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Hello fellow MinCoiners! We currently have two pools for Mining MinCoin: 1. Mining-Dutch.nl 2. CoinTech P2Pool We are looking for 2 More Quality Pools to have MinCoin Mining added to! Please post your suggestions below and we will contact the pool owner(s) and discuss having MinCoin added to their pool! -ST MinCoin, The World's #1 High-Speed CryptoCommodity!
Within the past 24 hours The MinCoin Network hit a new milestone in Network Hashrate! With over 3.6 GH/s worth of mining power the MinCoin Network Difficulty hit a new Record High of ~51.23 ! This, in conjunction with a 66% increase in the MinCoin Exchange rate, is very impressive considering MinCoin has only been listed for trading for a little over 2 weeks now! Stay tuned and stay plugged in to our social media accounts for the latest MinCoin news! MinCoin On Twitter: https://twitter.com/mincoinus https://twitter.com/MinCoinForum https://twitter.com/MinCoinProject https://twitter.com/MincoinMining MinCoin On Facebook: https://www.facebook.com/mincoin.us https://www.facebook.com/mincoinforum MinCoin On Reddit: https://www.reddit.com/r/MinCoin -ST MinCoin, The World's Rarest & Fastest Cryptocommodity!
As long as MinCoin is using a scrypt based hashing algorithm this litecoin minning guide will work for MinCoin as well. Litecoin is a cryptocurrency that uses an alternative, memory hard hashing algorithm called scrypt that was devised by mathematics' prodigy Colin Percival. The algorithm utilizes SHA256 and a stream function called salsa20 to force devices that mine it to either use a lot of memory or use dramatically more ALU cycles to perform a hash. With the parameters used in Litecoin's implementation of scrypt (N = 1024; p = 1; r = 1), each thread uses approximately 64-128 KB depending on the settings for lookup_gap and thread_concurrency in the mining program when mining with a GPU. Because GPUs have such fast memory (bandwidth in the hundreds of GB/s) and roughly 128-512 KB of RAM per stream processor, they are ideal for mining Litecoin. This requirement for fast memory in order to mine quickly results in Litecoin being FPGA and ASIC resistant; although ASICs may one day come out for Litecoin, they are not expected to garner the same performance increases as for Bitcoin (two orders of magnitude more efficient). Mining The major factor which impacts hash rate/hardware errors is the thread_concurrency. The second most important factor for some cards is the ratio of core speed to memory speed. Typically optimum values of thread_concurrency are a multiple of 64 and vary per card and per card family (see below). The (core speed/memory speed) quotient should be 0.8 or less for 5xxx/6xxx cards and 0.7 or less for most 7xxx cards. Some evidence suggests that different 7xxx cards may have different ideal core:memory clock ratios, too. GUIMiner-scrypt is out! Comes with all settings in this thread and all miners. No more command line interfaces! Try it here. For all series cards, Install AMD APP SDK: http://developer.amd.com/tools/hc/AMDAPPSDK/downloads/Pages/default.aspx Install latest AMD drivers: http://support.amd.com/us/gpudownload/Pages/index.aspx or Use current recommend AMD driver (12.8): 13.1 32-bit 13.1 64-bit AVOID 12.10 DRIVERS, THEY SEEM TO BREAK LITECOIN PERFORMANCE. 13.X SEEM TO BE OKAY. 5xxx series cards Use cgminer. Command line to run: Code: cgminer --scrypt -o http://yourpool.com:port -u username -p password --thread-concurrency ???? -I 18 -g 1 -w 256 You can use pretty much any thread_concurrency between 1536 and 8192 that is a multiple of 64. Some people recommend using 4 or 5 * the number of SPs. You can find those in the table here: http://en.wikipedia.org/wiki/Evergreen_(GPU_family) (1st number in core config) Recommended thread concurrencies for 57xx cards: 2368-4096 (3200 is common) 58xx cards: 4096-8192 (5600, 7168, and 8000 are common) 5970 card: 4096-8192 (5632 or 8000 are common) Typical 5xxx series performance: 0.255 kh/s/shader 6xxx series cards Use cgminer. Command line to run: Code: cgminer --scrypt -o http://yourpool.com:port -u username -p password --thread-concurrency ???? -I 18 -g 1 -w 256 You can use pretty much any thread_concurrency between 1536 and 8192 that is a multiple of 64. Some people recommend using 4 or 5 * the number of SPs. You can find those in the table here: http://en.wikipedia.org/wiki/Northern_Islands_(GPU_family) (1st number in core config) Recommended thread concurrencies for 67xx cards: 2368-4096 (3200 is common) 68xx cards: 3008-6144 (4800 is common) 69xx cards: 4096-8192 (5600, 7168, and 8000 are common) 6990 card: 4096-8192 (5632 or 8000 are common) Typical 6xxx series performance: 0.313 kh/s/shader 7xxx series cards Use reaper or cgminer versions 2.11.3 and up (see update below). Set thread_concurrency to somewhere slightly below 64 * bus_width_of_card_in_bits. So, for a 7950, that would be 64 * 384 = 24576; ideal values are 21712 or 24000. Find your bus width here: http://en.wikipedia.org/wiki/Southern_Islands_(GPU_family) To find the optimum thread_concurrency for your card, you will need to search above and below this estimate ideal value and see what is fastest. If you'd like to use reaper, follow the steps below. Make reaper.conf the following: Code: kernel reaper.cl save_binaries yes enable_graceful_shutdown no long_polling yes platform 0 device 0 # device 1 # device 2 # device 3 mine litecoin device ? must be added for every card you have to avoid using the CPU as well to mine. Make sure when reaper starts that it states that the CPU platform is disabled. CPU mining does not work correctly and may actually slow down GPU mining with reaper. Example configuration (550kh/s, 7950) of litecoin.conf: Code: port 8344 user username pass password protocol litecoin worksize 256 vectors 1 aggression 20 threads_per_gpu 1 sharethreads 32 lookup_gap 2 gpu_thread_concurrency 21712 Save litecoin.conf and run reaper.exe. The 7xxx series can be tricky, for instance the 7770 seems to have an optimum thread concurrency of 8000 and works fine with cgminer and an intensity of 16 (I get 191kh/s with those settings). The 79xx cards should be amenable to the configuration above and are the fastest possible cards you can mine with. Optimal thread concurrencies for 7xxx family: 7770: 8000 (200 kh/s, aggression 19) 7850: ???? 7870: 15360 (400 kh/s, aggression 19) 7950: 21712 or 24000 (~575 kh/s) 7970 (cgminer): 22392 (~700 kh/s can be obtained with a core/memory ratio of 0.57) 7970 (reaper): 20992, 21712, or 24000 (~ 7750: ???? 7770: 8000 (200 kh/s, aggression 19) 7850: ???? 7870: 15360 (400 kh/s, aggression 19) 7950: 21712 or 24000 (~575 kh/s) 7970 (cgminer): 22392 (~700 kh/s can be obtained with a core/memory ratio of 0.57) or 8192 (-g 2 -w 256 -I 13) 7970 (reaper): 20992, 21712, or 24000 (~650 kh/s can be obtained with reaper and core/memory ratio of 0.57, e.g. 900 MHz core and 1580 MHz memory. Over 725 KH/s can be achieved with memory overvolting.) Typical 7xxx series performance: 0.321 kh/s/shader If reaper crashes periodically on a single card, use the following python script to keep it alive (starts reaper, runs for two hours, shuts it down, then restarts it): Code: import os, subprocess, time while True: print("Starting reaper...") p = subprocess.Popen("C:\\Users\\my-pc\\Desktop\\reaper\\reaper.exe") time.sleep(7200) print("Terminating reaper...") p.terminate() time.sleep(10) This seems to fix the problem for my 3x 7950 rig. Update: 3-20-13 cgminer versions 2.11.3 and up can be used to mine with high thread concurrencies now. Follow these instructions: WINDOWS: Open console and type Code: setx GPU_MAX_ALLOC_PERCENT 100 Now, close the console (it will not work if you open cgminer in the same window). Open cgminer using a .bat or a new console, high thread concurrencies will now work. LINUX: Open terminal and type Code: export GPU_MAX_ALLOC_PERCENT=100 Now high thread concurrencies should work in cgminer. TABLE OF USER REPORTED HASH RATES AND SETTINGS https://github.com/litecoin-project/litecoin/wiki/Mining-hardware-comparison CARD MEMORY SPEED SETTINGS Usually it is most effective to have the memory speed of the card equal to or greater than the core clock speed. For some cards this is more important than others, but this is generally true. From experimental data for a 7770, a (core speed)/(memory speed) ratio of 0.7 or less is recommended. HETEROGENEOUS MIXTURES OF CARDS CGMINER: Use a comma to separate thread-concurrency values, eg. --thread-concurrency 3200,8000. Values correspond to the card number in zeroeth order. REAPER: Run multiple instances of reaper. To do this, clone the folder and then add "device x" to reaper.conf, where x is the number for the card in zeroeth order. RAM REQUIREMENTS ON-MOTHERBOARD The equivalent amount of system RAM as for the sum of all the vRAM used by the GPUs is required when mining with reaper. For instance, 3x 5970s mining with thread_concurrency values of 8000 each would require 3x 500MB = 1500MB system ram (plus additional RAM for the OS). The memory requirements for 7xxx cards are also higher because of larger thread_concurrency values, for instance a thread_concurrency of 24000 means 1.5GB system RAM per card is required. THREADS PER GPU Some people state that increased hash rates are experienced upon increasing the number of threads per GPU in 5xxx series cards (-g # in cgminer or threads_per_gpu # in reaper). That has not been my experience with 6xxx or 7xxx cards, but you can try it and see if it helps out your hash rate. STRATUM MINING Supported by some pools (ltcmine.ru, notroll.in, coinotron.com) in order to reduce the number of stales. Typical results moving from JSON getwork to stratum is a reduction in stales from 1.5% to 0.5%. If you use reaper, you need to use a fork which is available here and a stratum proxy Run proxy program with this command for reaper: Code: mining_proxy.exe -pa scrypt --host yourpool.com --port #### Then run reaper with the following host: Code: 127.0.0.1:8332 and your normal user/password for the pool. SOLO MINING For large hash rates. Go here: https://bitcointalk.org/index.php?topic=83371.0 The guide works the same for unix as well more or less.
GPU Mining with GUIMiner in Windows What Youâ€™ll Need GPU (for this particular tutorial) - â€œThe workhorse. Think of it as the miner with a pickaxe or the heavy drilling machinery.â€ Radeon GPUs are recommended over Nvidia, they are much more efficient at mining. You can still mine with an Nvidia card, but your hashrate (essentially how fast your card can process the algorithm) will be lower. Check out this link to compare the expected hashrate for scrypt mining on various hardware: https://github.com/litecoin-project/litecoin/wiki/Mining-hardware-comparison Note: The link says â€˜Litecoinâ€™ hardware, but it applies for MinCoin as well as they are both based on the same scrypt algorithm. For AMD cards: Ensure you have updated to latest drivers for your card: http://support.amd.com/us/gpudownload/Pages/index.aspx You will also need to download the AMD SDK to run GUIMiner, can be found here: http://developer.amd.com/tools/hc/AMDAPPSDK/downloads/Pages/default.aspx For Nvidia cards: Ensure you have updated to the latest drivers for your card: http://www.nvidia.com/Download/index.aspx?lang=en-us. You will also need to download and install the Nvidia CUDA toolkit to run GUIMiner, can be found here: https://developer.nvidia.com/cuda-downloads Computer with Windows (for this particular tutorial) MinCoin Client Download the client from min-coin.org. For Windows, youâ€™ll want to click on one of the top two links. Once finished downloading, install and run. The first time you fire up the client it will need to connect to the network, and download the blockchain. While itâ€™s downloading, a green bar on the bottom will show its progress. Once finished, a green check mark will appear in the bottom right of the window. Mining software â€“ â€œThe Mining Foreman: Instructs the miners on where and how to mineâ€ For the sake of simplicity, we will download the latest â€˜GUIMiner â€“ scryptâ€˜ client. Hereâ€™s a link to the forum post at bitcointalk.org; https://bitcointalk.org/index.php?topic=150331.0 Click on one of the highlighted download links. Extract the .zip file wherever you wish.