On the Complexity of Toric Ideals
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We investigate the computational complexity of problems on toric ideals such as normal forms, Gröbner bases, and Graver bases. We show that all these problems are strongly NP-hard in the general case. Nonetheless, we can derive efficient algorithms by taking advantage of the sparsity pattern of the matrix. We describe this sparsity pattern with a graph, and study the parameterized complexity of toric ideals in terms of graph parameters such as treewidth and treedepth. In particular, we show that the normal form problem can be solved in parameter-tractable time in terms of the treedepth. An important application of this result is in multiway ideals arising in algebraic statistics. We also give a parameter-tractable membership test to the reduced Gröbner basis. This test leads to an efficient procedure for computing the reduced Gröbner basis. Similar results hold for Graver bases computation.
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