PairLimit -- an optional argument
Description
A symbol used as the name of an optional argument.
Functions with optional argument named PairLimit :
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gb(...,PairLimit=>...) -- see gb -- compute a Gröbner basis
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intersectInP(...,PairLimit=>...) -- see intersectInP(...,BasisElementLimit=>...) -- Option for intersectInP
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pushForward(...,PairLimit=>...) -- see pushForward(RingMap,Module)
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quotient(...,PairLimit=>...)
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saturate(...,PairLimit=>...) -- see quotient(...,PairLimit=>...)
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analyticSpread(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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distinguished(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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isLinearType(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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isReduction(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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minimalReduction(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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multiplicity(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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normalCone(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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reesAlgebra(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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specialFiber(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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specialFiberIdeal(...,PairLimit=>...) -- see reesIdeal(...,PairLimit=>...) -- Bound the number of s-pairs considered in the saturation step
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resolution(...,PairLimit=>...) -- stop when this number of pairs has been handled
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syz(...,PairLimit=>...) -- see syz(Matrix) -- compute the syzygy matrix