version 1.2, 2001/06/18 03:12:21 |
version 1.4, 2012/06/11 05:23:52 |
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% $OpenXM: OpenXM/src/kan96xx/Doc/slope.sm1,v 1.1 2000/11/01 01:57:55 takayama Exp $ |
% $OpenXM: OpenXM/src/kan96xx/Doc/slope.sm1,v 1.3 2005/10/20 11:22:27 takayama Exp $ |
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$slope.sm1, computing the slopes of a D-ideal: June 15, 2000$ message |
$slope.sm1, computing the slopes of a D-ideal: June 15, 2000$ message |
$ (C) F.Castro-Jimenez, N.Takayama$ message |
$ (C) N.Takayama, F.Castro-Jimenez$ message |
$Imported commands: slope $ message |
$Imported commands: slope $ message |
/slope.verbose 1 def |
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Line 582 $Imported commands: slope $ message |
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Line 582 $Imported commands: slope $ message |
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(When slope.geometric is one, it outputs the geometric slopes.) |
(When slope.geometric is one, it outputs the geometric slopes.) |
(As to the algorithm, see A.Assi, F.J.Castro-Jimenez and J.M.Granger) |
(As to the algorithm, see A.Assi, F.J.Castro-Jimenez and J.M.Granger) |
( How to calculate the slopes of a D-module, Compositio Math, 104, 1-17, 1996) |
( How to calculate the slopes of a D-module, Compositio Math, 104, 1-17, 1996) |
(Note that the signs of the slopes are negative, but the absolute values) |
(Note that the signs of the slopes s' are negative, but the absolute values -s') |
(of the slopes are returned.) |
(of the slopes are returned.) |
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$In other words, when pF+qV is the gap, -s'=q/p is returned.$ |
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$Note that s=1-1/s' is called the slope in recent literatures. Solutions belongs to O(s).$ |
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$The number s satisfies 1<= s.$ |
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$We have r=s-1=-1/s', and kappa=1/r=-s',$ |
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$which is used 1/Gamma(1+m*r) factor and exp(-tau^kappa)$ |
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$in the Borel and Laplace transformations respectively.$ |
$Example 1: [ [(x^4 Dx + 3)] (x) [0 1] [-1 1]] slope :: $ |
$Example 1: [ [(x^4 Dx + 3)] (x) [0 1] [-1 1]] slope :: $ |
$ The solution is exp(x^(-3)). $ |
$ The solution is exp(x^(-3)). $ |
$Example 2: [ [(x^3 Dx^2 + (x + x^2) Dx + 1)] [(x)] $ |
$Example 2: [ [(x^3 Dx^2 + (x + x^2) Dx + 1)] [(x)] $ |