Courier-IMAP is a server that provides IMAP access to Maildir mailboxes.
This IMAP server does NOT handle traditional mailbox files
(/var/spool/mail, and derivatives), it was written for the specific
purpose of providing IMAP access to Maildirs.
Courier-IMAP implements some extensions to the basic Maildir mail
storage format in order to support some additional features, such as
folders and "soft" quotas. This is done in a way that's backwards
compatible with the standard Maildir users (although, of course, they
will ignore the additional features). Other software that understands
and uses the same Maildir extensions is SqWebMail, and maildrop.
Features:
* Extremely small footprint.
* Abstract authentication modules.
* Virtual mailbox support.
* Pop3 daemon.
the popa3d goals
================
Is a POP3 daemon by Solar Designer.
Well, the goals themselves are obvious; they're probably the same for most
other POP3 servers as well. It's their priority that differs. For popa3d,
the goals are:
1. Security (to the extent that is possible with POP3 at all, of course).
2. Reliability (again, as limited by the mailbox format and the protocol).
3. RFC compliance (slightly relaxed to work with real-world POP3 clients).
4. Performance (limited by the more important goals, above).
This port is installed to be run from inetd, which is sufficient
for normal usage. However, it is possible to build a stand-alone
version, should you need better performance.
Mulberry is back under new ownership and is now available for FREE!
Mulberry is a high-performance, scalable, and graphically groovy internet
mail client. It uses the IMAP (IMAP4rev1, IMAP4, and IMAP2bis) protocol for
accessing mail messages on a server, the standard SMTP protocol for sending
messages, and does lots and lots of things with MIME parts for mixed text
and "attachments" of many different types of files and data. Support for
POP3 and Local accounts, full disconnected IMAP support, PGP/GPG,
SSL/STARTTLS, local and SIEVE support for filtering and much more!
Please note that there is no official support for Mulberry now -
community support via mailing lists and other such resources will be
used instead.
A patch to stock qmail-1.03 to get all user account information
from an LDAP database. It primary target are POP toaster with
huge numbers of users (from thousands up to millions).
Some of it's greatest features:
* Users and virtual domains in an LDAP database
* No local accounts needed
* Perfect for ISP's to build POP toasters
* Native mail server clustering
* Supports size quotas on user maildirs
* Automatic creation of home- and maildir's
* Handles replies with new qmail-reply
* Extensive logging in qmail-smtpd and qmail-pop3d
* Supports tarpitting (based on a patch by Chris Johnson)
* Supports OpenLDAP 2.x, Novell NDS
* Includes extensive Antispam-Features
* Supports automatic maildir creation when the first mail arrives
* Support for SHA, SSHA, MD5, SMD5, MD4 and RIPE-MD160
* Support for NS-MTA-MD5 encrypted passwords used by Netscape Mailserver
* It also supports the password format used by Software.com's Post.Office
* Support TLS (SSL) encrytion of SMTP mail transport (by Frederik Vermeulen)
Foma is a compiler, programming language, and C library for constructing
finite-state automata and transducers for various uses. It has specific
support for many natural language processing applications such as producing
morphological analyzers. Although NLP applications are probably the main use
of foma, it is sufficiently generic to use for a large number of purposes.
The foma interface is similar to the Xerox xfst interface, and supports
most of the commands and the regular expression syntax in xfst.
Many grammars written for xfst compile out-of-the-box with foma.
The library contains efficient implementations of all classical
automata/transducer algorithms: determinization, minimization, epsilon-removal,
composition, boolean operations. Also, more advanced construction methods
are available: context restriction, quotients, first-order regular logic,
transducers from replacement rules, etc.
the Auto Payment Calculator V1.0 Release
Copyright (C) 1997 Eric A. Griff
Auto Payment Calculator is a simple, xforms based, application for
use under the X-windows system, that calculates auto loan payments.
It is pretty straight forward. You enter the Principal (Amount),
Term (in months), and Rate, and then with either [RETURN]
(or [enter] or whatever your keyboard equivelent is), (ALT-C), or
clicking the calculate button; you will have the payment in months,
as well as number of weeks, and weekly payment.
You may also [TAB] through the Amount, Term, and Rate, as well as
hold down ALT and press the character in its Name that is underlined
to go do that function. As long as all three are filled in, you may
hit [ENTER] to Calculate right there. This makes it easy to cycle
quickly through numerous terms, amounts, and rates.
FFTW is a C subroutine library for computing the Discrete Fourier Transform
(DFT) in one or more dimensions, of both real and complex data, and of
arbitrary input size. We believe that FFTW, which is free software, should
become the FFT library of choice for most applications. Our benchmarks,
performed on a variety of platforms, show that FFTW's performance is
typically superior to that of other publicly available FFT software.
Moreover, FFTW's performance is portable: the program will perform well on
most architectures without modification.
The FFTW package was developed at MIT by Matteo Frigo and Steven G.
Johnson. Please send email to fftw@theory.lcs.mit.edu so that we can keep
track of users and send you information about new releases. The latest
version of FFTW, benchmarks, links, and other information can be found at
the FFTW home page.
FFTW is a C subroutine library for computing the Discrete Fourier Transform
(DFT) in one or more dimensions, of both real and complex data, and of
arbitrary input size. We believe that FFTW, which is free software, should
become the FFT library of choice for most applications. Our benchmarks,
performed on a variety of platforms, show that FFTW's performance is
typically superior to that of other publicly available FFT software.
Moreover, FFTW's performance is portable: the program will perform well on
most architectures without modification.
The FFTW package was developed at MIT by Matteo Frigo and Steven G.
Johnson. Please send email to fftw@theory.lcs.mit.edu so that we can keep
track of users and send you information about new releases. The latest
version of FFTW, benchmarks, links, and other information can be found at
the FFTW home page.
KmPlot is a program to draw graphs, their integrals or derivatives. It
supports different systems of coordinates like the cartesian or the
polar coordinate system. The graphs can be colorized and the view is
scalable, so that you are able to zoom to the level you need.
Features:
- Powerful mathematical parser.
- Precise metric printing.
- Different plot types: cartesian, parametric, polar, implicit,
differential.
- Highly configurable visual settings (plot line, axes, grid).
- Export to bitmap format (BMP and PNG) and scalable vector graphics
(SVG).
- Save/load complete session in readable XML format.
- Trace mode: cross hair following plot, coordinates shown in the
status bar.
- Supports zooming.
- Ability to draw the 1st and 2nd derivative and the integral of a
plot function.
- Supports user defined constants and parameter values.
- Various tools for plot functions:
- Find minimum/maximum point.
- Get y-value and draw the area between the function and the y-axis.
LASPack (version 1.12.2)
LASPack is a package for solving large sparse systems of linear equations
like those which arise from discretization of partial differential equations.
Main features:
- The primary aim of LASPack is the implementation of efficient iterative
methods for the solution of systems of linear equations.
- Beside the obligatory Jacobi, succesive over-relaxation, Chebyshev, and
conjugate gradient solvers, LASPack contains selected state-of-the-art
algorithms which are commonly used for large sparse systems:
- CG-like methods for non-symmetric systems: CGN, GMRES, BiCG, QMR, CGS, and
BiCGStab,
- multilevel methods such as multigrid and conjugate gradient method
preconditioned by multigrid and BPX preconditioners.
A complete description of the package (including the installation procedure)
you may find in LASPack Reference Manual: