Happy Mining!submitted by BitcoinRh to BitcoinRhodium [link] [comments]
All available XRC pools can be found on MiningPoolStats
Bitcoin Rhodium Mining Hardware
Baikal Giant+: 1.6 GH/s
Mining SetupTo mine Bitcoin Rhodium you need to set up an XRC wallet and configure your miner of choice. You can choose between Web wallet, Electrum-XRC or Magnum wallet. To set up a web wallet please visit wallet.bitcoinrh.org. Or download and install Electrum-XRC wallet (recommended) for Windows, Linux and MacOS.
Web wallet: wallet.bitcoinrh.org
Sign up for XRC web wallet if not yet done so
Instructions for mining XRC on the official poolPool link: poolcore.bitcoinrh.org
(0.8–2 GH/s) stratum+tcp://poolcore.bitcoinrh.org:3062
(3–4 GH/s) stratum+tcp://poolcore.bitcoinrh.org:3063
(5+ GH/s) stratum+tcp://poolcore.bitcoinrh.org:3064
with your XRC address as username and x as password. You don’t need to open an account on pool. You will be mining to XRC address and mined coins will be transferred to your wallet
• after blocks reach 10 block maturity
• after you mined up minimal amount of coins (currently 0.1 XRC)
• sometimes mined blocks could get rejected by network (orphaned) after they were counted as valid blocks. This is normal network behavior to follow longest chain
CPU Miner-MultiSource: https://github.com/tpruvot/cpuminer-multi
Sample configuration with CPU Miner tested on UBUNTU.
“url” : “stratum+tcp://poolcore.bitcoinrh.org:3061”, “user” : “YOUR XRC ADDRESS”,
“pass” : “x”,
“algo” : “x13”, “threads” : 1,
“cpu-priority” : 5,
“cpu-affinity” : 1, “benchmark” : false, “debug” : true, “protocol”: true, “show-diff”: true, “quiet” : false
Command to run your CPUMiner: cpuminer -c cpuminer.json
SGMiner (ATI GPU)SGMiner is a GPU-based mine: https://github.com/nicehash/sgminereleases
The configuration below was tested on Windows:
setx GPU_FORCE_64BIT_PTR 0
setx GPU_MAX_HEAP_SIZE 100
setx GPU_USE_SYNC_OBJECTS 1
setx GPU_MAX_ALLOC_PERCENT 100
setx GPU_SINGLE_ALLOC_PERCENT 100
cd C:\Software\sgminer-5.6.1-nicehash-51-windowsamd64 sgminer.exe
— gpu-platform 1 — algorithm x13mod -url stratum+tcp://poolcore.bitcoinrh. org:3062 — pool-user — userpass :x — auto-fan — temp-target 70 — temp-over- heat 82 — temp-cutoff 85 — gpu-fan 65–85 — log-file log.txt — no-adl — no-extra- nonce -P –T
CCMiner (NVIDIA GPU)CCMiner is a GPU-based miner (NVIDIA)
Command to run your CCMINER:
ccminer-x64.exe -a x13 -o stratum+tcp://poolcore.bitcoinrh.org:3062 -O :without -D — show-diff
Baikal minerSettings: Url:
(0–2 GH/s) stratum+tcp://poolcore.bitcoinrh.org:3062
(3–4 GH/s) stratum+tcp://poolcore.bitcoinrh.org:3063
(5+ GH/s) stratum+tcp://poolcore.bitcoinrh.org:3064
Algo: x13User: your XRC receiving address (make sure you set 2 distinct addresses for each hashing board)
Extranonce: leave off Priority set to 0 and 1
Once pool stratum address and your wallet as user are set up you should see your miner mining against XRC pool. When miner is working the status column is green. The pool and miner are incorrectly configured now as status says “Dead” highlighted in red.
Instructions for mining XRC on BSOD poolPool link: bsod.pw/en/pool/dashboard/XRC/
Use this code for your miner: -a x13 -o stratum+tcp://pool.bsod.pw:2582 -u WALLET.rig
BSOD pool allows both solo and party mining.
For solo mining use code: -a x13 -o stratum+tcp://pool.bsod.pw:2582 -u WALLET.rig -p m=solo And for party mining use: -a x13 -o stratum+tcp://pool.bsod.pw:2582 -u WALLET.rig -p m=party.yourpasswordNOTICE: You can use us for North America and asia for Asia instead of euin your .bat file or config.
You can also use BSOD pool’s monitor app for Android and iOS.
Instructions for mining XRC on ZERGPOOLZergpool offers low fees (just 0.5%) and also SOLO and PARTY mining with no extra fees.
To mine XRC on Zergpool use this command lines for your miner:
Regular: -a x13 -o stratum+tcp://x13.mine.zergpool.com:3633 -uUse your coin wallet address as username in mining software. Specify c=SYMBOL as password to identify payout wallet coin, and the same coin in mc=SYMBOL to specify mining coin.
For more information and support please visit http://zergpool.com
Notice that when there are more pools mining XRC in different geographic/availability locations choose the nearest to you as lowest priority and then add desirable fall back pool options in different geographic locations or pools. This is useful when one pool experiences issues, to fall back to different pool in Bitcoin Rhodium network.
Calculate your Bitcoin Rhodium mining profitabilityWhatToMine: https://whattomine.com/coins/317-xrc-x13
Feel free to ask questions in Discord community. There are lots of helpful people around the world watching XRC 24x7.— Bitcoin Rhodium Dev Team
crypto_botResponds with the USD price of one bitcoin from an average of six of the top bitcoin exchanges (BTC-E, Bitstamp, Bitfinex, Coinbase, Kraken, Cryptsy).
crypto_bot tickerResponds with the USD price of one bitcoin at seven exchanges (all of the ones listed above, plus LocalBitcoins). Also lists the average at the bottom.
crypto_bot [exchange]Responds with the USD price of one bitcoin from [exchange] (any of the seven listed above).
crypto_bot [litecoin|ltc|dogecoin|doge]Responds with the USD price of one litecoin, or the price of 1 doge and 1,000 doge.
crypto_bot litecoin|ltc [exchange]Responds with the USD price of one litecoin from BTC-E, Bitfinex, Kraken, or Cryptsy.
crypto_bot [currency]Responds with the price of one bitcoin in the specified currency. Available currencies (symbols): JPY, CNY, SGD, HKD, CAD, NZD, AUD, CLP, GBP, DKK, SEK, ISK, CHF, BRL, EUR, RUB, PLN, THB, KRW, TWD.
crypto_bot [about|info] [arg]Responds with a short description about [arg], as well as a link to an external site (Wikipedia, bitcoin.it, and some others) for more information. You can list multiple arguments and get a description for each. Available arguments: bitcoin, block chain, transaction, address, genesis, satoshi, mining, confirmation, coinbase, gox, cold wallet, hot wallet.
crypto_bot legalResponds with a chart about the legality of bitcoin in 40 countries, copied straight from Wikipedia.
crypto_bot [explain transaction delay|explain tx delay]Responds with an explanation of why transactions may take longer to confirm (the bot specifically discusses spam-transaction attacks in this command).
crypto_bot difficultyResponds with the current difficulty of the bitcoin network.
crypto_bot [height|number of blocks]Responds with the current height of the block chain.
crypto_bot retargetResponds with what block the difficulty will recalculate at, as well as how many blocks until the network reaches that block.
crypto_bot [unconfirmed transactions|unconfirmed tx]Responds with the current number of unconfirmed transactions.
crypto_bot [new address|generate address]Responds with a newly-generated public and private key. This is mainly to provide an explanation of what both look like, and contains a clear warning to not use or send bitcoins to the address.
crypto_bot blockinfo [height]Responds with information about block #[height], including its hash, time discovered, and number of transactions.
crypto_bot [address]Responds with information about [address], including its balance and number of transactions.
crypto_bot [transaction_id]Responds with information about [transaction_id], including what block it was included in, its size, and its inputs and outputs.
crypto_bot calc <# miningspeed> [#][w] [#][kwh] [#][difficulty] [hc$#] [$#] [#%]Responds with calculations and information about how a miner would do with the above data (mining calculator). The only required field is mining speed. Order of the arguments does not matter. Everything other than hashrate defaults to the following if not given: w (watts): 0, kwh ($kilowatt cost/hour): 0, difficulty: current network difficulty, hc$ (hardware cost): $0, $: current bitcoin price in usd (according to Coinbase), % (pool fee): 0. The calculator does not account for nor allow for input of the increase/decrease of difficulty over time, though I may add this feature soon. Working hashing speeds: h/s, kh/s, mh/s, gh/s, th/s, ph/s.
crypto_bot number of btc <$amount to convert> [bp$bitcoin price]Responds with the number of bitcoins you could buy with <$amount to convert>. If the comment specifies a [bp$bitcoin price], it calculates it with that exchange rate. Otherwise, it uses the rate from Coinbase.
SignMessage! "Signs a message in the bitcoin block chain in a transaction using OP_RETURN. The message must be less than 40 characters.
|CPU||AMD Sempron 145 2.8GHz Single-Core Processor||$36.01 @ Amazon|
|Motherboard||ASRock 970 EXTREME4 ATX AM3+ Motherboard||$99.48 @ OutletPC|
|Memory||Crucial Ballistix Tactical Tracer 4GB (1 x 4GB) DDR3-1866 Memory||$59.99 @ Newegg|
|Video Card||Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire)||$245.38 @ Newegg|
|Video Card||Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire)||$245.38 @ Newegg|
|Video Card||Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire)||$245.38 @ Newegg|
|Power Supply||SeaSonic Platinum 860W 80+ Platinum Certified Fully-Modular ATX Power Supply||$146.98 @ SuperBiiz|
|Prices include shipping, taxes, and discounts when available.||$1078.60|
|Generated by PCPartPicker 2013-11-29 00:52 EST-0500|
5da4bcb997a90bec188542365365d8b913af3f1eb7deaf55038cfcd04f0b11a0(that’s 64 hexadecimal characters – each character represents 4-bits. 64 x 4 bits = 256bit = 32 bytes)
FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFAnd the lowest is:
0000000000000000000000000000000000000000000000000000000000000000The goal in Proof-of-Work systems is to look for a hash that is lower than a specific target, i.e. starts with a specific number of leading zeros. This target is what determines the difficulty.
00000000FFFF0000000000000000000000000000000000000000000000000000A block of difficulty 1/256 (0.00390625) must have a hash lower than:
000000FFFF000000000000000000000000000000000000000000000000000000And a block of difficulty 256 must have a hash lower than:
0000000000FFFF00000000000000000000000000000000000000000000000000So the higher the difficulty, the lower the hash must be; therefore more work must be completed to find the block.
000000000001909c000000000000000000000000000000000000000000000000The achieve finding this, a single miner would need to have completed, on average 179,867,219,848,013 hashes (calculated by taking the number of hashes needed for a difficulty 1 block - 4,294,967,296 or 2 ^ 32 or 16 ^ 8 – and multiplied by the difficulty). Of course, our single miner may have found this sooner – or later – than predicted.
“the quick brown fox jumps over the lazy dog”If we perform a SHA256 hash of this, it results in:
05c6e08f1d9fdafa03147fcb8f82f124c76d2f70e3d989dc8aadb5e7d7450becIf we change a single character in the input string (in this case we will replace the ‘o’ in ‘over’ to a zero), the resulting hash becomes:
submitted by turtlecane to Bitcoin [link] [comments]
The Bitcoin mining hash rate had been exponentially increasing on average since the genesis block in 2009, from MH/s, to GH/s, to TH/s, to PH/s, to EH/s, and it reached an all-time record high of 62 EH/s on 26 August 2018. Since this peak was reached, the Bitcoin mining hash rate gradually plateaued and has now decreased. The chart of Bitcoin mining hash rate actually looks quite similar to a peak oil chart except on a much faster time-scale, as can be seen in the comparison between Bitcoin’s hash rate over the course of 2 years from Blockchain.com and North Sea oil production from an article in The Oil Drum: Europe by Euan Mearns. As explained below, the dynamics between peak oil and peak Bitcoin mining are similar, with the key difference that Bitcoin mining is decentralized and oil is not.
Geologist M. King Hubbert is the founder of the peak oil theory, which states that there is a point when the maximum extraction rate of petroleum is reached, after which a terminal decline in production ensues. The peak rate of extraction of Bitcoin of course occurred during the period after the genesis block and before the first block halving, when the block reward was at its maximum of 50 Bitcoins. However, this is not the peak rate of mining profitability, since Bitcoin increased in price by orders of magnitude through the year 2017. The peak rate of Bitcoin mining profits undoubtedly was simultaneous with Bitcoin’s all-time record high of USD 20,000 in December 2017.
The reason the peak hash rate did not coincide with the peak rate of Bitcoin mining profits is because the rally happened so quickly that mining operations were not able to add rigs fast enough, so there was a lag effect. Even for mining operations with large amounts of capital it can take months to obtain the amount of mining equipment that they want, and for other mining operations it took even longer because they had to obtain investors, buy land, build infrastructure, and only then could they install the rigs and begin hashing.
The Bitcoin mining hash rate chart implicitly indicates that 30 EH/s of Bitcoin mining equipment has been taken offline due to lack of profitability, which represents tens of billions of USD of wasted rigs. This suggests that Bitcoin miners were caught by surprise by the decline in Bitcoin’s price from USD 20,000 to less than USD 4,000 as of 4 December 2018.
Coming back to the peak oil comparison, the current Bitcoin mining scene is like a rapid version of peak oil, combined with lack of coordination. Oil mining is a centralized and coordinated activity, where the oil is prospected, land is leased out and then an appropriate number of wells are drilled. With oil mining, companies cannot drill as many wells as they want, or drill wells on someone else’s lease, since this is all closely controlled by contractual agreements. Bitcoin mining is decentralized, and no one has a lease or contract to only mine with a certain amount of hash rate. Anyone in the world can run as much Bitcoin mining rigs as they can afford. The effect is that people all around the world are sticking their straws into the Bitcoin mining network all at the same time, and they sucked it dry. Essentially, so many people started up new mining operations at once without coordination, that the Bitcoin mining hash rate went way past its equilibrium, which hurt everyone involved. This is akin to if oil drilling was a decentralized process, and anyone who wanted to drill for oil could drill in the same field. The oil field would be sucked dry really quick, and then most of the drills would be shut down due to lack of profits.
There is hope for Bitcoin miners however. The price of Bitcoin simply has to rally, and all of the disenfranchised miners could restart their rigs, and then it would be back to the races and new rigs could begin being added. However, due to the decentralization of Bitcoin mining, the network hash rate will likely periodically rise past its equilibrium point, leading to catastrophic conditions for miners like we are experiencing today at points in the future. The only thing that could prevent the scenario we are experiencing today is a Bitcoin rally that lasts forever, which is obviously not possible.
James McAvity tweeted that Bitcoin mining is still profitable in the current environment, and does some simple linear calculations to prove this point. He also argues that miners are forced to keep mining due to business agreements, choose to HODL in expectation of a rally, and continue mining in expectation of a downward difficulty adjustment as other miners go offline.
Some of what McAvity says is true, but the reality is that Bitcoin mining is a highly non-linear system, and calculating the support level for mining is somewhat pointless, since it is different for every miner. Bitcoin mining profitability depends on Bitcoin’s price, the Bitcoin network hash rate which is directly correlated to mining difficulty, and the technological efficiency of Bitcoin mining rigs. These 3 factors are related in a non-linear and ever-changing way.
Instead of trudging away at trying to develop a set of equations that determine mining hash rate behavior, one could simply look at the Bitcoin mining hash rate chart at the beginning of this article to understand what is going on. Bitcoin mining profitability is different for each individual miner, and the hash rate has trended downwards as individual miners have made the decision to shut down rigs. Clearly there was a fundamental mining profitability support level in the USD 6,000-7,000 range, since that is where Bitcoin’s price was when mining peaked and plateaued. There are clearly numerous miners who became unprofitable on the descent from that level to less than USD 4,000 today, and now approximately 50% of the Bitcoin mining equipment that exists cannot profitably mine. The decrease in Bitcoin’s mining difficulty of 15% on 3 December 2018 could help bring some of those miners back online, at least if the price stays at current levels around USD 4,000, but this will not change the overall trend.
When it comes down to it, Bitcoin’s price is in control of Bitcoin mining profitability, and if the price goes up we could see a reversal of the hash rate downtrend and eventually a 2nd peak in Bitcoin’s network hash rate. However, if price continues to go down, the Bitcoin mining hash rate chart will follow a similar pattern to peak oil charts. The reality will likely be a combination of both. Bitcoin bear markets tend to last years, and get more severe, but eventually the rally comes and then Bitcoin exceeds its all-time record high. This would lead to a steady decrease in Bitcoin’s mining hash rate like the peak oil chart, followed by a rapid re-engagement of old mining rigs that have been taken offline, and then the addition of new generation Bitcoin mining rigs once the equilibrium hash rate exceeds 60 EH/s.
https://preview.redd.it/5r9soz2ltq421.jpg?width=268&format=pjpg&auto=webp&s=6a89685f735b53ec1573eefe08c8646970de8124submitted by Josephbitcoin to u/Josephbitcoin [link] [comments]
What is Bitcoin?
Bitcoin is an experimental system of transfer and verification of property based on a network of peer to peer without any central authority.
The initial application and the main innovation of the Bitcoin network is a system of digital currency decentralized unit of account is bitcoin.
Bitcoin works with software and a protocol that allows participants to issue bitcoins and manage transactions in a collective and automatic way. As a free Protocol (open source), it also allows interoperability of software and services that use it. As a currency bitcoin is both a medium of payment and a store of value.
Bitcoin is designed to self-regulate. The limited inflation of the Bitcoin system is distributed homogeneously by computing the network power, and will be limited to 21 million divisible units up to the eighth decimal place. The functioning of the Exchange is secured by a general organization that everyone can examine, because everything is public: the basic protocols, cryptographic algorithms, programs making them operational, the data of accounts and discussions of the developers.
The possession of bitcoins is materialized by a sequence of numbers and letters that make up a virtual key allowing the expenditure of bitcoins associated with him on the registry. A person may hold several key compiled in a 'Bitcoin Wallet ', 'Keychain' web, software or hardware which allows access to the network in order to make transactions. Key to check the balance in bitcoins and public keys to receive payments. It contains also (often encrypted way) the private key associated with the public key. These private keys must remain secret, because their owner can spend bitcoins associated with them on the register. All support (keyrings) agrees to maintain the sequence of symbols constituting your keychain: paper, USB, memory stick, etc. With appropriate software, you can manage your assets on your computer or your phone.
Bitcoin on an account, to either a holder of bitcoins in has given you, for example in Exchange for property, either go through an Exchange platform that converts conventional currencies in bitcoins, is earned by participating in the operations of collective control of the currency.
The sources of Bitcoin codes have been released under an open source license MIT which allows to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the software, subject to insert a copyright notice into all copies.
Bitcoin creator, Satoshi Nakamoto
What is the Mining of bitcoin?
Technical details :
During mining, your computer performs cryptographic hashes (two successive SHA256) on what is called a header block. For each new hash, mining software uses a different random number that called Nuncio. According to the content of the block and the nonce value typically used to express the current target. This number is called the difficulty of mining. The difficulty of mining is calculated by comparing how much it is difficult to generate a block compared to the first created block. This means that a difficulty of 70000 is 70000 times more effort that it took to Satoshi Nakamoto to generate the first block. Where mining was much slower and poorly optimized.
The difficulty changes each 2016 blocks. The network tries to assign the difficulty in such a way that global computing power takes exactly 14 days to generate 2016 blocks. That's why the difficulty increases along with the power of the network.
In the beginning, mining with a processor (CPU) was the only way to undermine bitcoins. (GPU) graphics cards have possibly replaced the CPU due to their nature, which allowed an increase between 50 x to 100 x in computing power by using less electricity by megahash compared to a CPU.
Although any modern GPU can be used to make the mining, the brand AMD GPU architecture has proved to be far superior to nVidia to undermine bitcoins and the ATI Radeon HD 5870 card was the most economical for a time.
For a more complete list of graphics cards and their performance, see Wiki Bitcoin: comparison of mining equipment
In the same way that transition CPU to GPU, the world of mining has evolved into the use of the Field Programmable Gate Arrays (FPGA) as a mining platform. Although FPGAs did not offer an increase of 50 x to 100 x speed of calculation as the transition from CPU to GPU, they offered a better energy efficiency.
A typical HD/s 600 graphics card consumes about 400w of power, while a typical FPGA device can offer a rate of hash of 826 MH/s to 80w of power consumption, a gain of 5 x more calculations for the same energy power. Since energy efficiency is a key factor in the profitability of mining, it was an important step for the GPU to FPGA migration for many people.
The world of the mining of bitcoin is now migrating to the Application Specific Integrated Circuit (ASIC). An ASIC is a chip designed specifically to accomplish a single task. Unlike FPGAs, an ASIC is unable to be reprogrammed for other tasks. An ASIC designed to undermine bitcoins cannot and will not do anything else than to undermine bitcoins.
The stiffness of an ASIC allows us to offer an increase of 100 x computing power while reducing power consumption compared to all other technologies. For example, a classic device to offer 60 GH/s (1 hashes equals 1000 Megahash. 1GH/s = 1000 Mh/s) while consuming 60w of electricity. Compared to the GPU, it is an increase in computing power of 100 x and a reduction of power consumption by a factor of 7.
Unlike the generations of technologies that have preceded the ASIC, ASIC is the "end of the line" when we talk about important technology change. The CPUs have been replaced by the GPUs, themselves replaced by FPGAs that were replaced by ASICs.
There is nothing that can replace the ASICs now or in the immediate future. There will be technological refinements in ASIC products, and improvements in energy efficiency, but nothing that may match increased from 50 x to 100 x the computing power or a 7 x reduction in power consumption compared with the previous technology.
Which means that the energy efficiency of an ASIC device is the only important factor of all product ASIC, since the estimated lifetime of an ASIC device is superior to the entire history of the mining of bitcoin. It is conceivable that a purchased ASIC device today is still in operation in two years if the unit still offers a profitable enough economic to keep power consumption. The profitability of mining is also determined by the value of bitcoin but in all cases, more a device has a good energy efficiency, it is profitable.
There are two ways to make mining: by yourself or as part of a team (a pool). If you are mining for yourself, you must install the Bitcoin software and configure it to JSON-RPC (see: run Bitcoin). The other option is to join a pool. There are multiple available pools. With a pool, the profit generated by any block generated by a member of the team is split between all members of the team. The advantage of joining a team is to increase the frequency and stability of earnings (this is called reduce the variance) but gains will be lower. In the end, you will earn the same amount with the two approaches. Undermine solo allows you to receive earnings huge but very infrequent, while miner with a pool can offer you small stable and steady gains.
Once you have your software configured or that you have joined a pool, the next step is to configure the mining software. The software the most populare for ASIC/FPGA/GPU currently is CGminer or a derivative designed specifically for FPGAS and ASICs, BFGMiner.
If you want a quick overview of mining without install any software, try Bitcoin Plus, a Bitcoin minor running in your browser with your CPU. It is not profitable to make serious mining, but it is a good demonstration of the principle of the mining team.
Bitcoin value. Current value at ~1000 USD. Profits above calculated at 900 USD Bitcoin difficulty: 1,180,923,195 Bitcoins per Block (BTC/block): 25 Conversion rate (USD/BTC): 900 Hash rate: 100 GH/s Electricity rate (USD/kWh): 0.09 Power consumption (W): 3 Time frame (months): 3 Cost of mining hardware (USD): 3011.98 Profitability decline per year: 0.61 Difficulty 1,180,923,195.00 Mining Factor 100: 0.04 USD/[email protected]/s Hardware break even: 84 days Net profit first time frame: 279.64 USD Coins per 24h at these conditions: 0.0426 BTC Power cost per 24h: 0.01 USD Revenue per day: 38.33 USD Less power costs: 38.32 USD System efficiency: 33333.33 MH/s/W Mining Factor 100 at the end of the time frame: 0.03 USD/[email protected]/s Average Mining Factor 100: 0.04 USD/[email protected]/s Power cost per time frame: 0.59 USD Revenue per time frame: 3292.21 USD Less power costs: 3291.62 USD Hardware Cost Breakdown: 100GH Overclockable Bitcoin Miner Kit 2,800.00 USD https://megabigpower.com/shop/index.php?route=product/product&product_id=70 RASPBERRY PI MODEL B 700Mhz; 512Mb RAM 41.99 USD http://www.amazon.com/RASPBERRY-MODEL-700Mhz-512Mb-RAM/dp/B009SQQF9C/ref=sr_1_1?s=pc&ie=UTF8&qid=1389015864&sr=1-1 Cooler Master Silent Pro Gold 800W 169.99 USD http://www.newegg.com/Product/Product.aspx?Item=N82E16817171057 Whatever amount you want to invest determines your percentage of the profits. Example: Total Investment Cost: 3011.98 USD Investor #1: 75 USD = %2.4 Profit Share, net profit of 6.97 USD after 3 months Investor #2: 500 USD = %16.6 Profit Share, net profit of 46.50 USD after 3 months Investor #3: 906.60 USD = %30.1 Profit Share Investor #4: 1505.99 USD = %50 Profit Share 874.16 USD net profit after 3 months with a $800 investment. Mining pool fee. Typically 3%. P2Pool offers 0% mining pool fee. https://github.com/forrestv/p2pool
W/Gh (watts per gigahash) is the metric used to display a miner’s efficiency. The lower this number, the more efficient the miner. Electricity Costs. Electricity costs can make or break a mining operation. A huge monthly electric bill means significant costs on top of the up-front cost of the hardware. China’s cheap electricity is one of the reasons why nearly 60% of Bitcoin’s network ... Start mining Bitcoin Cash or Bitcoin today! Supercharge your mining potential. Mine Bitcoin easily on the cloud without having to buy hardware, or plug your own hardware into the world’s highest paying mining pool. Sign up now Log in. Mine Bitcoin. We offer BTC and BCH mining. You can also choose to automatically mine the most profitable coin. Cloud Mining. Start mining immediately with our ... We currently don't offer an option for 24h average difficulty because the main purpose of this mining calculator is to see the real-time state of the coins and use it in our software. Also, calculating reward regarding the 24h average difficulty cannot be compared to the results that are provided by multi-algo pools as it wouldn't be fair. However, you can compare results of median and average ... Fazit zum Mining von Bitcoin. Wenn Sie am Mining von Bitcoin interessiert sind, kann das auf lange Sicht eine sich lohnende Entscheidung sein. Sie haben die Wahl zwischen Mining mit eigener Hardware oder im Pool oder durch Cloud-Mining.Beide haben ihre Vor- und Nachteile gegenüber den Bitcoin Kauf.Grundsätzlich profitieren Sie als Miner von steigenden und stagnierenden Kursen und damit ... The Ethereum mining profitability results and mining rewards were calculated using the best ETH mining calculator with the following inputs. A ETH mining difficulty of 3,308,864,066,531,288.00, a ETH mining hashrate of 500.00 MH/s consuming 950 watts of power at $0.10 per kWh, and a block reward of 2.00 ETH at $408.00 (ETH to USD).
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