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Line 182: === AlphaTensor === In 2022, [[DeepMind]] introduced AlphaTensor, a [[neural network]] that used a single-player game analogy to invent thousands of matrix multiplication algorithms, including some previously discovered by humans and some that were not.<ref>{{Cite web \|title=Discovering novel algorithms with AlphaTensor \|url=https://www.deepmind.com/blog/discovering-novel-algorithms-with-alphatensor \|access-date=2022-11-01 \|website=www.deepmind.com \|language=en}}</ref> Operations were restricted to the ground field and [[GF(2)\|finite field <math>\mathbb Z/2\mathbb Z</math>]]. The best "practical" (explicit low-rank decomposition of a matrix multiplication tensor) algorithm found ran in O(n<sup>2.778</sup>).<ref name="alphatensor">{{Cite journal \|last1=Fawzi \|first1=Alhussein \|last2=Balog \|first2=Matej \|last3=Huang \|first3=Aja \|last4=Hubert \|first4=Thomas \|last5=Romera-Paredes \|first5=Bernardino \|last6=Barekatain \|first6=Mohammadamin \|last7=Novikov \|first7=Alexander \|last8=R. Ruiz \|first8=Francisco J. \|last9=Schrittwieser \|first9=Julian \|last10=Swirszcz \|first10=Grzegorz \|last11=Silver \|first11=David \|last12=Hassabis \|first12=Demis \|last13=Kohli \|first13=Pushmeet \|date=October 2022 \|title=Discovering faster matrix multiplication algorithms with reinforcement learning \|journal=Nature \|volume=610 \|issue=7930 \|pages=47–53 \|doi=10.1038/s41586-022-05172-4 \|pmid=36198780 \|pmc=9534758 \|issn=1476-4687}}</ref> Finding low-rank decompositions of such tensors (and beyond) is NP-hard; optimal multiplication for even 3x3 matrices remains unknown.<ref name="alphatensor"/> On 4x4 matrices, AlphaTensor unexpectedly discovered a solution with 47 multiplication steps, an improvement over the 49 required with Strassen’s algorithm of 1969, albeit restricted to mod 2 arithmetic. Similarly, AlphaTensor solved 5x5 matrices with 96 rather than Strassen's 98 steps. Based on the surprising discovery that such improvements exist, other researchers were quickly able to find a similar independent 4x4 algorithm, and separately tweaked Deepmind's 96-step 5x5 algorithm down to 95 steps in mod 2 arithmetic and to 9697<ref>{{Cite journal \|last=Kauers \|first=Manuel \|last2=Moosbauer \|first2=Jakob \|date=2022-12-02 \|title=Flip Graphs for Matrix Multiplication \|url=http://arxiv.org/abs/2212.01175 \|journal=arXiv:2212.01175 [cs]}}</ref> in normal arithmetic.<ref>{{cite news \|last1=Brubaker \|first1=Ben \|title=AI Reveals New Possibilities in Matrix Multiplication \|url=https://www.quantamagazine.org/ai-reveals-new-possibilities-in-matrix-multiplication-20221123/ \|access-date=26 November 2022 \|work=Quanta Magazine \|date=23 November 2022 \|language=en}}</ref> ==Parallel and distributed algorithms==

Matrix multiplication algorithm: Difference between revisions