<?xml version="1.0" encoding="utf-8" ?> <!-- for emacs: -*- coding: utf-8 -*- --> <!-- Apache may like this line in the file .htaccess: AddCharset utf-8 .html --> <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1 plus MathML 2.0 plus SVG 1.1//EN" "http://www.w3.org/2002/04/xhtml-math-svg/xhtml-math-svg-flat.dtd" > <html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en"> <head><title>RatExt -- Ext(holonomic D-module, polynomial ring localized at the sigular locus)</title> <link rel="stylesheet" type="text/css" href="../../../../Macaulay2/Style/doc.css"/> </head> <body> <table class="buttons"> <tr> <td><div><a href="___Rat__Ext_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html">next</a> | <a href="___Rat__Ann.html">previous</a> | <a href="___Rat__Ext_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html">forward</a> | <a href="___Rat__Ann.html">backward</a> | up | <a href="index.html">top</a> | <a href="master.html">index</a> | <a href="toc.html">toc</a> | <a href="http://www.math.uiuc.edu/Macaulay2/">Macaulay2 web site</a></div> </td> </tr> </table> <hr/> <div><h1>RatExt -- Ext(holonomic D-module, polynomial ring localized at the sigular locus)</h1> <div class="single"><h2>Synopsis</h2> <ul><li><div class="list"><dl class="element"><dt class="heading">Usage: </dt><dd class="value"><div><tt>RatExt M, RatExt I; RatExt(M,f), RatExt(I,f);</tt><br/><tt> RatExt(i,M), RatExt(i,I); RatExt(i,M,f), RatExt(i,I,f)</tt></div> </dd></dl> </div> </li> <li><div class="single">Inputs:<ul><li><span><tt>M</tt>, <span>a <a href="../../Macaulay2Doc/html/___Module.html">module</a></span>, over the Weyl algebra <em>D</em></span></li> <li><span><tt>I</tt>, <span>an <a href="../../Macaulay2Doc/html/___Ideal.html">ideal</a></span>, which represents the module <em>M = D/I</em></span></li> <li><span><tt>f</tt>, <span>a <a href="../../Macaulay2Doc/html/___Ring__Element.html">ring element</a></span>, a polynomial</span></li> <li><span><tt>i</tt>, <span>an <a href="../../Macaulay2Doc/html/___Z__Z.html">integer</a></span>, nonnegative</span></li> </ul> </div> </li> <li><div class="single">Outputs:<ul><li><span><span>a <a href="../../Macaulay2Doc/html/___Hash__Table.html">hash table</a></span> or <span>a <a href="../../Macaulay2Doc/html/___Module.html">module</a></span>, the Ext<sup>i</sup> group(s) between holonomic <em>M</em> and the polynomial ring localized at the singular locus of <em>M</em> (or at <em>f</em> if specified)</span></li> </ul> </div> </li> <li><div class="single"><a href="../../Macaulay2Doc/html/_using_spfunctions_spwith_spoptional_spinputs.html">Optional inputs</a>:<ul><li><span><a href="___Rat__Ext_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html">Strategy => ...</a>, </span></li> </ul> </div> </li> </ul> </div> <div class="single"><h2>Description</h2> <div>The Ext groups between M and N are the derived functors of Hom, and are finite-dimensional vector spaces over the ground field when M and N are holonomic.<p>The algorithm used appears in the paper 'Polynomial and rational solutions of holonomic systems' by Oaku-Takayama-Tsai (2000). The method is to combine isomorphisms of Bjork and Kashiwara with the restriction algorithm.</p> <table class="examples"><tr><td><pre>i1 : W = QQ[x, D, WeylAlgebra=>{x=>D}] o1 = W o1 : PolynomialRing</pre> </td></tr> <tr><td><pre>i2 : M = W^1/ideal(x*D+5) o2 = cokernel | xD+5 | 1 o2 : W-module, quotient of W</pre> </td></tr> <tr><td><pre>i3 : RatExt M 1 o3 = HashTable{0 => QQ } 1 1 => QQ o3 : HashTable</pre> </td></tr> </table> </div> </div> <div class="single"><h2>Caveat</h2> <div>Input modules M or D/I should be holonomic.</div> </div> <div class="single"><h2>See also</h2> <ul><li><span><a href="___Dresolution.html" title="resolution of a D-module">Dresolution</a> -- resolution of a D-module</span></li> <li><span><a href="___Dintegration.html" title="integration modules of a D-module">Dintegration</a> -- integration modules of a D-module</span></li> </ul> </div> <div class="waystouse"><h2>Ways to use <tt>RatExt</tt> :</h2> <ul><li>RatExt(Ideal)</li> <li>RatExt(Ideal,RingElement)</li> <li>RatExt(Module)</li> <li>RatExt(Module,RingElement)</li> <li>RatExt(ZZ,Ideal)</li> <li>RatExt(ZZ,Ideal,RingElement)</li> <li>RatExt(ZZ,Module)</li> <li>RatExt(ZZ,Module,RingElement)</li> </ul> </div> </div> </body> </html>