
Reference transformer building block implementation.

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Laplacian Canonization Algorithm Algorithm model

Datasets

Embedding dataset Algorithm benchmark Laplacian Canonization dataset

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Embedding demo Algorithm gradio Laplacian Canonization demo

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Research context

Citations

References

Tasks

Embedding, Computer science, Computation, Theoretical computer science, Eigenvalues and eigenvectors, Physical Sciences

Methods

Algorithm

Domains

Invariant (physics), Mathematics, Artificial intelligence

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