xcoin-cpuminer
C Assembly Other
Latest commit 3e9df0e Jan 19, 2014 @ig0tik3d init
Permalink
Failed to load latest commit information.
compat init Jan 19, 2014
m4 init Jan 19, 2014
AUTHORS init Jan 19, 2014
COPYING init Jan 19, 2014
ChangeLog init Jan 19, 2014
INSTALL init Jan 19, 2014
LICENSE init Jan 19, 2014
Makefile.am init Jan 19, 2014
NEWS init Jan 19, 2014
README init Jan 19, 2014
Xcoin.c init Jan 19, 2014
aes_helper.c init Jan 19, 2014
autogen.sh init Jan 19, 2014
blake.c init Jan 19, 2014
bmw.c init Jan 19, 2014
compat.h init Jan 19, 2014
configure.ac init Jan 19, 2014
cpu-miner.c init Jan 19, 2014
cpuminer-config.h init Jan 19, 2014
cubehash.c init Jan 19, 2014
echo.c init Jan 19, 2014
elist.h init Jan 19, 2014
example-cfg.json init Jan 19, 2014
groestl.c init Jan 19, 2014
jh.c init Jan 19, 2014
keccak.c init Jan 19, 2014
luffa.c init Jan 19, 2014
miner.h init Jan 19, 2014
nomacro.pl init Jan 19, 2014
quark.c init Jan 19, 2014
scrypt-arm.S init Jan 19, 2014
scrypt-x64.S init Jan 19, 2014
scrypt-x86.S init Jan 19, 2014
scrypt.c init Jan 19, 2014
sha2-arm.S init Jan 19, 2014
sha2-x64.S init Jan 19, 2014
sha2-x86.S init Jan 19, 2014
sha2.c init Jan 19, 2014
shavite.c init Jan 19, 2014
simd.c init Jan 19, 2014
skein.c init Jan 19, 2014
sph_blake.h init Jan 19, 2014
sph_bmw.h init Jan 19, 2014
sph_cubehash.h init Jan 19, 2014
sph_echo.h init Jan 19, 2014
sph_groestl.h init Jan 19, 2014
sph_jh.h init Jan 19, 2014
sph_keccak.h init Jan 19, 2014
sph_luffa.h init Jan 19, 2014
sph_shavite.h init Jan 19, 2014
sph_simd.h init Jan 19, 2014
sph_skein.h init Jan 19, 2014
sph_types.h init Jan 19, 2014
stamp-h1 init Jan 19, 2014
util.c init Jan 19, 2014

README

This is a multi-threaded CPU miner for Litecoin and Bitcoin,
and now xcoin, forked from poolers cpuminer which is a 
fork of Jeff Garzik's reference cpuminer.

Git tree: https://github.com/Neisklar/quarkcoin-cpuminer

Different than the Sha256 and Scrypt implementation, the QRK hashing is
pure plain C code. So for performance gains, it may be good to tune
compilation with e.g. -march for specific CPU types


License: GPLv2.  See COPYING for details.

Poolers original README:

Downloads:  https://sourceforge.net/projects/cpuminer/files/
Git tree:   https://github.com/pooler/cpuminer

Dependencies:
	libcurl			http://curl.haxx.se/libcurl/
	jansson			http://www.digip.org/jansson/
		(jansson is included in-tree)

Basic *nix build instructions:
	./autogen.sh	# only needed if building from git repo
	./nomacro.pl	# only needed if building on Mac OS X or with Clang
	./configure CFLAGS="-O3"
	make

Notes for AIX users:
	* To build a 64-bit binary, export OBJECT_MODE=64
	* GNU-style long options are not supported, but are accessible
	  via configuration file

Basic Windows build instructions, using MinGW:
	Install MinGW and the MSYS Developer Tool Kit (http://www.mingw.org/)
		* Make sure you have mstcpip.h in MinGW\include
	If using MinGW-w64, install pthreads-w64
	Install libcurl devel (http://curl.haxx.se/download.html)
		* Make sure you have libcurl.m4 in MinGW\share\aclocal
		* Make sure you have curl-config in MinGW\bin
	In the MSYS shell, run:
		./autogen.sh	# only needed if building from git repo
		LIBCURL="-lcurldll" ./configure CFLAGS="-O3"
		make

Architecture-specific notes:
	ARM:	No runtime CPU detection. The miner can take advantage
		of some instructions specific to ARMv5E and later processors,
		but the decision whether to use them is made at compile time,
		based on compiler-defined macros.
		To use NEON instructions, add "-mfpu=neon" to CFLAGS.
	x86:	The miner checks for SSE2 instructions support at runtime,
		and uses them if they are available.
	x86-64:	The miner can take advantage of AVX, AVX2 and XOP instructions,
		but only if both the CPU and the operating system support them.
		    * Linux supports AVX starting from kernel version 2.6.30.
		    * FreeBSD supports AVX starting with 9.1-RELEASE.
		    * Mac OS X added AVX support in the 10.6.8 update.
		    * Windows supports AVX starting from Windows 7 SP1 and
		      Windows Server 2008 R2 SP1.
		The configure script outputs a warning if the assembler
		doesn't support some instruction sets. In that case, the miner
		can still be built, but unavailable optimizations are left off.

Usage instructions:  Run "minerd --help" to see options.

Connecting through a proxy:  Use the --proxy option.
To use a SOCKS proxy, add a socks4:// or socks5:// prefix to the proxy host.
Protocols socks4a and socks5h, allowing remote name resolving, are also
available since libcurl 7.18.0.
If no protocol is specified, the proxy is assumed to be a HTTP proxy.
When the --proxy option is not used, the program honors the http_proxy
and all_proxy environment variables.

Also many issues and FAQs are covered in the forum thread
dedicated to this program,
	https://bitcointalk.org/index.php?topic=55038.0