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handled by gnome-libs.
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second time.
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Packages using Guile now all depend on guile14. These packages are
expected to be made depend on newer Guile (1.6.x) when updated in the
future.
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Approved by wiz.
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has been a soname change. Pointed out by fredb.
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Huberts latest bulk-build.
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package and library major bumps therein.
Also match dependency in corresponding buildlink2.mk's for the same reason.
Mmmm, binary packages.
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From pino@dohd.org in PR pkg/19437.
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This release represents many bug fixes, expanded language coverage,
greatly enhanced xilinx fpga synthesis and several performance enhancements.
The complete list is rather long.
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GDSreader - simple Calma (GDSii) parser/printer tool.
This software has as target the printing/plotting/displaying of Calma (GDSii)
files without using true layout editors. I had once to visualize an unknown
Calma file and customizing LEdit or Magic (the two layout editors I had access
to) was so difficult that I decided to write this program.
Current status:
- gdsreader is in an alpha stage and you should not expect too much from it;
- the Calma files are almost completely parsed (had no layout example that
makes use of BOX/NODE elements);
- given a Calma structure name, a PostScript file and a HPGL/2 file are
generated. The way each layer is handled is controlled by an ASCII
configuration file. The properties that can be set are color, fill (only
solid is supported), hatch (simple or cross, the angle and spacing are user
customizable too).
In order to produce an useful PostScript output, you need to write a
configuration file (default is .layers.config). The one you'll find with the
distribution is suitable for the Calma example test.gds (an actual Bandgap
reference).
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This represents many many improvements and bug fixes. A few items to
note are that the attributes used by the symbol library have been
greately cleaned up and unified. You may want to run gsymupdate and gschemupdate
if migrating from older versions of the tools.
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This is a development snapshot. Packages of the released/stable
versions will be imported as 'cad/covered' when available.
Covered is a Verilog code coverage analysis tool that can be useful
for determining how well a diagnostic test suite is covering the
design under test. Typically in the design verification work flow, a
design verification engineer will develop a self-checking test suite
to verify design elements/functions specified by a design's
specification document. When the test suite contains all of the tests
required by the design specification, the test writer may be asking
him/herself, "How much logic in the design is actually being
exercised?", "Does my test suite cover all of the logic under test?",
and "Am I done writing tests for the logic?". When the design
verification gets to this point, it is often useful to get some
metrics for determining logic coverage. This is where a code coverage
utility, such as Covered, is very useful.
Please note that this package is a development snapshot and while it
contains the latest and greatest features, it may be buggy as well.
There is a seperate package which is made of the stable releases.
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Changes since last version:
* fixed bug which caused huge memory usage and crashing when zooming way
in to a layout
* Two bugs in aperture macros fixed; one caused "multi macro" macros not
to work properly and the other was related to primitive 20.
* The Debian build system discovered that I checked if unsigned were -1.
* Some cleanup/speedup when parsing Gerber by removing nested strncmp's
with a switch/case.
* RS274D caused segfault.
* If %SR%, %SF% and %AS% are defined to their default values the compiler
doesn't complain anymore. I still don't handle them if they are non
default values.
* In some strange corner case we managed to sometimes get spurious lines
showing up on the image.
* Strange drill files from Orcad386 handled better (we all know what Pitch
thinks about Orcad:-) ).
* Dino Ghilardi has contributed some code to be able to set the scale
explicitly. That can be used when printing PNG's generated by gerbv.
He has also written a text on how to actually get them out on the printer.
It is in doc/PNG-print/PNGPrintMiniHowto.txt.
* Round off when converting from inches to pixels changed so poured areas
built up by several lines now seems to fill. Before the change you could,
at certain zoom levels, see gaps that wasn't there.
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jmmv at menta dot net.
TkGate is a digital circuit editor and simulator with a Tcl/Tk based
interface. TkGate includes a large number of built-in devices
including basic gates, memories, ttys and modules for hierarchical
design. The simulator can be controlled either interactively or
through a simulation script. Memory contents can be loaded from
files, and a microcode/macrocode compiler (gmac) is included to create
tkgate memory files from a high-level description. The simulator
supports continous simulation, single step simulation (by clock or
epoch) and breakpoints. Save files are in a Verilog-like format.
TkGate also includes a number of tutorial and example circuits which
can be loaded through the "Help" menu. The examples range from a
simple gate-level 3-bit adder to a 16-bit CPU programmed to play the
"Animals" game.
TkGate has a multi-langauge interface with support for English,
Japanese, French and Spanish.
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Release Notes for Icarus Verilog Snapshot 20021019
The synthesizer now detects asynchronous set/reset inputs to DFF
devices. The fpga and vvp code generators have been updated to support
these signals.
The vvp code generator also gained some register management code that
improves the thread register usage. This redoces code size for certain
common cases, and thus improves simulation performance.
The requirements on `ifdef and related compiler directives has been
relaxed, to correspond to more common behavior.
The parameter range support crashed if the range expressions had
parameters in them. This is fixed, and some signed-ness bugs fixed
along with it.
Rearrange some of the configure script tests to assure better
compatibility accross platforms.
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Yet another bunch of bugs in different corner cases of Gerber files
has been fixed. Many fixes in polygon area fill, some fixes in calculating
circles, a statically allocated array caused strange stray segfaults when
drawing aperture macros.
A bunch of new command line switches. Most important are:
* --display: use as in all other X-programs, ie open window from a remote
computer.
* --geometry: Sets the geometry. Usually gerbv guess the resolution of
your window and sets the window size accordingly. If you for instance
have a bigger virtual window than actual screen the window can get quite
big. With this switch you can override with for example --geometry=400x300
Fixes in drill file parser. Many drill files don't have drill sizes in them,
else perfectly valid files. Pitch fix makes gerbv parse drill files even
though they don't have drill sizes defined, but under protest.
Greatest fix of them all. Super imposing. Handles paint-scratch-paint
more proper. Changed dramatically how different layers are drawn "on
top of each other".
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This is a major mode for editing Verilog HDL source code under GNU Emacs or
XEmacs.
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Changes in Dinotrace 9.1h 08/30/2002
*** Save_duplicates is now on by default.
**** Fixed several bugs when save_duplicates is enabled.
**** Updated Windows install. [Greg Loxtercamp]
**** Fixed coredump reading wide ascii traces. [Vitaly Oratovsky]
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synthesis code and bug fixes in the simulation code since the last
packaged snapshot.
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First one should fix shark bulk build problem.
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* properly use PKG_SYSCONFDIR
* use bsd.pkg.install.mk instead of local DEINSTALL script
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