Bug#259587: O: libquantum-entanglement-perl -- Quantum Mechanic entanglement of variables in perl
Package: wnpp
Severity: normal
The current maintainer of libquantum-entanglement-perl, Sean 'Shaleh'
Perry <shaleh@debian.org>, is apparently not active anymore.
Therefore, I orphan this package now. If you want to be the new
maintainer, please take it -- see
http://www.debian.org/devel/wnpp/index.html#howto-o for detailed
instructions how to adopt a package properly.
Some information about this package:
Package: libquantum-entanglement-perl
Binary: libquantum-entanglement-perl
Version: 0.25-1
Priority: optional
Section: perl
Maintainer: Sean 'Shaleh' Perry <shaleh@debian.org>
Build-Depends-Indep: debhelper (>> 2.1.0)
Architecture: all
Standards-Version: 3.2.1
Format: 1.0
Directory: pool/main/libq/libquantum-entanglement-perl
Files: d29d4a9fce4d570aa9a0bac9a2cde557 704 libquantum-entanglement-perl_0.25-1.dsc
c643c045a4d8fcbb44dbb467ba0f2734 19457 libquantum-entanglement-perl_0.25.orig.tar.gz
f71f0b8501ba91b12bff0c277cdc78f3 1788 libquantum-entanglement-perl_0.25-1.diff.gz
Package: libquantum-entanglement-perl
Priority: optional
Section: perl
Installed-Size: 116
Maintainer: Sean 'Shaleh' Perry <shaleh@debian.org>
Architecture: all
Version: 0.25-1
Depends: perl5
Filename: pool/main/libq/libquantum-entanglement-perl/libquantum-entanglement-perl_0.25-1_all.deb
Size: 28646
MD5sum: 455090460dd8c28b8ad7ea3a82fbad26
Description: Quantum Mechanic entanglement of variables in perl
One of the more popular interpretations of quantum mechanics holds that
instead of particles always being in a single, well defined, state
they instead exist as an almost ghostly overlay of many different
states (or values) at the same time. Of course, it is our experience
that when we look at something, we only ever find it in one single state.
This is explained by the many states of the particle collapsing to a
single state and highlights the importance of observation.
.
Essentially, this allows you to put variables into a superposition
of states, have them interact with each other (so that all states
interact) and then observe them (testing to see if they satisfy
some comparison operator, printing them) which will collapse
the entire system so that it is consistent with your knowledge.
Justification: Most packages out of date, plenty of NMUs, email has bounced
for ages
--
Martin Michlmayr
tbm@cyrius.com
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