Memory efficient scheduling of Strassen-Winograd's matrix multiplication algorithm
Memory efficient scheduling of Strassen-Winograd's matrix multiplication algorithm
We propose several new schedules for Strassen-Winograd's matrix multiplication algorithm, they reduce the extra memory allocation requirements by three different means: by introducing a few pre-additions, by overwriting the input matrices, or by using a first recursive level of classical multiplication. In particular, we show two fully in-place schedules: one having the same number of operations, if the input matrices can be overwritten; the other one, slightly increasing the constant of the leading term of the complexity, if the input matrices are read-only. Many of these schedules have been found by an implementation of an exhaustive search algorithm based on a pebble game.
FOS: Computer and information sciences, [INFO.INFO-MS] Computer Science [cs]/Mathematical Software [cs.MS], Computer Science - Mathematical Software, Mathematical Software (cs.MS)
FOS: Computer and information sciences, [INFO.INFO-MS] Computer Science [cs]/Mathematical Software [cs.MS], Computer Science - Mathematical Software, Mathematical Software (cs.MS)
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