CONTRIBUTORS
author wenzelm
Wed Nov 21 16:40:51 2007 +0100 (2007-11-21)
changeset 25454 470a61a65712
parent 25449 f3d5111a9c4b
child 25468 d2c618390928
permissions -rw-r--r--
tuned;
     1 For the purposes of the license agreement in the file COPYRIGHT, a
     2 'contributor' is anybody who is listed in this file (CONTRIBUTORS) or
     3 who is listed as an author in one of the source files of this Isabelle
     4 distribution.
     5 
     6 
     7 Contributions to Isabelle2007
     8 -----------------------------
     9 
    10 * October 2007: Norbert Schirmer, TUM / Uni Saarbruecken
    11   State Spaces: The Locale Way (in HOL).
    12 
    13 * October 2007: Mark A. Hillebrand, DFKI
    14   Robust sub/superscripts in LaTeX document output.
    15 
    16 * August 2007: Jeremy Dawson, NICTA and Paul Graunke, Galois and Brian
    17     Huffman, PSU and Gerwin Klein, NICTA and John Matthews, Galois
    18   HOL-Word: a library for fixed-size machine words in Isabelle.
    19 
    20 * August 2007: Brian Huffman, PSU
    21   HOL/Library/Boolean_Algebra and HOL/Library/Numeral_Type.
    22 
    23 * June 2007: Amine Chaieb, TUM
    24   Semiring normalization and Groebner Bases.
    25   Support for dense linear orders.
    26 
    27 * June 2007: Joe Hurd, Oxford
    28   Metis theorem-prover.
    29 
    30 * 2007: Kong W. Susanto, Cambridge
    31   HOL: Metis prover integration.
    32 
    33 * 2007: Stefan Berghofer, TUM
    34   HOL: inductive predicates and sets.
    35 
    36 * 2007: Norbert Schirmer, TUM
    37   HOL/record: misc improvements.
    38 
    39 * 2006/2007: Alexander Krauss, TUM
    40   HOL: function package and related theories on termination.
    41 
    42 * 2006/2007: Florian Haftmann, TUM
    43   Pure: generic code generator framework.
    44   Pure: class package.
    45   HOL: theory reorganization, code generator setup.
    46 
    47 * 2006/2007: Christian Urban, TUM and Stefan Berghofer, TUM and
    48     Julien Narboux, TUM
    49   HOL/Nominal package and related tools.
    50 
    51 * November 2006: Lukas Bulwahn, TUM
    52   HOL: method "lexicographic_order" for function package.
    53 
    54 * October 2006: Stefan Hohe, TUM
    55   HOL-Algebra: ideals and quotients over rings.
    56 
    57 * August 2006: Amine Chaieb, TUM
    58   Experimental support for generic reflection and reification in HOL.
    59 
    60 * July 2006: Rafal Kolanski, NICTA
    61   Hex (0xFF) and binary (0b1011) numerals.
    62 
    63 * May 2006: Klaus Aehlig, LMU
    64   Command 'normal_form': normalization by evaluation.
    65 
    66 * May 2006: Amine Chaieb, TUM
    67   HOL-Complex: Ferrante and Rackoff Algorithm for linear real
    68   arithmetic.
    69 
    70 * February 2006: Benjamin Porter, NICTA
    71   HOL and HOL-Complex: generalised mean value theorem, continuum is
    72   not denumerable, harmonic and arithmetic series, and denumerability
    73   of rationals.
    74 
    75 * October 2005: Martin Wildmoser, TUM
    76   Sketch for Isar 'guess' element.
    77 
    78 
    79 Contributions to Isabelle2005
    80 -----------------------------
    81 
    82 * September 2005: Lukas Bulwahn and Bernhard Haeupler, TUM
    83   HOL-Complex: Formalization of Taylor series.
    84 
    85 * September 2005: Stephan Merz, Alwen Tiu, QSL Loria
    86   Components for SAT solver method using zChaff.
    87 
    88 * September 2005: Ning Zhang and Christian Urban, LMU Munich
    89   A Chinese theory.
    90 
    91 * September 2005: Bernhard Haeupler, TUM
    92   Method comm_ring for proving equalities in commutative rings.
    93 
    94 * July/August 2005: Jeremy Avigad, Carnegie Mellon University
    95   Various improvements of the HOL and HOL-Complex library.
    96 
    97 * July 2005: Florian Zuleger, Johannes Hoelzl, and Simon Funke, TUM
    98   Some structured proofs about completeness of real numbers.
    99 
   100 * May 2005: Rafal Kolanski and Gerwin Klein, NICTA
   101   Improved retrieval of facts from theory/proof context.
   102 
   103 * February 2005: Lucas Dixon, University of Edinburgh
   104   Improved subst method.
   105 
   106 * 2005: Brian Huffman, OGI
   107   Various improvements of HOLCF.
   108   Some improvements of the HOL-Complex library.
   109 
   110 * 2005: Claire Quigley and Jia Meng, University of Cambridge
   111   Some support for asynchronous communication with external provers
   112   (experimental).
   113 
   114 * 2005: Florian Haftmann, TUM
   115   Contributions to document 'sugar'.
   116   Various ML combinators, notably linear functional transformations.
   117   Some cleanup of ML legacy.
   118   Additional antiquotations.
   119   Improved Isabelle web site.
   120 
   121 * 2004/2005: David Aspinall, University of Edinburgh
   122   Various elements of XML and PGIP based communication with user
   123   interfaces (experimental).
   124 
   125 * 2004/2005: Gerwin Klein, NICTA
   126   Contributions to document 'sugar'.
   127   Improved Isabelle web site.
   128   Improved HTML presentation of theories.
   129 
   130 * 2004/2005: Clemens Ballarin, TUM
   131   Provers: tools for transitive relations and quasi orders.
   132   Improved version of locales, notably interpretation of locales.
   133   Improved version of HOL-Algebra.
   134 
   135 * 2004/2005: Amine Chaieb, TUM
   136   Improved version of HOL presburger method.
   137 
   138 * 2004/2005: Steven Obua, TUM
   139   Improved version of HOL/Import, support for HOL-Light.
   140   Improved version of HOL-Complex-Matrix.
   141   Pure/defs: more sophisticated checks on well-formedness of overloading.
   142   Pure/Tools: an experimental evaluator for lambda terms.
   143 
   144 * 2004/2005: Norbert Schirmer, TUM
   145   Contributions to document 'sugar'.
   146   Improved version of HOL/record.
   147 
   148 * 2004/2005: Sebastian Skalberg, TUM
   149   Improved version of HOL/Import.
   150   Some internal ML reorganizations.
   151 
   152 * 2004/2005: Tjark Weber, TUM
   153   SAT solver method using zChaff.
   154   Improved version of HOL/refute.
   155 
   156 $Id$