Summary
Logic
Debian Science Logic packages
This metapackage is part of the Debian Pure Blend "Debian Science"
and installs packages related to Computational Logic. It contains
formula transformation tools, solvers for formulas specified in
various logics, interactive proof systems, etc.
Description
For a better overview of the project's availability as a Debian package, each head row has a color code according to this scheme:
If you discover a project which looks like a good candidate for Debian Science
to you, or if you have prepared an unofficial Debian package, please do not hesitate to
send a description of that project to the Debian Science mailing list
Links to other tasks
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Debian Science Logic packages
Official Debian packages with high relevance
agda
dependently typed functional programming language
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Versions of package agda |
Release | Version | Architectures |
sid | 2.6.4.3-1 | all |
jessie | 2.4.0.2-2 | all |
buster | 2.5.4.1-3 | all |
bullseye | 2.6.1-1 | all |
bookworm | 2.6.2.2-1.1 | all |
trixie | 2.6.4.3-1 | all |
stretch | 2.5.1.1-3 | all |
upstream | 2.7.0.1 |
Debtags of package agda: |
role | metapackage |
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License: DFSG free
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Agda is a dependently typed functional programming language: It has inductive
families, which are like Haskell's GADTs, but they can be indexed by values and
not just types. It also has parameterised modules, mixfix operators, Unicode
characters, and an interactive Emacs interface (the type checker can assist in
the development of your code).
Agda is also a proof assistant: It is an interactive system for writing and
checking proofs. Agda is based on intuitionistic type theory, a foundational
system for constructive mathematics developed by the Swedish logician Per
Martin-Löf. It has many similarities with other proof assistants based on
dependent types, such as Coq, Epigram and NuPRL.
This is a meta package which provides Agda's emacs mode, executable, standard
library and its documentation.
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alt-ergo
Automatic theorem prover dedicated to program verification
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Versions of package alt-ergo |
Release | Version | Architectures |
bullseye | 2.0.0-7 | amd64,arm64,armel,i386,mips64el,mipsel,ppc64el,s390x |
stretch | 1.30-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 0.95.2-3 | amd64,armel,armhf,i386 |
buster | 2.0.0-3 | amd64,arm64,i386 |
Debtags of package alt-ergo: |
role | program |
uitoolkit | gtk |
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License: DFSG free
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Alt-Ergo is an automatic theorem prover geared towards application in
program verification. It is based on CC(X), a congruence closure
algorithm parameterized by an equational theory X. Alt-Ergo has
built-in provers for propositional logic, linear arithmetic,
uninterpreted function symbols, associative-commutative function
symbols, polymorphic arrays, user-defined polymorphic record types
and polymorphic enumeration types. It has restricted support for
reasoning over arbitrary user-defined algebraic types, first-order
quantifiers, and non-linear arithmetic.
This package contains the prover as a command-line executable.
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boolector
SMT solver for bit-vectors and arrays
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Versions of package boolector |
Release | Version | Architectures |
trixie | 1.5.118.6b56be4.121013-1.3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
jessie | 1.5.118.6b56be4.121013-1 | amd64,armel,armhf,i386 |
stretch | 1.5.118.6b56be4.121013-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 1.5.118.6b56be4.121013-1 | amd64,arm64,armhf,i386 |
bullseye | 1.5.118.6b56be4.121013-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
sid | 1.5.118.6b56be4.121013-1.3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 1.5.118.6b56be4.121013-1.3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
Debtags of package boolector: |
role | program |
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License: DFSG free
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Boolector is an efficient SMT solver for the quantifier-free theory of
bit-vectors in combination with the quantifier-free extensional theory of
arrays.
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clasp
conflict-driven nogood learning answer set solver
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Versions of package clasp |
Release | Version | Architectures |
trixie | 3.3.5-4.2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
jessie | 3.1.0-1 | amd64,armel,armhf,i386 |
stretch | 3.2.1-3 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 3.3.4-2 | amd64,arm64,armhf,i386 |
bullseye | 3.3.5-4 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 3.3.5-4.2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
sid | 3.3.5-4.2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
Debtags of package clasp: |
role | program |
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License: DFSG free
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clasp is an answer set solver for (extended) normal logic
programs. It combines the high-level modeling capacities of answer
set programming (ASP) with state-of-the-art techniques from the area
of Boolean constraint solving. The primary clasp algorithm relies on
conflict-driven nogood learning, a technique that proved very
successful for satisfiability checking (SAT). Unlike other learning
ASP solvers, clasp does not rely on legacy software, such as a SAT
solver or any other existing ASP solver. Rather, clasp has been
genuinely developed for answer set solving based on conflict-driven
nogood learning. clasp can be applied as an ASP solver (on LPARSE
output format), as a SAT solver (on simplified DIMACS/CNF format), or
as a PB solver (on OPB format).
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coinor-cbc
Coin-or branch-and-cut mixed integer programming solver
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Versions of package coinor-cbc |
Release | Version | Architectures |
sid | 2.10.12+ds-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bullseye | 2.10.5+ds1-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 2.9.9+repack1-1 | amd64,arm64,armhf,i386 |
stretch | 2.8.12-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 2.8.12-1 | amd64,armel,armhf,i386 |
bookworm | 2.10.8+ds1-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 2.10.12+ds-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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Cbc (Coin-or branch and cut) is an open-source mixed integer programming
solver written in C++. It can be used as a callable library or as a
stand-alone executable.
This package contains cbc executable.
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coinor-symphony
COIN-OR solver for mixed-integer linear programs
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Versions of package coinor-symphony |
Release | Version | Architectures |
stretch | 5.6.1-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
trixie | 5.6.17+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 5.6.17+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 5.6.16+repack1-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 5.6.16+repack1-1.1 | amd64,arm64,armhf,i386 |
sid | 5.6.17+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
jessie | 5.6.1-1 | amd64,armel,armhf,i386 |
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License: DFSG free
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SYMPHONY is an open-source generic mixed-integer linear programs (MILP) solver,
callable library, and extensible framework for implementing customized solvers
SYMPHONY has a number of advanced capabilities, including the ability to
solve multi-objective MILPs, the ability to warm start its solution procedure,
and the ability to perform basic sensitivity analyses.
SYMPHONY is part of the larger COIN-OR initiative (Computational Infrastructure
for Operations Research).
This package contains the symphony executable.
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coq
proof assistant for higher-order logic (toplevel and compiler)
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Versions of package coq |
Release | Version | Architectures |
trixie | 8.19.1+dfsg-3 | amd64,arm64,ppc64el,riscv64,s390x |
sid | 8.20.0+dfsg-1 | amd64,arm64,ppc64el,riscv64,s390x |
buster | 8.9.0-1 | amd64,arm64,armhf,i386 |
stretch | 8.6-4 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 8.4pl4dfsg-1 | amd64,armel,armhf,i386 |
bullseye | 8.12.0-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el |
bookworm | 8.16.1+dfsg-1 | amd64,arm64,armhf,i386,ppc64el,s390x |
Debtags of package coq: |
devel | compiler |
field | mathematics |
interface | commandline, text-mode |
role | program |
scope | utility |
uitoolkit | ncurses |
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License: DFSG free
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Coq is a proof assistant for higher-order logic, which allows the
development of computer programs consistent with their formal
specification. It is developed using Objective Caml and Camlp5.
This package provides coqtop, a command line interface to Coq.
A graphical interface for Coq is provided in the coqide package.
Coq can also be used with ProofGeneral, which allows proofs to be
edited using emacs and xemacs. This requires the proofgeneral
package to be installed.
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cvc4
automated theorem prover for SMT problems
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Versions of package cvc4 |
Release | Version | Architectures |
sid | 1.8-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bullseye | 1.8-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 1.8-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 1.6-2 | amd64,i386 |
trixie | 1.8-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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CVC4 is an efficient automatic theorem prover for satisfiability
modulo theories (SMT) problems. It can be used to prove the validity
(or, dually, the satisfiability) of first-order formulas in a large
number of built-in logical theories and their combination.
CVC4 is intended to be an open and extensible SMT engine, and it can
be used as a stand-alone tool or as a library. It is the fourth in
the Cooperating Validity Checker family of tools (also including CVC,
CVC Lite and CVC3). CVC4 has been designed to increase the
performance and reduce the memory overhead of its predecessors.
This package contains binaries needed to use CVC4 as a stand-alone
tool.
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depqbf
solver for quantified boolean formulae
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Versions of package depqbf |
Release | Version | Architectures |
bookworm | 5.01-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
sid | 5.01-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
jessie | 3.04-1 | amd64,armel,armhf,i386 |
stretch | 5.01-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 5.01-3 | amd64,arm64,armhf,i386 |
bullseye | 5.01-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 5.01-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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DepQBF is a search-based solver for quantified boolean formulae (QBF)
in prenex conjunctive normal form. It is based on the DPLL algorithm
for QBF, called QDPLL, with conflict-driven clause and solution-driven
cube learning. By analyzing the syntactic structure of a formula,
DepQBF tries to identify independent variables. In general, information
on independent variables can be represented in the formal framework of
dependency schemes. DepQBF computes the so-called "standard dependency
scheme" of a given formula. In addition to other benefits, information
on independent variables often increases the freedom for decision
making and clause learning.
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drat-trim
??? missing short description for package drat-trim :-(
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Versions of package drat-trim |
Release | Version | Architectures |
trixie | 0.0~git20240428.effa1dc-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 0.0~git20240428.effa1dc-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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gringo
grounding tools for (disjunctive) logic programs
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Versions of package gringo |
Release | Version | Architectures |
bookworm | 5.4.1-3.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 5.3.0-10 | amd64,arm64,armhf,i386 |
stretch | 5.1.0-4 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 4.4.0-1 | amd64,armel,armhf,i386 |
sid | 5.6.2-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 5.6.2-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bullseye | 5.4.1-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
upstream | 5.7.1 |
Debtags of package gringo: |
role | program |
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License: DFSG free
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Current answer set solvers work on variable-free programs. Hence, a
grounder is needed that, given an input program with first-order
variables, computes an equivalent ground (variable-free) program.
This package contains the following tools:
- gringo: a grounder that, given an input program with first-order
variables, computes an equivalent ground (variable-free) program in
aspif format. Its output can be processed further with answer set
solver clasp. Starting with gringo series 5, its output is no longer
directly compatible with solvers like smodels or cmodels reading
smodels format. Use lpconvert for translating aspif format to
smodels format.
- clingo: combines both gringo and clasp into a monolithic system.
This way it offers more control over the grounding and solving
process than gringo and clasp can offer individually: multi-shot
solving.
- lpconvert: converter between gringo's aspif and smodels format.
- reify: small utility that reifies logic programs given in aspif
format. It produces a set of facts, which can be processed further
with gringo.
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hol-light
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Versions of package hol-light |
Release | Version | Architectures |
sid | 20231021-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
jessie | 20131026-1 | amd64,armel,armhf,i386 |
stretch | 20170109-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
bullseye | 20190729-4 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 20230128-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
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License: DFSG free
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HOL Light is an interactive theorem prover for Higher-Order Logic
with a very simple logical core running in an OCaml toplevel. HOL
Light is famous for the verification of floating-point
arithmetic as well as for the Flyspeck project, which aimed at the
formalization of Tom Hales' proof of the Kepler conjecture.
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hol88
Higher Order Logic, system image
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Versions of package hol88 |
Release | Version | Architectures |
jessie | 2.02.19940316-28 | amd64,armel,armhf,i386 |
buster | 2.02.19940316-35 | amd64,arm64,armhf,i386 |
bullseye | 2.02.19940316-35.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 2.02.19940316dfsg-5 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 2.02.19940316dfsg-5 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 2.02.19940316dfsg-5 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
stretch | 2.02.19940316-33 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
Debtags of package hol88: |
uitoolkit | ncurses |
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License: DFSG free
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The HOL System is an environment for interactive theorem proving in a
higher-order logic. Its most outstanding feature is its high degree
of programmability through the meta-language ML. The system has a
wide variety of uses from formalizing pure mathematics to
verification of industrial hardware. Academic and industrial sites
world-wide are using HOL.
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kissat
??? missing short description for package kissat :-(
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Versions of package kissat |
Release | Version | Architectures |
sid | 4.0.1-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 4.0.1-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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lbt
converts from LTL formulas to Büchi automata
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Versions of package lbt |
Release | Version | Architectures |
bullseye | 1.2.2-7 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 1.2.2-6 | amd64,arm64,armhf,i386 |
stretch | 1.2.2-6 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 1.2.2-5 | amd64,armel,armhf,i386 |
sid | 1.2.2-7 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 1.2.2-7 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 1.2.2-7 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
Debtags of package lbt: |
field | mathematics |
interface | commandline |
role | program |
scope | utility |
use | converting |
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License: DFSG free
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This software converts a linear temporal logic (ltl) formula to a
generalised Büchi automaton. The resulting automaton may be used, for
instance, in model checking, where it represents a property to be
verified from a model (e.g. a Petri net).
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maria
reachability analyzer for Algebraic System Nets
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Versions of package maria |
Release | Version | Architectures |
bullseye | 1.3.5-4.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
jessie | 1.3.5-4 | amd64,armel,armhf,i386 |
stretch | 1.3.5-4.1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 1.3.5-4.1 | amd64,arm64,armhf,i386 |
sid | 1.3.5-6 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 1.3.5-6 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 1.3.5-4.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
Debtags of package maria: |
devel | testing-qa |
field | mathematics |
interface | text-mode |
role | program |
scope | utility |
uitoolkit | ncurses |
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License: DFSG free
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Maria is a powerful tool designed to aid engineers in modelling and
solving concurrency related problems in parallel and distributed
computing systems.
Maria finds deadlocks and violations against safety or liveness
requirements by exploring all states that can be reached from the
initial state of a system. The tool manages tens or hundreds of
millions of reachable states and enabled actions.
The expressive power of Maria's formalism is close to high-level
programming languages, thanks to its rich data type system and
powerful algebraic operations.
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maude
high-performance logical framework
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Versions of package maude |
Release | Version | Architectures |
jessie | 2.6-6 | amd64,armel,armhf,i386 |
stretch | 2.7-2 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
bullseye | 3.1-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 3.4-1 | amd64,arm64,mips64el,ppc64el,riscv64,s390x |
bookworm | 3.2-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 2.7-2 | amd64,arm64,armhf,i386 |
sid | 3.4-1 | amd64,arm64,mips64el,ppc64el,riscv64,s390x |
upstream | 3.5 |
Debtags of package maude: |
uitoolkit | ncurses |
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License: DFSG free
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Maude is a high-performance reflective language and system supporting
both equational and rewriting logic specification and programming for
a wide range of applications. Maude has been influenced in important
ways by the OBJ3 language, which can be regarded as an equational
logic sublanguage. Besides supporting equational specification and
programming, Maude also supports rewriting logic computation.
Rewriting logic is a logic of concurrent change that can naturally
deal with state and with concurrent computations. It has good
properties as a general semantic framework for giving executable
semantics to a wide range of languages and models of concurrency. In
particular, it supports very well concurrent object-oriented
computation. The same reasons making rewriting logic a good semantic
framework make it also a good logical framework, that is, a metalogic
in which many other logics can be naturally represented and executed.
Maude supports in a systematic and efficient way logical
reflection. This makes Maude remarkably extensible and powerful,
supports an extensible algebra of module composition operations, and
allows many advanced metaprogramming and metalanguage
applications. Indeed, some of the most interesting applications of
Maude are metalanguage applications, in which Maude is used to create
executable environments for different logics, theorem provers,
languages, and models of computation.
Maude is of interest to the biomedical community for modeling and
analysis of biological systems.
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minisat+
solver for pseudo-Boolean constraints
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Versions of package minisat+ |
Release | Version | Architectures |
jessie | 1.0-2 | amd64,armel,armhf,i386 |
buster | 1.0-4 | amd64,arm64,armhf,i386 |
bookworm | 1.0-4 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 1.0-4 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
sid | 1.0-5 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 1.0-5 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
stretch | 1.0-3 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
Debtags of package minisat+: |
field | mathematics |
role | program |
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License: DFSG free
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MinSat+ is a solver for Pseudo-Boolean Optimization (AKA 0-1
integer programming) that is based on the MiniSat SAT-solver. It
supports optimizing a linear objective function, subject to a set
of linear constraints. The variables of the objective function
and constraints are boolean, i.e. required to be 0 or
1. Pseudo-Boolean optimization can be used to solve many kinds of
combinatorial optimization problems. This version of Minisat+ is
compiled with bignum support for constraint coefficients.
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mona
theorem prover based on automata
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Versions of package mona |
Release | Version | Architectures |
trixie | 1.4-18-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 1.4-18-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 1.4-18-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 1.4-17-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 1.4-17-1 | amd64,arm64,armhf,i386 |
stretch | 1.4-17-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
jessie | 1.4-15-1 | amd64,armel,armhf,i386 |
Debtags of package mona: |
field | mathematics |
role | program |
scope | utility |
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License: DFSG free
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MONA is a tool that translates formulas in the logics WS1S or WS2S
into finite-state automata represented by BDDs. The formulas may
express search patterns, temporal properties of reactive systems,
parse tree constraints, etc. MONA also analyses the automaton
resulting from the compilation, and determines whether the formula is
valid and, if the formula is not valid, generates a counter-example.
Documentation is available from the MONA website http://www.brics.dk/mona/.
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picosat
SAT solver with proof and core support
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Versions of package picosat |
Release | Version | Architectures |
jessie | 960-1 | amd64,armel,armhf,i386 |
sid | 965-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 965-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 965-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 965-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 960-1 | amd64,arm64,armhf,i386 |
stretch | 960-1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
Debtags of package picosat: |
field | mathematics |
role | program |
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License: DFSG free
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Despite the NP completeness of the satisfiabilty problem of Boolean formulas
(SAT), SAT solvers are often able to decide this problem in a reasonable time
frame. As all other NP complete problems are reducible to SAT, the solvers
have become a general purpose tool for this class of problems.
PicoSAT is a SAT solver that turned out to be faster on industrial instances
than MiniSAT 2.0 and also can generate proofs and cores in memory.
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proofgeneral
generic frontend for proof assistants
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Versions of package proofgeneral |
Release | Version | Architectures |
sid | 4.5-2 | all |
bullseye | 4.4.1~pre170114-1.2 | all |
bookworm | 4.4.1~pre170114-1.2 | all |
stretch | 4.4.1~pre170114-1 | all |
jessie | 4.3~pre131011-0.2 | all |
Debtags of package proofgeneral: |
field | mathematics |
interface | text-mode, x11 |
role | plugin |
suite | emacs |
use | editing |
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License: DFSG free
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Proof General is a major mode to turn Emacs into an interactive proof
assistant to write formal mathematical proofs using a variety of
theorem provers.
This package provides Proof General support for Coq. (There is no
other proof assistant that one could sensibly support.)
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prover9
theorem prover and countermodel generator
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Versions of package prover9 |
Release | Version | Architectures |
jessie | 0.0.200911a-2.1 | amd64,armel,armhf,i386 |
stretch | 0.0.200911a-2.1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 0.0.200911a-2.1 | amd64,arm64,armhf,i386 |
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License: DFSG free
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This package provides the Prover9 resolution/paramodulation theorem
prover and the Mace4 countermodel generator.
Prover9 is an automated theorem prover for first-order and equational
logic. It is a successor of the Otter prover. Prover9 uses the
inference techniques of ordered resolution and paramodulation with
literal selection.
The program Mace4 searches for finite structures satisfying first-order
and equational statements, the same kind of statement that Prover9
accepts. If the statement is the denial of some conjecture, any
structures found by Mace4 are counterexamples to the conjecture.
Mace4 can be a valuable complement to Prover9, looking for
counterexamples before (or at the same time as) using Prover9 to search
for a proof. It can also be used to help debug input clauses and formulas
for Prover9.
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sat4j
Efficient library of SAT solvers in Java
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Versions of package sat4j |
Release | Version | Architectures |
buster | 2.3.5-0.3 | all |
bullseye | 2.3.5-0.3 | all |
jessie | 2.3.3-1 | all |
sid | 2.3.5-0.3 | all |
stretch | 2.3.5-0.2 | all |
bookworm | 2.3.5-0.3 | all |
trixie | 2.3.5-0.3 | all |
Debtags of package sat4j: |
field | mathematics |
role | program, shared-lib |
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License: DFSG free
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The aim of the SAT4J library is to provide an efficient library of SAT solvers
in Java. Compared to the OpenSAT project, the SAT4J library targets first
users of SAT "black boxes", willing to embed SAT technologies into their
application without worrying about the details. The SAT4J project also tries
to provide a basis of work for SAT researchers.
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spass
automated theorem prover for first-order logic with equality
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Versions of package spass |
Release | Version | Architectures |
jessie | 3.7-3 | amd64,armel,armhf,i386 |
sid | 3.9-1.1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 3.9-1.1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 3.9-1.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 3.9-1.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
stretch | 3.7-4 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
Debtags of package spass: |
field | mathematics |
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License: DFSG free
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SPASS is a saturation-based automated theorem prover for first-order logic with
equality. It is unique due to the combination of the superposition calculus
with specific inference/reduction rules for sorts (types) and a splitting rule
for case analysis motivated by the beta-rule of analytic tableaux and the case
analysis employed in the Davis-Putnam procedure. Furthermore, SPASS provides a
sophisticated clause normal form translation.
This package consists of the SPASS/FLOTTER binary, documentation, and a small
example collection. The tools collections contain the proof checker pcs, the
syntax translators dfg2otter and dfg2tptp, and the ASCII pretty printer
dfg2ascii.
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toulbar2
Exact combinatorial optimization for Graphical Models
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Versions of package toulbar2 |
Release | Version | Architectures |
buster | 1.0.0+dfsg3-2 | amd64,arm64,armhf,i386 |
bullseye | 1.1.1+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 1.1.1+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
sid | 1.2.1+dfsg-0.1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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Toulbar2 is an exact discrete optimization tool for Graphical Models
such as Cost Function Networks, Markov Random Fields, Weighted Constraint
Satisfaction Problems and Bayesian Nets.
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why3
Software verification platform
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Versions of package why3 |
Release | Version | Architectures |
buster | 1.2.0-1 | amd64,arm64,armhf,i386 |
sid | 1.7.2-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
stretch | 0.87.3-2 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
trixie | 1.7.2-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 1.5.1-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bullseye | 1.3.3-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
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License: DFSG free
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Why3 is a platform for deductive program verification. It provides a
rich language for specification and programming, called WhyML, and
relies on external theorem provers, both automated and interactive,
to discharge verification conditions. Why3 comes with a standard
library of logical theories (integer and real arithmetic, Boolean
operations, sets and maps, etc.) and basic programming data
structures (arrays, queues, hash tables, etc.). A user can write
WhyML programs directly and get correct-by-construction OCaml
programs through an automated extraction mechanism. WhyML is also
used as an intermediate language for the verification of C, Java, or
Ada programs.
Why3 is a complete reimplementation of the former Why platform. Among
the new features are: numerous extensions to the input language, a
new architecture for calling external provers, and a well-designed
API, allowing to use Why3 as a software library. An important
emphasis is put on modularity and genericity, giving the end user a
possibility to easily reuse Why3 formalizations or to add support for
a new external prover if wanted.
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z3
theorem prover from Microsoft Research
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Versions of package z3 |
Release | Version | Architectures |
bullseye | 4.8.10-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
stretch | 4.4.1-1~deb9u1 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
sid | 4.13.3-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
trixie | 4.13.3-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
bookworm | 4.8.12-3.1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
buster | 4.4.1-1~deb10u1 | amd64,arm64,armhf,i386 |
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License: DFSG free
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Z3 is a state-of-the-art theorem prover from Microsoft Research. It can be
used to check the satisfiability of logical formulas over one or more
theories. Z3 offers a compelling match for software analysis and verification
tools, since several common software constructs map directly into supported
theories.
The Z3 input format is an extension of the one defined by the SMT-LIB 2.0
standard.
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Official Debian packages with lower relevance
coinor-libcoinmp-dev
Simple C API for COIN-OR Solvers Clp and Cbc -- development
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Versions of package coinor-libcoinmp-dev |
Release | Version | Architectures |
bookworm | 1.8.3-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
jessie | 1.7.6+dfsg1-1 | amd64,armel,armhf,i386 |
stretch | 1.7.6+dfsg1-2 | amd64,arm64,armel,armhf,i386,mips,mips64el,mipsel,ppc64el,s390x |
buster | 1.8.3-2 | amd64,arm64,armhf,i386 |
bullseye | 1.8.3-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 1.8.3-3 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 1.8.4+dfsg-2 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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The Coin-MP optimizer is an open source solver, it is part of the COIN-OR
project which is an initiative to spur the development of open-source software
for the operations research community.
CoinMP is a C-API library that supports most of the functionality of CLP
(Coin LP), CBC (Coin Branch-and-Cut), and CGL (Cut Generation Library)
projects.
This package contains the files needed to build applications using libCoinMP.
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