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'contrib/debug' section


debugging symbols for cytadela

This package contains the debugging symbols for cytadela.


Skype plugin for libpurple messengers (debug symbols)

This protocol plugin allows libpurple to communicate with Skype. Applications using libpurple (Pidgin, Finch, Empathy/Telepathy, etc.) can thus show your Skype contacts alongside those from other protocols, and you can communicate with them using that application instead of the Skype user interface. . This plugin communicates with the Skype application in the background to perform its work, so it's necessary to have Skype installed and running. This product uses the Skype API but is not endorsed, certified or otherwise approved in any way by Skype. . This package contains debug symbols for pidgin-skype.


Python 3 module to access Nvidia‘s CUDA API (debug extensions)

PyCUDA lets you access Nvidia‘s CUDA parallel computation API from Python. Several wrappers of the CUDA API already exist–so what’s so special about PyCUDA? * Object cleanup tied to lifetime of objects. This idiom, often called RAII in C++, makes it much easier to write correct, leak- and crash-free code. PyCUDA knows about dependencies, too, so (for example) it won’t detach from a context before all memory allocated in it is also freed. * Convenience. Abstractions like pycuda.driver.SourceModule and pycuda.gpuarray.GPUArray make CUDA programming even more convenient than with Nvidia’s C-based runtime. * Completeness. PyCUDA puts the full power of CUDA’s driver API at your disposal, if you wish. * Automatic Error Checking. All CUDA errors are automatically translated into Python exceptions. * Speed. PyCUDA’s base layer is written in C++, so all the niceties above are virtually free. * Helpful Documentation. . This package contains debug extensions for the Python 3 debug interpreter.


Python module to access Nvidia‘s CUDA API (debug extensions)

PyCUDA lets you access Nvidia‘s CUDA parallel computation API from Python. Several wrappers of the CUDA API already exist–so what’s so special about PyCUDA? * Object cleanup tied to lifetime of objects. This idiom, often called RAII in C++, makes it much easier to write correct, leak- and crash-free code. PyCUDA knows about dependencies, too, so (for example) it won’t detach from a context before all memory allocated in it is also freed. * Convenience. Abstractions like pycuda.driver.SourceModule and pycuda.gpuarray.GPUArray make CUDA programming even more convenient than with Nvidia’s C-based runtime. * Completeness. PyCUDA puts the full power of CUDA’s driver API at your disposal, if you wish. * Automatic Error Checking. All CUDA errors are automatically translated into Python exceptions. * Speed. PyCUDA’s base layer is written in C++, so all the niceties above are virtually free. * Helpful Documentation. . This package contains debug extensions build for the Python debug interpreter.


Ruby-PGPLOT debugging symbols

Ruby/PGPLOT is the Ruby interface to the PGPLOT graphics library. PGPLOT is a FORTRAN library to draw line/scatter/histogram plot, error bar, contour/image/vector map, etc. Supports various output devices including Postscript, PNG, X-Window, etc. . This package is provided primarily to provide a backtrace with names in a debugger, this makes it somewhat easier to interpret core dumps. Most people will not need this package.


x86 virtualization solution - debugging symbols

VirtualBox is a free x86 virtualization solution allowing a wide range of x86 operating systems such as Windows, DOS, BSD or Linux to run on a Linux system. . This package provides the debugging symbols for VirtualBox.


X.Org X server -- IVTV display driver (debug symbols)

This package provides the driver for the overlay framebuffer provided by the iTVC15 family of MPEG codecs. The iTVC15 family includes the iTVC15 (CX24315) and iTVC16 (CX24316). These chips are commonly found on Hauppauge's WinTV PVR-250 and PVR-350 TV capture cards. . This package provides debugging symbols for this Xorg X driver.

/contrib/zfs-linux/zfs-dbg

Debugging symbols for OpenZFS userland libraries and tools

The Z file system is a pooled filesystem designed for maximum data integrity, supporting data snapshots, multiple copies, and data checksums. . This package contains the debugging symbols for libzpool2linux, libzfs2linux, libnvpair1linux, libuutil1linux, zfs-zed and zfsutils-linux.