English

Isomorphism problems for tensors, groups, and cubic forms: completeness and reductions

Computational Complexity 2025-06-18 v1 Algebraic Geometry Group Theory Representation Theory Quantum Physics

Abstract

In this paper we consider the problems of testing isomorphism of tensors, pp-groups, cubic forms, algebras, and more, which arise from a variety of areas, including machine learning, group theory, and cryptography. These problems can all be cast as orbit problems on multi-way arrays under different group actions. Our first two main results are: 1. All the aforementioned isomorphism problems are equivalent under polynomial-time reductions, in conjunction with the recent results of Futorny-Grochow-Sergeichuk (Lin. Alg. Appl., 2019). 2. Isomorphism of dd-tensors reduces to isomorphism of 3-tensors, for any d3d \geq 3. Our results suggest that these isomorphism problems form a rich and robust equivalence class, which we call Tensor Isomorphism-complete, or TI-complete. We then leverage the techniques used in the above results to prove two first-of-their-kind results for Group Isomorphism (GpI): 3. We give a reduction from GpI for pp-groups of exponent pp and small class (c<pc < p) to GpI for pp-groups of exponent pp and class 2. The latter are widely believed to be the hardest cases of GpI, but as far as we know, this is the first reduction from any more general class of groups to this class. 4. We give a search-to-decision reduction for isomorphism of pp-groups of exponent pp and class 2 in time GO(loglogG)|G|^{O(\log \log |G|)}. While search-to-decision reductions for Graph Isomorphism (GI) have been known for more than 40 years, as far as we know this is the first non-trivial search-to-decision reduction in the context of GpI. Our main technique for (1), (3), and (4) is a linear-algebraic analogue of the classical graph coloring gadget, which was used to obtain the search-to-decision reduction for GI. This gadget construction may be of independent interest and utility. The technique for (2) gives a method for encoding an arbitrary tensor into an algebra.

Keywords

Cite

@article{arxiv.1907.00309,
  title  = {Isomorphism problems for tensors, groups, and cubic forms: completeness and reductions},
  author = {Joshua A. Grochow and Youming Qiao},
  journal= {arXiv preprint arXiv:1907.00309},
  year   = {2025}
}
R2 v1 2026-06-23T10:07:43.372Z