Fast Matrix Multiplication Without Tears: A Constraint Programming Approach
June 01, 2023 Β· Declared Dead Β· π International Conference on Principles and Practice of Constraint Programming
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Authors
Arnaud Deza, Chang Liu, Pashootan Vaezipoor, Elias B. Khalil
arXiv ID
2306.01097
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.DS,
math.CO
Citations
4
Venue
International Conference on Principles and Practice of Constraint Programming
Last Checked
4 months ago
Abstract
It is known that the multiplication of an $N \times M$ matrix with an $M \times P$ matrix can be performed using fewer multiplications than what the naive $NMP$ approach suggests. The most famous instance of this is Strassen's algorithm for multiplying two $2\times 2$ matrices in 7 instead of 8 multiplications. This gives rise to the constraint satisfaction problem of fast matrix multiplication, where a set of $R < NMP$ multiplication terms must be chosen and combined such that they satisfy correctness constraints on the output matrix. Despite its highly combinatorial nature, this problem has not been exhaustively examined from that perspective, as evidenced for example by the recent deep reinforcement learning approach of AlphaTensor. In this work, we propose a simple yet novel Constraint Programming approach to find non-commutative algorithms for fast matrix multiplication or provide proof of infeasibility otherwise. We propose a set of symmetry-breaking constraints and valid inequalities that are particularly helpful in proving infeasibility. On the feasible side, we find that exploiting solver performance variability in conjunction with a sparsity-based problem decomposition enables finding solutions for larger (feasible) instances of fast matrix multiplication. Our experimental results using CP Optimizer demonstrate that we can find fast matrix multiplication algorithms for matrices up to $3\times 3$ in a short amount of time.
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