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This is a multi-threaded multi-pool CPU and GPU miner for bitcoin.
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License: GPLv2. See COPYING for details.
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Dependencies:
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libcurl http://curl.haxx.se/libcurl/
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jansson http://www.digip.org/jansson/
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(jansson is included in-tree and not necessary)
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libncurses5-dev (or libpdcurses on WIN32)
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Basic *nix build instructions:
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To build with GPU mining support:
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Install AMD APP sdk, latest version - there is no official place to
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install it so just keep track of where it is if you're not installing
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the include files and library files into the system directory.
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(Do NOT install the ati amd sdk if you are on nvidia)
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The easiest way to install the ATI AMD SPP sdk on linux is to actually put it
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into a system location. Then building will be simpler. Download the correct
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version for either 32 bit or 64 bit from here:
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http://developer.amd.com/sdks/AMDAPPSDK/downloads/Pages/default.aspx
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This will give you a file with a name like AMD-APP-SDK-v2.4-lnx64.tgz
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Then:
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sudo su
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cd /opt
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tar xf /path/to/AMD-APP-SDK-v2.4-lnx64.tgz
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cd /
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tar xf /opt/AMD-APP-SDK-v2.4-lnx64/icd-registration.tgz
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ln -s /opt/AMD-APP-SDK-v2.4-lnx64/include/CL /usr/include
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ln -s /opt/AMD-APP-SDK-v2.4-lnx64/lib/x86_64/* /usr/lib/
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ldconfig
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If you are on 32 bit, x86_64 in the 2nd last line should be x86
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To actually build:
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./autogen.sh # only needed if building from git repo
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CFLAGS="-O3 -Wall -march=native" ./configure
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or if you haven't installed the ati files in system locations:
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CFLAGS="-O3 -Wall -march=native -I<path to AMD APP include>" LDFLAGS="-L<path to AMD APP lib/x86_64> ./configure
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make
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If it finds the opencl files it will inform you with
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"OpenCL: FOUND. GPU mining support enabled."
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Basic WIN32 build instructions (on Fedora 13; requires mingw32):
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./autogen.sh # only needed if building from git repo
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rm -f mingw32-config.cache
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MINGW32_CFLAGS="-O3 -Wall -msse2" mingw32-configure
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make
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./mknsis.sh
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Native WIN32 build instructions (on mingw32, on windows):
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Install AMD APP sdk, latest version
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(Do NOT install the ati amd sdk if you are on nvidia)
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Install mingw32
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Install libcurl, copy libcurl.m4 into /mingw/share/aclocal
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Run:
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autoreconf -fvi
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CFLAGS="-O3 -Wall -msse2 -I<path to AMD APP include>" LDFLAGS="-L<path to AMD APP lib/x86>" ./configure
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make
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Usage instructions: Run "cgminer --help" to see options.
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EXECUTIVE SUMMARY ON USAGE:
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Single pool, regular desktop:
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cgminer -o http://pool:port -u username -p password
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Single pool, dedicated miner:
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cgminer -o http://pool:port -u username -p password -I 8
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Multiple pool, dedicated miner:
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cgminer -o http://pool1:port -u pool1username -p pool1password -o http://pool2:port -u pool2usernmae -p pool2password -I 8
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Also many issues and FAQs are covered in the forum thread
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dedicated to this program,
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http://forum.bitcoin.org/index.php?topic=28402.0
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The output line shows the following:
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[(5s):204.4 (avg):203.1 Mh/s] [Q:56 A:51 R:4 HW:0 E:91% U:2.47/m]
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Each column is as follows:
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A 5 second exponentially decaying average hash rate
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An all time average hash rate
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The number of requested work items
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The number of accepted shares
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The number of rejected shares
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The number of hardware erorrs
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The efficiency defined as the accepted shares / requested work
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The utility defines as the number of shares / minute
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The cgminer status line shows:
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TQ: 1 ST: 1 LS: 0 SS: 0 DW: 0 NB: 1 LW: 8 LO: 1 RF: 1 I: 2
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TQ is Total Queued work items.
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ST is STaged work items (ready to use).
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LS is Longpoll Staged work items (mandatory new work)
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SS is Stale Shares discarded (detected and not submitted so don't count as rejects)
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DW is Discarded Work items (work from block no longer valid to work on)
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NB is New Blocks detected on the network
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LW is Locally generated Work items (during slow server providing work)
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LO is Local generation Occasions (server slow to provide work)
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RF is Remote Fail occasions (server slow to accept work)
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I is current Intensity (changes in dynamic mode).
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NOTE: Running intensities above 9 with current hardware is likely to only
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diminish return performance even if the hash rate might appear better. A good
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starting baseline intensity to try on dedicated miners is 8. Higher values are
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there to cope with future improvements in hardware.
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FAILOVER STRATEGIES WITH MULTIPOOL:
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A number of different strategies for dealing with multipool setups are
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available. Each has their advantages and disadvantages so multiple strategies
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are available by user choice, as per the following list:
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FAILOVER:
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The default strategy is failover. This means that if you input a number of
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pools, it will try to use them as a priority list, moving away from the 1st
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to the 2nd, 2nd to 3rd and so on. If any of the earlier pools recover, it will
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move back to the higher priority ones.
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ROUND ROBIN:
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This strategy only moves from one pool to the next when the current one falls
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idle and makes no attempt to move otherwise.
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ROTATE:
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This strategy moves at user-defined intervals from one active pool to the next,
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skipping pools that are idle.
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LOAD BALANCE:
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This strategy sends work in equal amounts to all the pools specified. If any
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pool falls idle, the rest will take up the slack keeping the miner busy.
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