| version 1.1, 2005/06/22 07:22:07 |
version 1.4, 2005/07/01 04:24:54 |
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| Line 293 the precomputed inverse of a divisor), |
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| Line 293 the precomputed inverse of a divisor), |
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| \item Polynomial Factorization |
\item Polynomial Factorization |
| {\tt fctr } (factorization over the rationals), |
{\tt fctr } (factorization over the rationals), |
| {\tt fctr\_ff } (univariate factorization over finite fields), |
{\tt modfctr}, {\tt fctr\_ff } (univariate factorization over finite fields), |
| {\tt af } (univariate factorization over algebraic number fields), |
{\tt af } (univariate factorization over algebraic number fields), |
| {\tt sp} (splitting field computation). |
{\tt sp} (splitting field computation). |
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| Line 329 quadratic first-order formula), |
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| Line 329 quadratic first-order formula), |
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| {\tt det} (determinant), |
{\tt det} (determinant), |
| {\tt qsort} (sorting of an array by the quick sort algorithm), |
{\tt qsort} (sorting of an array by the quick sort algorithm), |
| {\tt eval} (evaluation of a formula containing transcendental functions |
{\tt eval}, {\tt deval} (evaluation of a formula containing transcendental functions |
| such as |
such as |
| {\tt sin}, {\tt cos}, {\tt tan}, {\tt exp}, |
{\tt sin}, {\tt cos}, {\tt tan}, {\tt exp}, |
| {\tt log}) |
{\tt log}) |
| {\tt roots} (finding all roots of a univariate polynomial), |
{\tt pari(roots)} (finding all roots of a univariate polynomial), |
| {\tt lll} (computation of an LLL-reduced basis of a lattice). |
{\tt pari(lll)} (computation of an LLL-reduced basis of a lattice). |
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| \item $D$-modules ($D$ is the Weyl algebra) |
\item $D$-modules ($D$ is the Weyl algebra) |
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| {\tt gb } (Gr\"obner basis), |
{\tt sm1.gb } (Gr\"obner basis), |
| {\tt syz} (syzygy), |
{\tt sm1.syz} (syzygy), |
| {\tt annfs} (Annhilating ideal of $f^s$), |
{\tt sm1.bfunction},{\tt bfunction} (the global $b$-function of a polynomial) |
| {\tt bfunction},\\ |
{\tt sm1.restriction} in the derived category of $D$-modules, |
| {\tt schreyer} (free resolution by the Schreyer method), |
{\tt sm1.slope}, |
| {\tt vMinRes} (V-minimal free resolution),\\ |
{\tt sm1.sm1(annfs)} (Annhilating ideal of $f^s$), |
| {\tt characteristic} (Characteristic variety), |
{\tt sm1.sm1(schreyer)} (free resolution by the Schreyer method), |
| {\tt restriction} in the derived category of $D$-modules, |
%{\tt sm1.sm1(vMinRes)} (V-minimal free resolution),\\ |
| {\tt integration} in the derived category, |
{\tt sm1.sm1(characteristic)} (Characteristic variety), |
| {\tt tensor} in the derived category, |
{\tt sm1.sm1(integration)} in the derived category, |
| {\tt dual} (Dual as a D-module), |
%{\tt sm1.sm1(tensor)} in the derived category, |
| {\tt slope}. |
{\tt sm1.sm1(res-dual)} (Dual as a D-module). |
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| \item Cohomology groups |
\item Cohomology groups |
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| Line 362 and the ring of formal power series). |
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| Line 362 and the ring of formal power series). |
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| Helping to derive and prove {\tt combinatorial} and |
Helping to derive and prove {\tt combinatorial} and |
| {special function identities}, |
{special function identities}, |
| {\tt gkz} (GKZ hypergeometric differential equations), |
{\tt sm1.gkz} (GKZ hypergeometric differential equations), |
| {\tt appell} (Appell's hypergeometric differential equations), |
{\tt sm1.appell1}, {\tt sm1.appell4} (Appell's hypergeometric differential equations), |
| {\tt indicial} (indicial equations), |
%{\tt indicial} (indicial equations), |
| {\tt rank} (Holonomic rank), |
{\tt sm1.generalized\_bfunction} (indicial equations), |
| {\tt rrank} (Holonomic rank of regular holonomic systems), |
{\tt sm1.rank} (Holonomic rank), |
| {\tt dsolv} (series solutions of holonomic systems). |
{\tt sm1.rrank} (Holonomic rank of regular holonomic systems), |
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%{\tt dsolv} (series solutions of holonomic systems). |
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{\tt dsolv\_dual}, {\tt dsolv\_starting\_terms} (series solutions of holonomic systems). |
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| \item OpenMATH support |
\item OpenMATH support |
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| Line 376 Helping to derive and prove {\tt combinatorial} and |
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| Line 378 Helping to derive and prove {\tt combinatorial} and |
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| \item Homotopy Method |
\item Homotopy Method |
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| {\tt phc} (Solving systems of algebraic equations by |
{\tt phc.phc} (Solving systems of algebraic equations by |
| numerical and polyhedral homotopy methods). |
numerical and polyhedral homotopy methods). |
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| \item Toric ideal |
\item Toric ideal |
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| {\tt tigers} (Enumerate all Gr\"obner basis of a toric ideal. |
{\tt tigers.tigers} (Enumerate all Gr\"obner basis of a toric ideal. |
| Finding test sets for integer program), |
Finding test sets for integer program), |
| {\tt arithDeg} (Arithmetic degree of a monomial ideal), |
%{\tt arithDeg} (Arithmetic degree of a monomial ideal), |
| {\tt stdPair} (Standard pair decomposition of a monomial ideal). |
%{\tt stdPair} (Standard pair decomposition of a monomial ideal). |
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| \item Communications |
\item Communications |
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