Standard Bases over Euclidean Domains
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In this paper we state and explain techniques useful for the computation of strong Gr\"obner and standard bases over Euclidean domains: First we investigate several strategies for creating the pair set using an idea by Lichtblau. Then we explain methods for avoiding coefficient growth using syzygies. We give an in-depth discussion on normal form computation resp. a generalized reduction process with many optimizations to further avoid large coefficients. These are combined with methods to reach GCD-polynomials at an earlier stage of the computation. Based on various examples we show that our new implementation in the computer algebra system Singular is, in general, more efficient than other known implementations.
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Efficient Gr\"obner Bases Computation over Principal Ideal Rings
Presents a lifting technique to compute strong Gröbner bases over R/nR by reducing computations over R/nR to those over R/aR and R/bR for coprime a and b, recursing to fields for squarefree n via non-invertible coeffi...
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