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I have 1 or more equations and 3 unknowns. I want to reduce it to the minimum number of equations possible. There can be either 0, 1 or infinitely many solutions. In the 0 solution case I don't need the reduced system but just need to know that it's happening.

Gaussian elimination would do but everyone says it's numerically unstable. Maybe that doesn't matter for such a small system as long as you use pivoting? I also don't need row echelon form, so it's a bit overkill.

They say SVD is more stable but I can't see how to obtain the reduced set of equations from the U, Sigma and V matrices it produces. It also looks like overkill.

Is it possible (and if so, efficient) to detect the redundant equations and simply remove them without altering the others?

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You can use QR-decomposition. See this answer to see how to use it to identify dependent vectors (note that it looks for dependence between columns, while you are probably looking for dependence between rows).

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