Fast matrix multiplication is one of the most fundamental problems in algorithm research. The exponent of the optimal time complexity of matrix multiplication is usually denoted by $\omega$. This paper discusses new ideas for improving the laser method for fast matrix multiplication. We observe that the analysis of higher powers of the Coppersmith-Winograd tensor [Coppersmith & Winograd 1990] incurs a "combination loss", and we partially compensate for it using an asymmetric version of CW's hashing method. By analyzing the eighth power of the CW tensor, we give a new bound of $\omega<2.37188$, which improves the previous best bound of $\omega<2.37286$ [Alman & Vassilevska Williams 2020]. Our result breaks the lower bound of $2.3725$ in [Amb...
We further develop the group-theoretic approach to fast matrix multiplication introduced by Cohn and...
AbstractThe main purpose of this paper is to present a fast matrix multiplication algorithm taken fr...
AbstractThe paper is a systematic survey of recently developed methods for the acceleration of MM, m...
Until a few years ago, the fastest known matrix multiplication algorithm, due to Copper-smith and Wi...
In this work, we prove limitations on the known methods for designing matrix multiplication algorith...
Until a few years ago, the fastest known matrix multiplication algorithm, due to Coppersmith and Win...
Determining the asymptotic algebraic complexity of matrix multiplication, succinctly represented by ...
© 2018 IEEE. We study the known techniques for designing Matrix Multiplication algorithms. The two ...
© Josh Alman and Virginia V. Williams. We consider the techniques behind the current best algorithms...
Matrix multiplication is a basic operation of linear algebra, and has numerous applications to the t...
AbstractFirst we study asymptotically fast algorithms for rectangular matrix multiplication. We begi...
THIS PAPER HAS BEEN WITHDRAWN. We briefly discuss the error which was made in the original version o...
In 2003 Cohn and Umans introduced a new group-theoretic framework for doing fast matrix multiplicati...
The complexity of matrix multiplication (hereafter MM) has been intensively studied since 1969, when...
Fast algorithms for matrix multiplication, namely those that perform asymptotically fewer scalar ope...
We further develop the group-theoretic approach to fast matrix multiplication introduced by Cohn and...
AbstractThe main purpose of this paper is to present a fast matrix multiplication algorithm taken fr...
AbstractThe paper is a systematic survey of recently developed methods for the acceleration of MM, m...
Until a few years ago, the fastest known matrix multiplication algorithm, due to Copper-smith and Wi...
In this work, we prove limitations on the known methods for designing matrix multiplication algorith...
Until a few years ago, the fastest known matrix multiplication algorithm, due to Coppersmith and Win...
Determining the asymptotic algebraic complexity of matrix multiplication, succinctly represented by ...
© 2018 IEEE. We study the known techniques for designing Matrix Multiplication algorithms. The two ...
© Josh Alman and Virginia V. Williams. We consider the techniques behind the current best algorithms...
Matrix multiplication is a basic operation of linear algebra, and has numerous applications to the t...
AbstractFirst we study asymptotically fast algorithms for rectangular matrix multiplication. We begi...
THIS PAPER HAS BEEN WITHDRAWN. We briefly discuss the error which was made in the original version o...
In 2003 Cohn and Umans introduced a new group-theoretic framework for doing fast matrix multiplicati...
The complexity of matrix multiplication (hereafter MM) has been intensively studied since 1969, when...
Fast algorithms for matrix multiplication, namely those that perform asymptotically fewer scalar ope...
We further develop the group-theoretic approach to fast matrix multiplication introduced by Cohn and...
AbstractThe main purpose of this paper is to present a fast matrix multiplication algorithm taken fr...
AbstractThe paper is a systematic survey of recently developed methods for the acceleration of MM, m...