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56bd759df1
This commit represents a new era for Gentoo: Storing the gentoo-x86 tree in Git, as converted from CVS. This commit is the start of the NEW history. Any historical data is intended to be grafted onto this point. Creation process: 1. Take final CVS checkout snapshot 2. Remove ALL ChangeLog* files 3. Transform all Manifests to thin 4. Remove empty Manifests 5. Convert all stale $Header$/$Id$ CVS keywords to non-expanded Git $Id$ 5.1. Do not touch files with -kb/-ko keyword flags. Signed-off-by: Robin H. Johnson <robbat2@gentoo.org> X-Thanks: Alec Warner <antarus@gentoo.org> - did the GSoC 2006 migration tests X-Thanks: Robin H. Johnson <robbat2@gentoo.org> - infra guy, herding this project X-Thanks: Nguyen Thai Ngoc Duy <pclouds@gentoo.org> - Former Gentoo developer, wrote Git features for the migration X-Thanks: Brian Harring <ferringb@gentoo.org> - wrote much python to improve cvs2svn X-Thanks: Rich Freeman <rich0@gentoo.org> - validation scripts X-Thanks: Patrick Lauer <patrick@gentoo.org> - Gentoo dev, running new 2014 work in migration X-Thanks: Michał Górny <mgorny@gentoo.org> - scripts, QA, nagging X-Thanks: All of other Gentoo developers - many ideas and lots of paint on the bikeshed
24 lines
1.1 KiB
XML
24 lines
1.1 KiB
XML
<?xml version="1.0" encoding="UTF-8"?>
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<!DOCTYPE pkgmetadata SYSTEM "http://www.gentoo.org/dtd/metadata.dtd">
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<pkgmetadata>
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<herd>sci-mathematics</herd>
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<longdescription lang='en'>
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The OpenOpt suite of Python packages contains the following modules:
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* openopt: universal numerical optimization package with
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several solvers (e.g. ralg) and connections to tens of other,
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graphical output of convergence.
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* FuncDesigner: tool to rapidly build functions over
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variables/arrays and get their dense/sparse derivatives via
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automatic differentiation, integration (with specifiable accuracy by
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interalg), interpolation, uncertainty analysis and interval
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analysis, eigenvalue analysis, solve systems of linear/nonlinear/ODE
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equations and numerical optimization problems coded in FuncDesigner
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by OpenOpt.
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* DerApproximator: tool to get (or check user-supplied) derivatives
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via finite-difference approximation
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* SpaceFuncs: tool for 2D, 3D, N-dimensional geometric modeling with
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possibilities of parametrized calculations, numerical optimization
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and solving systems of geometrical equations.
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</longdescription>
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</pkgmetadata>
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