5 Best Bitcoin Mining Hardware ASIC Machines (2020 Rigs)
How to set up a bitcoin ASIC miner Get Started Bitcoin.com
6 Best Bitcoin Mining Hardware ASICs Comparison In 2017
Top 3 Best ASIC Bitcoin Mining Hardware for 2019
Cryptocurrency Mining Today
Mining is one of the key concepts in the crypto world. Everyone who comes into contact with this sphere somehow wonders about the mining of coins. How profitable is mining in 2020, and what are the current trends? by StealthEX Crypto mining is a process during which a computer solves mathematical problems, resulting in the release of new blocks of information. This gives its owners a certain amount of coins, which is deposited in the total pot and registered in the public “ledger”, so-called blockchain. Machines in the network are also checking transactions with existing coins, adding this information to the blockchain as well. As for the issue itself, the most well-known algorithm of mining is Proof-of-Work (PoW), used in the networks of Bitcoin, Litecoin, Ethereum and many others. During the mining process, the latest transactions are verified and compiled into blocks. It is usually a series of calculations with an iteration of parameters to find a hash with the specified properties. The node which first solves this problem receives a reward. This approach was specifically designed to encourage those who provide the computing power of their mining machines to maintain the network and mine new coins. It is usually no need for a newcomer to know and understand all the complicated details of the mining process, just how much they can earn with certain equipment and electricity costs. Everything is designed in such a way that the complexity of calculations is steadily increasing, which then requires a constant increase in the computing power of the network. In 2009-2010, for mining bitcoin, miners only had to download and run the software on their personal computers, but very soon the network became so complicated that even with best PCs with a powerful processor, mining became unprofitable. That’s why miners started to use more effective video cards (graphics processing units or GPUs) and join them in so-called “farms”. In most systems, the number of coins is determined in advance. Also, many networks are gradually reducing rewards for miners. Such emission restrictions were built into the algorithm to prevent inflation. Thus, the cost of mining for smaller participants no longer pays off, which makes them turn off their hardware or switch to another coin where they can still make their profit. In particular, on the evening of May 11, 2020, a halving took place in the bitcoin network, the reward for mining was halved, from 12.5 to 6.25 BTC. In June, the revenue of bitcoin miners decreased by 23%, to the lowest since March 2019. However, in mid-June, the difficulty of bitcoin mining showed a record growth over the past 2.5 years. Mining the first cryptocurrency has become 15% more difficult. Although, by the beginning of July, the complexity had stabilized. The growing difficulty of mining the first cryptocurrency indicates that new miners have joined its network. Previously, some of them turned off the equipment, as it became less profitable to mine the coin due to a decrease in its cost and halving. Now the absolute majority of new coins are generated by industrial mining. This is done by large data centers equipped with specialized computers based on the ASIC architecture. ASICs are integrated circuits that were initially optimized for a specific task, namely the mining of cryptocurrencies. They are much more productive than CPUs and video cards, and at the same time consume much less electricity. ASIC computers are the main type of equipment for the industrial production of crypto. So now, after the halving, BTC coin mining has become even less profitable. For beginners, mining the first cryptocurrency is unlikely to be suitable. It is more often earned by large companies that have all the necessary equipment, access to cheap rental conditions, electricity and maintenance. Hence newbies are better off starting with mining altcoins. It is even more profitable to work in a pool, that is, together with other miners. This can help to place farms in one place and negotiate a favourable price for electricity, so you can get a small but stable income dux to the total capacity of the pool. Therefore, it has become much more difficult for regular users who have only non-specialized equipment at their disposal to generate virtual money. However, GPU developers have significantly increased the performance of their devices in recent years, so mining on a video card is still common. Another important event that changes the situation in the mining sphere will be the hardfork of the Ethereum network with the turn to the Proof-of-Stake algorithm. For now, Ethereum is the most popular altcoin for GPU mining, but Ethereum 2.0 will not require using such powerful equipment, so then it switches to PoS, GPU owners will have to look for alternative coins to mine. At the moment the most popular altcoins for mining on GPUs are Ethereum (ETH), Ethereum Classic (ETC), Grin (GRIN), Zcoin (XZC), Dogecoin and Ravencoin (RVN). There are actually a lot of mining programs that automatically determine which coin is more profitable to mine at the moment. In the coming years, the market is waiting for a race of technologies. Manufacturers are investing in finding ways to increase hashing speed and reduce power consumption. Mining pools will play an increasing role. The market will also be affected by applications for mining cryptocurrencies on smartphones that require low computing power, such as Dash or Litecoin. And remember StealthEX supports more than 250 coins and constantly updating the list, so you can easily swap your crypto haul to more popular altcoins. Our service does not require registration and allows you to remain anonymous. Why don’t you check it out? Just go to StealthEX and follow these easy steps: ✔ Choose the pair and the amount for your exchange. For example ETH to BTC. ✔ Press the “Start exchange” button. ✔ Provide the recipient address to which the coins will be transferred. ✔ Move your cryptocurrency for the exchange. ✔ Receive your coins. Follow us on Medium, Twitter, and Reddit to get StealthEX.io updates and the latest news about the crypto world. For all requests message us via [email protected]. The views and opinions expressed here are solely those of the author. Every investment and trading move involves risk. You should conduct your own research when making a decision. Original article was posted onhttps://stealthex.io/blog/2020/07/28/mining-today/
A field-programmable gate array (FPGA) is a chip that can be programmed to suit whatever purpose you want, as often as you want it and wherever you need it. FPGAs provide multiple advantages, including low latency, high throughput and energy efficiency. To fully understand what FPGAs offer, imagine a performance spectrum. At one end, you have the central processing unit (CPU), which offers a generic set of instructions that can be combined to carry out an array of different tasks. This makes a CPU extremely flexible, and its behaviour can be defined through software. However, CPUs are also slow because they have to select from the available generic instructions to complete each task. In a sense, they’re a “jack of all trades, but a master of none”. At the other end of the spectrum sit application-specific integrated circuits (ASICs). These are potentially much faster because they have been built with a single task in mind, making them a “master of one trade”. This is the kind of chip people use to mine bitcoin, for example. The downside of ASICs is that they can’t be changed, and they cost time and money to develop. FPGAs offer a perfect middle ground: they can be significantly faster than a CPU and are more flexible than ASICs. FPGAs contain thousands, sometimes even millions, of so-called core logic blocks (CLBs). These blocks can be configured and combined to process any task that can be solved by a CPU. Compared with a CPU, FPGAs aren’t burdened by surplus hardware that would otherwise slow you down. They can therefore be used to carry out specific tasks quickly and effectively, and can even process several tasks simultaneously. These characteristics make them popular across a wide range of sectors, from aerospace to medical engineering and security systems, and of course finance. How are FPGAs used in the financial services sector? Speed and versatility are particularly important when buying or selling stocks and other securities. In the era of electronic trading, decisions are made in the blink of an eye. As prices change and orders come and go, companies are fed new information from exchanges and other sources via high-speed networks. This information arrives at high speeds, with time measured in nanoseconds. The sheer volume and speed of data demands a high bandwidth to process it all. Specialized trading algorithms make use of the new information in order to make trades. FPGAs provide the perfect platform to develop these applications, as they allow you to bypass non-essential software as well as generic-purpose hardware. How do market makers use FPGAs to provide liquidity? As a market maker, IMC provides liquidity to buyers and sellers of financial instruments. This requires us to price every instrument we trade and to react to the market accordingly. Valuation is a view on what the price of an asset should be, which is handled by our traders and our automated pricing algorithms. When a counterpart wants to buy or sell an asset on a trading venue, our role is to always be there and offer, or bid, a fair price for the asset. FPGAs enable us to perform this key function in the most efficient way possible. At IMC, we keep a close eye on emerging technologies that can potentially improve our business. We began working with FPGAs more than a decade ago and are constantly exploring ways to develop this evolving technology. We work in a competitive industry, so our engineers have to be on their toes to make sure we’re continuously improving. What does an FPGA engineer do? Being an FPGA engineer is all about learning and identifying new solutions to challenges as they arise. A software developer can write code in a software language and know within seconds whether it works, and so deploy it quickly. However, the code will have to go through several abstraction layers and generic hardware components. Although you can deploy the code quickly, you do not get the fastest possible outcome. As an FPGA engineer, it may take two to three hours of compilation time before you know whether your adjustment will result in the outcome you want. However, you can increase performance at the cost of more engineering time. The day-to-day challenge you face is how to make the process as efficient as possible with the given trade-offs while pushing the boundaries of the FPGA technology. Skills needed to be an FPGA engineer Things change extremely rapidly in the trading world, and agility is the name of the game. Unsurprisingly, FPGA engineers tend to enjoy a challenge. To work as an FGPA engineer at a company like IMC, you have to be a great problem-solver, a quick learner and highly adaptable. What makes IMC a great fit for an FPGA engineer? IMC offers a great team dynamic. We are a smaller company than many larger technology or finance houses, and we operate very much like a family unit. This means that, as a graduate engineer, you’ll never be far from the action, and you’ll be able to make an impact from day one. Another key difference is that you’ll get to see the final outcome of your work. If you come up with an idea, we’ll give you the chance to make it work. If it does, you’ll see the results put into practice in a matter of days, which is always a great feeling. If it doesn’t, you’ll get to find out why – so there’s an opportunity to learn and improve for next time. Ultimately, working at IMC is about having skin in the game. You’ll be entrusted with making your own decisions. And you’ll be working side by side with super smart people who are open-minded and always interested in hearing your ideas. Market making is a technology-dependent process, and we’re all in this together. Think you have what it takes to make a difference at a technology graduate at IMC?Check out our graduate opportunities page.
The strong case for Monero – fulfilling characteristics of the future currency
I wanted to write a short article about the distinct characteristics of Monero, some of which are absolutely necessities in any future currency looking to gaining serious user adoption. Together, these separate Monero quite distinctly from the rest of the crypto field. This is certainly nothing new to the Monero seniors here, but it might contain some new perspectives, and also give an overview to the newer cryptofolk why Monero is quite unique - 1. Transactions are private by default The sender, receiver and amount are all hidden in Monero. This is by default, as opposed to some other private cryptocurrencies, such as Zcash, where you can optionally make private transactions. As a result, most transactions in Zcash are transparent, which makes the actual anonymity set small. In Bitcoin there is no real anonymity, because everything occurs in a transparent blockchain – the sender, receiver and amount are all public information. This has created a market for blockchain analysis, where companies keep track of the of transactions and make profit from this information. Furthermore, because the full history of sent and received Bitcoins and other transparent cryptocurrencies can be analyzed, the newly minted coins are generally more valuable than others. This phenomenon is called ‘taint’, and it exists only in transparent blockchains. Besides speculative holding, no real-world use will emerge in any blockchain that is transparent. No company is prepared to publicly devolve how much, when and to which suppliers they send funds. Or vice versa, no company wants its competitors to know how many customers have paid them in the last quarter. Similarly, no sensible, privacy-valuing person should be willing to share his or her personal consuming habits with the whole world, forever. 2. Community-driven – no company, no CEO Most understand cryptocurrencies are decentralized because different stakeholders all over the world participate in the process of mining, verifying and relying information from one stakeholder to another. It is practically impossible to stop this type of well distributed global network from operating. The network topology, however, is only one part of the decentralization. If everything is controlled by a single entity, it creates a single point of failure. As an example, if everything is funded, developed and coordinated by a single company or a few companies, which funds can be seized, executives jailed and operations stopped, how secure is this cryptocurrency in the end? In Monero, there is no company, no CEO, no office. Everything is coordinated by members of the community, globally. 3. Emission is dis-inflationary and it reduces constantly Monero’s emission, i.e. generation of new coins, reduces every block (2 minutes). In Bitcoin, the emission is reduced every four years. This causes sudden shocks to the Bitcoin ecosystem, because miners’ rewards are halved. Such a dramatic decrease will inevitably lead to some miners abandoning their mining activities. Because proof-of-work (POW) cryptocurrencies such as Bitcoin and Monero rely on miners to secure the network, any significant decrease in mining is detrimental to the network’s security. On the other hand, the smoother emission in Monero makes mining activities more stable, which improves the security and trust of the whole system. Another future-proofing factor in Monero is the tail emission, where the block reward will no longer decrease from 0.6 XMR after mid 2022. Minimum block reward incentives miners to continue mining even if the transaction fees do not cover all economic needs of the competing miners. Comparing this to FIAT currencies, which are inflating 2-6 % each year, Monero’s inflation is asymptotically approaching 0 %. Even though new coins are generated by every block, the amount created per given time period remains constant after mid 2022. Contrast this to the FIAT systems, where the amount of new currency created is always increasing. Due to the compounding effect even moderate inflation in FIAT currencies causes considerable losses to all savers in medium and long term. 4. Block size is dynamic – it scales with number of transactions Monero’s block size has no cap, which means the amount of transactions that can fit to the block is not limited. To prevent transaction spamming, preventive mechanisms have been built in the protocol. Cryptocurrencies which implement a hard cap on the block size are susceptible to surging transactions fees. This occurs when there are simply too many transactions trying to make it into the block. Such a phenomenon occurred in Bitcoin during the peak of the last bull-run in January 2018, when the average transaction fees rose above $20. 5. Fair supply – no premine or developer tax Supply mechanism and distribution are two elemental factors, which affect how capable the cryptocurrency is as a store of value (SOV). If a large majority of the future supply is held by a small group of people, it undermines the trust that the cryptocurrency keeps its value long term. If only a few stakeholders can massively increase the supply side of the market, the downward price risk becomes high. The more distributed the supply, the more stakeholders it takes to influence it. Two practical implementations that undermine SOV in cryptocurrencies are premine and developer tax. In premine, the founders create a large initial amount of funds for themselves (or for their organization). Premining is an issue in some POW currencies and in all proof-of-stake (POS) cryptocurrencies, because their coin generation is not done by work. Developer tax is implemented in some POW currencies, where a portion of the block reward goes to the founders. 6. Crowdfunding and voluntarism as driving forces Since the launch of Monero in 2014, all progression has been made by its rich and versatile community. Active members consist of several PhD researchers, developers, UX designers, translators and many other professionals of varying backgrounds. Much of the work has been made possible using crowdfunding, donors being individuals, investors and companies. Some members have participated even pro-bono, which further emphasizes the community’s trust in the project. The fact that the work is enabled by crowfunding and voluntarism is truly a strength, because it is difficult to stop ideology and people who want to be part of such force. This is in stark contrast to company-driven projects, which are much more susceptible to government oversight and control. 7. Mining is more sustainable Monero’s mining algorithm, Random X, specifically targets general purpose CPUs and it is unsuitable to be mined with application-specific integrated circuits (ASICS). This greatly improves mining decentralization, because mining is feasible on data centers and personal computers. In Bitcoin and many other POW cryptocurrencies mining is only feasible with expensive ASICS, manufactured by just a few companies. ASIC mined cryptocurrencies are problematic because there are very few companies specializing in mining equipment. Bitcoin’s largest ASIC manufacturer, Bitmain, has had overly much power in the ecosystem. They have stalled Bitcoin’s adoption, caused division among the community and even been one of the principal culprits for the past Bitcoin forks. Another problem with ASIC manufacturers is their economic advantage over the rest of the mining field. ASIC manufacturers typically utilize their next generation products themselves and start selling them to the consumer market after their mining profits have reduced sufficiently due to the increasing competition. This makes normal miners second tier stakeholders in the ecosystem and it is a cause of further mining centralization. 8. Proven track record Monero community has been working actively since its inception in 2014. Majority of the work has focused on research and development, with little efforts put to marketing. Unlike some other projects, especially those forked from Bitcoin, Monero project has an extensive technical skillset in its community and it has been one of the leading projects when it comes to both innovation and execution. One of the Monero’s focus points is applied cryptographic research. Monero has implemented several advancements into the core protocol efficiently and with assurance. All major changes to the Monero protocol have been audited by some of the world’s leading companies specializing in cryptographic analysis, funded by the Monero community.
Thoughts on if/how this may affect price? https://ih.advfn.com/stock-market/NASDAQ/marathon-patent-MARA/stock-news/82423475/marathon-patent-group-announces-purchase-of-700-ne Marathon Patent Group, Inc. (NASDAQ:MARA) ("Marathon" or "Company"), one of the few Nasdaq listed cryptocurrency mining companies in the United States, today announced the purchase of 700 next generation M30S+ ASIC Miners from MicroBT. The 700 miners produce 80/Th and will generate 56 PH/s (petahash) of hashing power, compared to companies current S-9 production of 46 PH/s. These next generation MicroBT ASIC miners are markedly more energy efficient than our existing S-9 Bitmain models. The company paid $1,277,455 and the purchase was funded with cash on hand. The company expects to take delivery at our Hosting Facility by the end of May and our hosting partner, Compute North, expects to install them within 48 hours of their arrival. The M30S+ is one of the latest generations of bitcoin (“BTC”) Application Specific Integrated Circuit (“ASIC”) miners from MicroBT. It can achieve 100 TH/s at 34J/T and has already proven to be highly stable. The units come with a 1-year warranty versus the industry standard 6-month warranty.
Antminer T19 May Not Affect Bitcoin Hash Rate but Keeps Bitmain Ahead
The Antminer T19 by Bitmain may not have a big impact on the Bitcoin network, and it comes out amid the firm’s internal and post-halving uncertainty. Earlier this week, Chinese mining-hardware juggernaut Bitmain unveiled its new product, an application-specific integrated circuit called Antminer T19. The Bitcoin (BTC) mining unit is the latest to join the new generation of ASICs — state-of-the-art devices designed to mitigate increased mining difficulty by maximizing the terahashes-per-second output. The Antminer T19 announcement comes amid the post-halving uncertainty and follows the company’s recent problems with its S17 units. So, can this new machine help Bitmain to reinforce its somewhat hobbled position in the mining sector? T19: The cheaper S19 According to the official announcement, the Antminer T19 features a mining speed of 84 TH/s and a power efficiency of 37.5 joules per TH. The chips used in the new device are the same as those equipped in the Antminer S19 and S19 Pro, though it uses the new APW12 version of the power supply system that allows the device to start up faster. Bitmain usually markets its Antminer T devices as the most cost-effective ones, while the S-series models are presented as the top of the line in terms of productivity for their respective generation, Johnson Xu — the head of research and analytics at Tokensight — explained to Cointelegraph. According to data from F2Pool, one of the largest Bitcoin mining pools, Antminer T19s can generate $3.97 of profit each day, while Antminer S19s and Antminer S19 Pros can earn $4.86 and $6.24, respectively, based on an average electricity cost of $0.05 per kilowatt-hour. Antminer T19s, which consume 3,150 watts, are being sold for $1,749 per unit. Antminer S19 machines, on the other hand, cost $1,785 and consume 3,250 watts. Antminer S19 Pro devices, the most efficient of three, are considerably more expensive and go for $2,407. The reason Bitmain is producing another model for the 19 series is due to what is known as "binning" chips, Marc Fresa — the founder of mining firmware company Asic.to — explained to Cointelegraph: “When chips are designed they are meant to achieve specific performance levels. Chips that fail to hit their target numbers, such as not achieving the power standards or their thermal output, are often ‘Binned.’ Instead of throwing these chips in the garbage bin, these chips are resold into another unit with a lower performance level. In the case of Bitmain S19 chips that don’t make the cutoff are then sold in the T19 for cheaper since they do not perform as well as the counterpart.” The rollout of a new model “has nothing to do with the fact that machines are not selling well,” Fresa went on to argue, citing the post-halving uncertainty: “The biggest reason machines probably are not selling as well as manufacturers would like is because we are on a bit of a tipping point; The halving just happened, the price can go anyway and the difficulty is continuing to drop.” Product diversification is a common strategy for mining hardware producers, given that customers tend to aim for different specifications, Kristy-Leigh Minehan, a consultant and the former chief technology officer of Genesis Mining, told Cointelegraph: “ASICs don’t really allow for one model as consumers expect a certain performance level from a machine, and unfortunately silicon is not a perfect process — many times you’ll get a batch that performs better or worse than projected due to the nature of the materials. Thus, you end up with 5–10 different model numbers.” It is not yet clear how efficient the 19-series devices are because they have not shipped at scale, as Leo Zhang, the founder of Anicca Research, summed up in a conversation with Cointelegraph. The first batch of S19 units reportedly shipped out around May 12, while the T19 shipments will start between June 21 and June 30. It is also worth noting that, at this time, Bitmain only sells up to two T19 miners per user “to prevent hoarding.” Hardware problems and competitors The latest generation of Bitmain ASICs follows the release of the S17 units, which have received mostly mixed-to-negative reviews in the community. In early May, Arseniy Grusha, the co-founder of crypto consulting and mining firm Wattum, created a Telegram group for consumers unsatisfied with the S17 units they purchased from Bitmain. As Grusha explained to Cointelegraph at the time, out of the 420 Antminer S17+ devices his company bought, roughly 30%, or around 130 machines, turned out to be bad units. Similarly, Samson Mow, the chief strategy officer of blockchain infrastructure firm Blockstream, tweeted earlier in April that Bitmain customers have a 20%–30% failure rate with Antminer S17 and T17 units. “The Antminer 17 series is generally considered not great,” added Zhang. He additionally noted that Chinese hardware company and competitor Micro BT has been stepping on Bitmain’s toes lately with the release of its highly productive M30 series, which prompted Bitmain to step up its efforts: “Whatsminer gained significant market share in the past two years. According to their COO, in 2019 MicroBT sold ~35% of the network hashrate. Needless to say Bitmain is under a lot of pressure both from competitors and internal politics. They have been working on the 19 series for a while. The specs and price look very attractive.” Minehan confirmed that MicroBT has been gaining traction on the market, but refrained from saying that Bitmain is losing market share as a result: “I think MicroBT is offering option and bringing in new participants, and giving farms a choice. Most farms will have both Bitmain and MicroBT side by side, rather than exclusively host one manufacturer.” “I would say that MicroBT has taken up the existing market share that Canaan has left,” she added, referring to another China-based mining player that recently reported a net loss of $5.6 million in the first quarter of 2020 and cut the price of its mining hardware by up to 50%. Indeed, some large-scale operations seem to be diversifying their equipment with MicroBT units. Earlier this week, United States mining firm Marathon Patent Group announced that it had installed 700 Whatsminer M30S+ ASICs produced by MicroBT. However, it is also reportedly waiting for a delivery of 1,160 Antminer S19 Pro units produced by Bitmain, meaning that it also remains loyal to the current market leader. Will the hash rate be affected? Bitcoin’s hash rate plummeted 30% soon after the halving occurred as much of the older generation equipment became unprofitable due to the increased mining difficulty. That spurred miners to reshuffle, upgrading their current rigs and selling older machines to places where electricity is cheaper — meaning that some of them had to temporarily unplug. The situation has stabilized since, with the hash rate fluctuating around 100 TH/s for the past few days. Some experts attribute that to the start of the wet season in Sichuan, a southwest Chinese province where miners take advantage of low hydroelectricity prices between May and October. The arrival of the new generation of ASICs is expected to drive the hash rate even higher, at least once upgraded units become widely available. So, will the newly revealed T19 model make any impact on the state of the network? Experts agree that it won’t affect the hash rate to a major degree, as it’s a lower output model compared with the S19 series and MicroBT’s M30 series. Minehan said she doesn’t expect the T19 model “to have a huge impact that’s an immediate cause of concern,” as “most likely this is a run of <3500 units of a particular bin quality.” Similarly, Mark D’Aria, the CEO of crypto consulting firm Bitpro, told Cointelegraph: “There isn’t a strong reason to expect the new model to significantly affect the hashrate. It might be a slightly more compelling option to a miner with extraordinarily inexpensive electricity, but otherwise they likely would have just purchased an S19 instead.” Bitmain continues to hold leadership despite internal struggle At the end of the day, manufacturers are always in an arms race, and mining machines are simply commodity products, Zhang argued in a conversation with Cointelegraph: “Besides price, performance, and failure rate, there are not many factors that can help a manufacturer differentiate from the others. The relentless competition led to where we are today.” According to Zhang, as the iteration rate naturally slows down in the future, there will be more facilities using “creative thermal design such as immersion cooling,” hoping to maximize the mining efficiency beyond just using most powerful machines. As for now, Bitmain remains the leader of the mining race, despite having to deal with the largely defunct 17 series and an intensifying power struggle between its two co-founders, Jihan Wu and Micree Zhan, which recently resulted in reports of a street brawl. “Due to its recent internal issues, Bitmain is facing challenges to keep its strong position in the future thus they started to look at other things to expand its industry influences,” Xu told Cointelegraph. He added that Bitmain “will still dominate the industry position in the near future due to its network effect,” although its current problems might allow competitors such as MicroBT to catch up. Earlier this week, the power struggle inside Bitmain intensified even further as Micree Zhan, an ousted executive of the mining titan, reportedly led a group of private guards to overtake the company’s office in Beijing. Meanwhile, Bitmain continues to expand its operations. Last week, the mining company revealed it was extending its “Ant Training Academy” certification program to North America, with the first courses set to launch in the fall. As such, Bitmain seems to be doubling down on the U.S.-based mining sector, which has been growing recently. The Beijing-based company already operates what it classifies as “the world’s largest” mining facility in Rockdale, Texas, which has a planned capacity of 50 megawatts that can later be expanded to 300 megawatts.
The strong case for Monero – fulfilling characteristics of the future currency
I wanted to write a short article about the distinct characteristics of Monero, some of which are absolutely necessities in any future currency looking to gaining serious user adoption. Together, these separate Monero quite distinctly from the rest of the crypto field. This is certainly nothing new to the seniors here, but it might contain some new perspectives, and also give an overview to the newer cryptofolk why Monero is quite unique - 1. Transactions are private by default The sender, receiver and amount are all hidden in Monero. This is by default, as opposed to some other private cryptocurrencies, such as Zcash, where you can optionally make private transactions. As a result, most transactions in Zcash are transparent, which makes the actual anonymity set small. In Bitcoin there is no real anonymity, because everything occurs in a transparent blockchain – the sender, receiver and amount are all public information. This has created a market for blockchain analysis, where companies keep track of the of transactions and make profit from this information. Furthermore, because the full history of sent and received Bitcoins and other transparent cryptocurrencies can be analyzed, the newly minted coins are generally more valuable than others. This phenomenon is called ‘taint’, and it exists only in transparent blockchains. Besides speculative holding, no real-world use will emerge in any blockchain that is transparent. No company is prepared to publicly devolve how much, when and to which suppliers they send funds. Or vice versa, no company wants its competitors to know how many customers have paid them in the last quarter. Similarly, no sensible, privacy-valuing person should be willing to share his or her personal consuming habits with the whole world, forever. 2. Community-driven – no company, no CEO Most understand cryptocurrencies are decentralized because different stakeholders all over the world participate in the process of mining, verifying and relying information from one stakeholder to another. It is practically impossible to stop this type of well distributed global network from operating. The network topology, however, is only one part of the decentralization. If everything is controlled by a single entity, it creates a single point of failure. As an example, if everything is funded, developed and coordinated by a single company or a few companies, which funds can be seized, executives jailed and operations stopped, how secure is this cryptocurrency in the end? In Monero, there is no company, no CEO, no office. Everything is coordinated by members of the community, globally. 3. Emission is dis-inflationary and it reduces constantly Monero’s emission, i.e. generation of new coins, reduces every block (2 minutes). In Bitcoin, the emission is reduced every four years. This causes sudden shocks to the Bitcoin ecosystem, because miners’ rewards are halved. Such a dramatic decrease will inevitably lead to some miners abandoning their mining activities. Because proof-of-work (POW) cryptocurrencies such as Bitcoin and Monero rely on miners to secure the network, any significant decrease in mining is detrimental to the network’s security. On the other hand, the smoother emission in Monero makes mining activities more stable, which improves the security and trust of the whole system. Another future-proofing factor in Monero is the tail emission, where the block reward will no longer decrease from 0.6 XMR after mid 2022. Minimum block reward incentives miners to continue mining even if the transaction fees do not cover all economic needs of the competing miners. Comparing this to FIAT currencies, which are inflating 2-6 % each year, Monero’s inflation is asymptotically approaching 0 %. Even though new coins are generated by every block, the amount created per given time period remains constant after mid 2022. Contrast this to the FIAT systems, where the amount of new currency created is always increasing. Due to the compounding effect even moderate inflation in FIAT currencies causes considerable losses to all savers in medium and long term. 4. Block size is dynamic – it scales with number of transactions Monero’s block size has no cap, which means the amount of transactions that can fit to the block is not limited. To prevent transaction spamming, preventive mechanisms have been built in the protocol. Cryptocurrencies which implement a hard cap on the block size are susceptible to surging transactions fees. This occurs when there are simply too many transactions trying to make it into the block. Such a phenomenon occurred in Bitcoin during the peak of the last bull-run in January 2018, when the average transaction fees rose above $20. 5. Fair supply – no premine or developer tax Supply mechanism and distribution are two elemental factors, which affect how capable the cryptocurrency is as a store of value (SOV). If a large majority of the future supply is held by a small group of people, it undermines the trust that the cryptocurrency keeps its value long term. If only a few stakeholders can massively increase the supply side of the market, the downward price risk becomes high. The more distributed the supply, the more stakeholders it takes to influence it. Two practical implementations that undermine SOV in cryptocurrencies are premine and developer tax. In premine, the founders create a large initial amount of funds for themselves (or for their organization). Premining is an issue in some POW currencies and in all proof-of-stake (POS) cryptocurrencies, because their coin generation is not done by work. Developer tax is implemented in some POW currencies, where a portion of the block reward goes to the founders. 6. Crowdfunding and voluntarism as driving forces Since the launch of Monero in 2014, all progression has been made by its rich and versatile community. Active members consist of several PhD researchers, developers, UX designers, translators and many other professionals of varying backgrounds. Much of the work has been made possible using crowdfunding, donors being individuals, investors and companies. Some members have participated even pro-bono, which further emphasizes the community’s trust in the project. The fact that the work is enabled by crowfunding and voluntarism is truly a strength, because it is difficult to stop ideology and people who want to be part of such force. This is in stark contrast to company-driven projects, which are much more susceptible to government oversight and control. 7. Mining is more sustainable Monero’s mining algorithm, Random X, specifically targets general purpose CPUs and it is unsuitable to be mined with application-specific integrated circuits (ASICS). This greatly improves mining decentralization, because mining is feasible on data centers and personal computers. In Bitcoin and many other POW cryptocurrencies mining is only feasible with expensive ASICS, manufactured by just a few companies. ASIC mined cryptocurrencies are problematic because there are very few companies specializing in mining equipment. Bitcoin’s largest ASIC manufacturer, Bitmain, has had overly much power in the ecosystem. They have stalled Bitcoin’s adoption, caused division among the community and even been one of the principal culprits for the past Bitcoin forks. Another problem with ASIC manufacturers is their economic advantage over the rest of the mining field. ASIC manufacturers typically utilize their next generation products themselves and start selling them to the consumer market after their mining profits have reduced sufficiently due to the increasing competition. This makes normal miners second tier stakeholders in the ecosystem and it is a cause of further mining centralization. 8. Proven track record Monero community has been working actively since its inception in 2014. Majority of the work has focused on research and development, with little efforts put to marketing. Unlike some other projects, especially those forked from Bitcoin, Monero project has an extensive technical skillset in its community and it has been one of the leading projects when it comes to both innovation and execution. One of the Monero’s focus points is applied cryptographic research. Monero has implemented several advancements into the core protocol efficiently and with assurance. All major changes to the Monero protocol have been audited by some of the world’s leading companies specializing in cryptographic analysis, funded by the Monero community.
ASICs are coming to the Ethereum mining industry, and small independent miners are virtually doomed. 2Ether has come up with a solution — the third element in our dynamic block reward system. But before we explain it, we’ll have to talk about Ethereum ASICs. If you don’t know that much about Ethereum, you might be surprised to learn that ASICs for mining ETH actually exist. Isn’t Ethereum’s algorithm — Ethash — supposed to be ASIC-resistant? If it isn’t then why is everyone still mining using GPUs? Well, Ethash is indeed much less ASIC-friendly than the algorithm of Bitcoin. It doesn’t mean that you can’t make ASIC chips for mining ether, though. It’s just that it’s difficult to make ASICs that would be much more efficient than graphic cards (GPUs). The efficiency of a piece of mining hardware is calculated as a ratio of power (measured in kilowatt hours) to hash power (measured in megahash per second). So for example, if you have two devices that both produce 50 MH/s, but one of them consumes 1 kWh, and the other consumes 2 kWh, then the first device is twice more efficient. ASICs cost a lot of money to design, and their market price is high. So it only makes sense to buy an ASIC if it gives you a serious advantage over other types of hardware. You should also keep in mind that if the algorithm changes, you’ll need to replace your ASIC with a new model. Such chips are built to carry out one task and one task only — that’s why they are called application-specific integrated circuits (that’s how the acronym is deciphered). Now, the first ASICs for Ethereum came out in April 2018, and they were more than a curious gadget than a serious rival to GPUs. Vitalik Buterin said that they were not a threat and the best action would be no action. But the situation changed. Soon, there were ASICs twice as efficient as the best graphic cards. Still, it wasn’t enough to justify the price difference. Finally, in late September 2019, Chinese manufacturer and distributor of mining hardware Canaan announced that it would start selling a new ASIC that is 5 to 7 times more efficient than the leading GPU models.Its W/MHs ratio is just 0.68–7.5 times better compared to AMD Vega 64 and 5.3 times better than AMD RX570. What does this mean for Ethereum mining? When such models go on sale, whoever can afford them will be able to extract very high profits. GPU miners will be at a disadvantage. And if you have only a small rig with a couple of GPUs at home, your prospects are grim. You might ask: can’t Ethereum devs do something — say, change the algorithm? Bitcoin algo changes regularly, after all. Unfortunately, Ethereum works differently, so every algorithm change would require a hard fork — with all the consequences it entails. The devs have been talking about introducing a new consensus protocol called ProgPOW (Programmable Proof of Work). It would make the algorithm change regularly and ensure ASIC resistance. But Vitalik Buterin believes that the real goal is a switch to Proof of Stake, not tweaking PoW. What other options are there to protect small miners from the upcoming wave of ASICs? In our next post, we’ll explain how 2Ether plans to deal with this problem. https://2ether.com/ Web site — https://2ether.com/ Twitter — https://twitter.com/2Ether_ Discord — https://discord.gg/TuqG4py Facebook — https://www.facebook.com/2Ethe Reddit — https://www.reddit.com/use2Ether Medium — https://medium.com/@2ether Teletype — https://teletype.in/@2ether Telegram — https://t.me/ether2support Telegram chat — https://t.me/blockchain_2ether
Nuvmining | Planning To Profession Monero Cryptocurrency? Right here Are The Basics To Obtain You Begun
Among the core mandates of the blockchain innovation is to provide individuals with undeviating privacy. Bitcoin as the first ever decentralized cryptocurrency depended on this premise to market itself to the bigger audience that was after that in need of a digital money that is devoid of government meddling. nuv mining Sadly, in the process, Bitcoin confirmed to be swarming with a number of weaknesses consisting of non-scalability and also mutable blockchain. All the purchases and also addresses are composed on the blockchain therefore making it much easier for any person to connect the dots as well as introduce users' exclusive details based on their existing records. Some federal government and non-government companies are already utilizing blockchain analytics to read information on Bitcoin system. nuvmining Such problems have actually resulted in programmers checking out alternate blockchain technologies with better safety and speed. Among these projects is Monero, usually stood for by XMR ticker. What is Monero? Monero is a privacy-oriented cryptocurrency job whose primary aim is to offer far better personal privacy than various other blockchain ecological communities. This technology guard's customers' info via stealth addresses and Ring signatures. Stealth address describes the development of a single address for a solo purchase. No 2 addresses can be pinned to a solitary transaction. The coins received enter into a totally various address making the entire procedure vague to an exterior viewer. Ring trademark, on the various other hand, describes blending of account keys with public secrets hence producing a "ring" of multiple notaries. This implies a tracking agent can not link a trademark to a certain account. Unlike cryptography (mathematical technique of safeguarding crypto jobs), ring signature is not a newcomer. Its concepts were discovered and also taped in a 2001 paper by The Weizmann Institute as well as MIT. Cryptography has actually absolutely won the hearts of numerous programmers and also blockchain enthusiasts, yet the reality is, it's still a nascent device with a handful utilizes. Since Monero utilizes the currently checked Ring trademark technology, it has established itself apart as a genuine task worth embracing. Things to understand prior to you begin trading Monero Monero's Market Monero's market resembles that of other cryptocurrencies. If you want to buy it then Sea serpent, Poloniex, and Bitfinex are a few of the exchanges to see. Poloniex was the initial to embrace it complied with by Bitfinex and also lastly Kraken. This online money mainly appears secured to the buck or versus fellow cryptos. A few of the readily available pairings include XMUSD, XMBTC, XMEUR, XMXBT and also many more. This currency's trading quantity as well as liquidity document great statistics. Among the good things regarding XMR is that any individual can take part in extracting it either as an individual or by signing up with a mining swimming pool. Any type of computer system with substantially great processing power can mine Monero obstructs with a couple of missteps. Don't bother choosing the ASICS (application-specific integrated circuits) which are currently compulsory for Bitcoin mining. Rate volatility Regardless of being a powerful cryptocurrency network, it's not so special when it pertains to volatility. Basically all altcoins are exceptionally unpredictable. This must not stress any type of passionate investor as this factor is what makes them profitable in the very first place-you buy when prices are in the dip and also market when they are on a higher pattern. In January 2015, XMR was opting for $0.25 after that did some jogging to $60 in Might 2017 and it's currently bowling above the $300 mark. Monero coin taped its ATH (all-time high) of $475 on January seventh prior to it started slumping together with various other cryptocurrencies to $300. At the time of this writing, virtually all decentralized currencies remain in rate modification stage with Bitcoin teeter-tottering between $10-11k from its remarkable ATH of $19,000. Fungibility and also fostering Thanks to its capacity to use trusted personal privacy, XMR has actually been taken on by lots of people making its coins to be easily substituted for other money. In basic terms, Monero can be easily traded for something else. All Bitcoins in Bitcoin Blockchain are recorded down, and therefore, when an event like burglary transpires, every coin included will be steered clear of from operating making them nonexchangeable. With monero, you can not differentiate one coin from the other. Therefore, no vendor can decline any of them due to the fact that it's been connected with a negative event. Monero blockchain is currently one of the most trending cryptocurrencies with a considerable variety of followers. Like many other blockchain jobs, its future appearances fantastic albeit the impending federal government crackdown. As an investor, you require to do your due diligence and research before trading in any kind of Cryptocurrency. Where feasible, look for assistance from economists in order to step on the appropriate path.
Mining for Profitability - Horizen (formerly ZenCash) Thanks Early GPU Miners
Thank you for inviting Horizen to the GPU mining AMA! ZEN had a great run of GPU mining that lasted well over a year, and brought lots of value to the early Zclassic miners. It is mined using Equihash protocol, and there have been ASIC miners available for the algorithm since about June of 2018. GPU mining is not really profitable for Horizen at this point in time. We’ve got a lot of miners in the Horizen community, and many GPU miners also buy ASIC miners. Happy to talk about algorithm changes, security, and any other aspect of mining in the questions below. There are also links to the Horizen website, blog post, etc. below. So, if I’m not here to ask you to mine, hold, and love ZEN, what can I offer? Notes on some of the lessons I’ve learned about maximizing mining profitability. An update on Horizen - there is life after moving on from GPU mining. As well as answering your questions during the next 7 days. _____________________________________________________________________________________________________
Mining for Profitability - Horizen (formerly ZenCash) Thanks Early GPU Miners
Author: Rolf Versluis - co-founder of Horizen
In GPU mining, just like in many of the activities involved with Bitcoin and cryptocurrencies, there is both a cycle and a progression. The Bitcoin price cycle is fairly steady, and by creating a personal handbook of actions to take during the cycle, GPU miners can maximize their profitability. Maximizing profitability isn't the only aspect of GPU mining that is important, of course, but it is helpful to be able to invest in new hardware, and be able to have enough time to spend on building and maintaining the GPU miners. If it was a constant process that also involved losing money, then it wouldn't be as much fun.
For a given mining algorithm, there is definitely a technology progression. We can look back on the technology that was used to mine Bitcoin and see how it first started off as Central Processing Unit (CPU) mining, then it moved to Graphical Processing Unit (GPU) mining, then Field Programmable Gate Array (FPGA), and then Application Specific Integrated Circuit (ASIC). Throughout this evolution we have witnessed a variety of unsavory business practices that unfortunately still happen on occasion, like ASIC Miner manufacturers taking pre-orders 6 months in advance, GPU manufacturers creating commercial cards for large farms that are difficult for retail customers to secure and ASIC Miner manufacturers mining on gear for months before making it available for sale. When a new crypto-currency is created, in many cases a new mining algorithm is created also. This is important, because if an existing algorithm was used, the coin would be open to a 51% attack from day one, and may not even be able to build a valid blockchain. Because there's such a focus on profitable software, developers for GPU mining applications are usually able to write a mining application fairly rapidly, then iterate it to the limit of current GPU technology. If it looks like a promising new cryptocurrency, FPGA stream developers and ASIC Hardware Developers start working on their designs at the same time. The people who create the hashing algorithms run by the miners are usually not very familiar with the design capabilities of Hardware manufacturers. Building application-specific semiconductors is an industry that's almost 60 years old now, and FPGA’s have been around for almost 35 years. This is an industry that has very experienced engineers using advanced design and modeling tools. Promising cryptocurrencies are usually ones that are deploying new technology, or going after a big market, and who have at least a team of talented software developers. In the best case, the project has a full-stack business team involving development, project management, systems administration, marketing, sales, and leadership. This is the type of project that attracts early investment from the market, which will drive the price of the coin up significantly in the first year. For any cryptocurrency that's a worthwhile investment of time, money, and electricity for the hashing, there will be a ASIC miners developed for it. Instead of fighting this technology progression, GPU miners may be better off recognizing it as inevitable, and taking advantage of the cryptocurrency cycle to maximize GPU mining profitability instead.
Cryptocurrency Price Cycle
For quality crypto projects, in addition to the one-way technology progression of CPU -> GPU -> FPGA -> ASIC, there is an upward price progression. More importantly, there is a cryptocurrency price cycle that oscillates around an overall upgrade price progression. Plotted against time, a cycle with an upward progressions looks like a sine wave with an ever increasing average value, which is what we see so far with the Bitcoin price. Cryptocurrency price cycle and progression for miners This means mining promising new cryptocurrencies with GPU miners, holding them as the price rises, and being ready to sell a significant portion in the first year. Just about every cryptocurrency is going to have a sharp price rise at some point, whether through institutional investor interest or by being the target of a pump-and-dump operation. It’s especially likely in the first year, while the supply is low and there is not much trading volume or liquidity on exchanges. Miners need to operate in the world of government money, as well as cryptocurrency. The people who run mining businesses at some point have to start selling their mining proceeds to pay the bills, and to buy new equipment as the existing equipment becomes obsolete. Working to maximize profitability means more than just mining new cryptocurrencies, it also means learning when to sell and how to manage money.
Managing Cash for Miners
The worst thing that can happen to a business is to run out of cash. When that happens, the business usually shuts down and goes into bankruptcy. Sometimes an investor comes in and picks up the pieces, but at the point the former owners become employees. There are two sides to managing cash - one is earning it, the other is spending it, and the cryptocurrency price cycle can tell the GPU miner when it is the best time to do certain things. A market top and bottom is easy to recognize in hindsight, and harder to see when in the middle of it. Even if a miner is able to recognize the tops and bottoms, it is difficult to act when there is so much hype and positivity at the top of the cycle, and so much gloom and doom at the bottom. A decent rule of thumb for the last few cycles appears to be that at the top and bottom of the cycle BTC is 10x as expensive compared to USD as the last cycle. Newer crypto projects tend to have bigger price swings than Bitcoin, and during the rising of the pricing cycle there is the possibility that an altcoin will have a rise to 100x its starting price. Taking profits from selling altcoins during the rise is important, but so is maintaining a reserve. In order to catch a 100x move, it may be worth the risk to put some of the altcoin on an exchange and set a very high limit order. For the larger cryptocurrencies like Bitcoin it is important to set trailing sell stops on the way up, and to not buy back in for at least a month if a sell stop gets triggered. Being able to read price charts, see support and resistance areas for price, and knowing how to set sell orders are an important part of mining profitability.
Actions to Take During the Cycle
As the cycle starts to rise from the bottom, this is a good time to buy mining hardware - it will be inexpensive. Also to mine and buy altcoins, which are usually the first to see a price rise, and will have larger price increases than Bitcoin. On the rise of the cycle, this is a good time to see which altcoins are doing well from a project fundamentals standpoint, and which ones look like they are undergoing accumulation from investors. Halfway through the rise of the cycle is the time to start selling altcoins for the larger project cryptos like Bitcoin. Miners will miss some of the profit at the top of the cycle, but will not run out of cash by doing this. This is also the time to stop buying mining hardware. Don’t worry, you’ll be able to pick up that same hardware used for a fraction of the price at the next bottom. As the price nears the top of the cycle, sell enough Bitcoin and other cryptocurrencies to meet the following projected costs:
Mining electricity costs for the next 12 months
Planned investment into new miners for the next cycle
Additional funds needed for things like supporting a family or buying a Lambo
Taxes on all the capital gains from the sale of cryptocurrencies
It may be worth selling 70-90% of crypto holdings, maintaining a reserve in case there is second upward move caused by government bankruptcies. But selling a large part of the crypto is helpful to maintaining profitability and having enough cash reserves to make it through the bottom part of the next cycle. As the cycle has peaked and starts to decline, this is a good time to start investing in mining facilities and other infrastructure, brush up on trading skills, count your winnings, and take some vacation. At the bottom of the cycle, it is time to start buying both used and new mining equipment. The bottom can be hard to recognize. If you can continue to mine all the way through bottom part of the cryptocurrency pricing cycle, paying with the funds sold near the top, you will have a profitable and enjoyable cryptocurrency mining business. Any cryptocurrency you are able to hold onto will benefit from the price progression in the next higher cycle phase.
An Update on Horizen - formerly ZenCash
The team at Horizen recognizes the important part that GPU miners played in the early success of Zclassic and ZenCash, and there is always a welcoming attitude to any of ZEN miners, past and present. About 1 year after ZenCash launched, ASIC miners became available for the Equihash algorithm. Looking at a chart of mining difficulty over time shows when it was time for GPU miners to move to mining other cryptocurrencies. Horizen Historical Block Difficulty Graph Looking at the hashrate chart, it is straightforward to see that ASIC miners were deployed starting June 2018. It appears that there was a jump in mining hashrate in October of 2017. This may have been larger GPU farms switching over to mine Horizen, FPGA’s on the network, or early version of Equihash ASIC miners that were kept private. The team understands the importance of the cryptocurrency price cycle as it affects the funds from the Horizen treasury and the investments that can be made. 20% of each block mined is sent to the Horizen non-profit foundation for use to improve the project. Just like miners have to manage money, the team has to decide whether to spend funds when the price is high or convert it to another form in preparation for the bottom part of the cycle. During the rise and upper part of the last price cycle Horizen was working hard to maximize the value of the project through many different ways, including spending on research and development, project management, marketing, business development with exchanges and merchants, and working to create adoption in all the countries of the world. During the lower half of the cycle Horizen has reduced the team to the essentials, and worked to build a base of users, relationships with investors, exchanges, and merchants, and continue to develop the higher priority software projects. Lower priority software development, going to trade shows, and paying for business partnerships like exchanges and applications have all been completely stopped. Miners are still a very important part of the Horizen ecosystem, earning 60% of the block reward. 20% goes to node operators, with 20% to the foundation. In the summer of 2018 the consensus algorithm was modified slightly to make it much more difficult for any group of miners to perform a 51% attack on Horizen. This has so far proven effective. The team is strong, we provide monthly updates on a YouTube live stream on the first Wednesday of each month where all questions asked during the stream are addressed, and our marketing team works to develop awareness of Horizen worldwide. New wallet software was released recently, and it is the foundation application for people to use and manage their ZEN going forward. Horizen is a Proof of Work cryptocurrency, and there is no plan to change that by the current development team. If there is a security or centralization concern, there may be change to the algorithm, but that appears unlikely at this time, as the hidden chain mining penalty looks like it is effective in stopping 51% attacks. During 2019 and 2020 the Horizen team plans to release many new software updates:
Sidechains modification to main software
Sidechain Software Development Kit
Governance and Treasury application running on a sidechain
Node tracking and payments running on a sidechain
Conversion from blockchain to a Proof of Work BlockDAG using Equihash mining algorithm
Rolf Versluis is Co-Founder and Executive Advisor of the privacy oriented cryptocurrency Horizen. He also operates multiple private cryptocurrency mining facilities with hundreds of operational systems, and has a blog and YouTube channel on crypto mining called Block Operations. Rolf applies his engineering background as well as management and leadership experience from running a 60 person IT company in Atlanta and as a US Navy nuclear submarine officer operating out of Hawaii to help grow and improve the businesses in which he is involved. _____________________________________________________________________________________________ Thank you again for the Ask Me Anything - please do. I'll be checking the post and answering questions actively from 28 Feb to 6 Mar 2019 - Rolf
In order to get started mining Cryptocurrency, cryptocurrency miners will need dedicated computer hardware with a specialized graphical processing unit (GPU) chip or application-specific integrated circuit (ASIC), sufficient cooling means for the hardware, an always-on internet connection, which makes it a little bit complicated and expensive to mine cryptocurrencies… Well, MINEMUSE is here to solve those problems with the use of Cloud-Mining, To make mining truly accessible, profitable and Hassel free for everyone and is more cost-effective, we at MineMuse have come up with a solution. We are manufacturing our own ASIC for future use. We will be creating our own electric power using the natural resources available, which will reduce our costing for mining; also with its use, we will be able to mine more quantity in less timeframe. Manufacturing our own ASIC will result in less expenditure for the hardware to be used. We are also planning to sell further our own manufactured ASICs to other mining corporations, which will help us in growing along with the profits. MINEMUSE uses over 7,000 to 10,000 ASIC and around 50,000 GPU through which the mining takes place. This ASIC is specific for each coin. These are huge types of equipment that generate a lot of heat while processing, so the colder climate/regions help in keeping these types of equipment cool and also reduces the costing for the power. These ASICs are made up of a number of GPUs. MINEMUSE actually makes it possible for investors to invest using cryptocurrency and other payment methods such as PerfectMoney and Payeer, users would be able to earn daily dividends on their investment depending on the package they chose. The crypto mining business sector is highly dependent on energy supply. The price and availability of electric power are the two most important factors for mining companies. Electric power is the medium through which maximum profit for mining can be generated so the, more emphasis is laid upon to conserve the electric power. To be efficient and to meet the best requirements in terms of low-cost electricity supply we have established our mining station in these regions and also have the access to many natural resources which helps in reducing the infrastructure to be used and increasing the overall profit. MINEMUSE uses the following natural resources to generate electricity which makes it practically possible to mine cryptocurrency. FOSSIL FUEL RESOURCES The non-renewable natural energy sources like coal, natural gas, and oil, which are formed using the plants' and animals' biomass. These Fossil Fuels are carbon-based and currently supply most of the human energy requirements. WIND TURBINES Wind power converts the kinetic energy in wind to generate electric power. This is achieved by using a large wind turbine, the turbine can be connected to a generator to generate electricity or the wind used as mechanical power to perform tasks such as pumping water or grinding grain. BIOMASS The organic, non-fossil material of biological origin mainly like wood and wood waste, biogas, biofuels and the organic fraction of municipal and industrial waste is used to generate heat production or electric power. WIND ENERGY We convert the kinetic energy of wind into the electricity in the wind turbines. SOLAR ENERGY The solar radiations are exploited for heat or electric power. MINEMUSE uses the above natural resources to generate natural resources MINEMUSE makes it simple and easy for investors to mine cryptocurrency through Cloud Mining Or Remote Mining the main reason for the existence of this model is the fact that the increasing difficulty of mining has made it unprofitable for people to start mining at home. The more accessible model for remote mining is cloud mining, where a part of the mining hardware is purchased by the miner which is hosted and owned by a mining service provider. Here the requirements such as the configuration of the hardware, maintaining uptime and selecting the most efficient and reliable pools are taken care of by the service provider. There are a lot of pros that this option provides: instant connection (i.e no waiting time and delivery risk for hardware shipment), static maintenance and no issues related to noise, heat or space for mining. Below are the packages that Users can choose when signing up. https://preview.redd.it/m42zw9dxh4r31.jpg?width=2000&format=pjpg&auto=webp&s=c92b6d1b9e1c3d7c8e412950e06ae6603edae0f2 Investors can invest in MineMuse using the following payment methods... Bitcoin, Ethereum, Bitcoin Cash, Litecoin, PerfectMoney, and Payeer.
Burstcoin (BURST): A Dark Horse That Could Become A Major Cryptocurrency, The King of Proof of Capacity
https://preview.redd.it/nt1qbc9cq4221.png?width=572&format=png&auto=webp&s=d867a4c98e7ab7e9c37c7dc23cc7fb251a5ecec7 https://cryptoiq.co/burstcoin-burst-a-dark-horse-that-could-become-a-major-cryptocurrency-the-king-of-proof-of-capacity/ Currently the cryptocurrency space is flooded with copycat coins and initial coin offering (ICO) tokens, most of which are moving steadily down the ranks on CoinMarketCap as the bear market of 2018 continues. This bear market is weeding out cryptocurrencies that have little long term potential, and cryptocurrencies that have strong communities and unique technology are rising to the top. Burstcoin (BURST) is one such cryptocurrency that is rising to the top, like cream in a glass of fresh milk. This is because the Burstcoin community is filled with diehard Cypherpunks, and BURST is the king of Proof of Capacity. Back in the middle of October 2018 BURST was at #248 on CoinMarketCap, which was before the ‘nuclear’ bear market took effect, where the support level was broken due to the Bitcoin Cash hard fork, Bakkt delaying the launch of physical Bitcoin futures, and the Securities and Exchange Commission (SEC) initiating its first civil enforcement penalties against ICOs. BURST has decreased in price like every other cryptocurrency, but is rising relative to other cryptocurrencies, and as of 3 December 2018 sits at #199 on CoinMarketCap with a market cap of USD 13.5 million. This increase in the price of BURST relative to other cryptocurrencies is due to Burstcoin’s unique technology. Burstcoin is the king of Proof of Capacity, a mining algorithm that uses the hard drive, versus raw computational power like with Proof of Work, and is much more energy efficient than Proof of Work. Proof of Capacity works by writing cryptographic hashes to an allotted segment of a hard drive called a plot. This plot is then read during mining to find the correct cryptographic hash, and whoever finds the cryptographic hash the fastest receives the block reward. More hard drive space dedicated to the plot equals more cryptographic hashes available, making it easier to find an answer and earn the BURST block reward. Currently 1TB generates 1-2 BURST per day, and even though this is only equivalent to about a penny, it is all profit since reading the plot file requires a negligible amount of energy, and BURST miners can use their computer for other activities without impediment. Compare this to Proof of Work, which slows down personal computers and costs more electricity than the cryptocurrency it mines. BURST is one of the only cryptocurrencies that can be profitably mined on personal computers. Further, unlike with Proof of Work where specialized mining equipment is required like application specific integrated circuits (ASICs), anyone with a computer or even mobile phone can mine BURST, and if they decide to stop mining BURST they can simply delete their plot file and use the hard drive space for other things. This is unlike ASICs, which cannot be used for anything but mining, so if someone decides to stop mining they lose all the money invested into the ASIC. The ease of mining and negligible energy usage has led to the formation of a strong BURST mining community, with over 200,000 TB securing the BURST network. This is equivalent to hundreds of thousands of personal computers. The expansive mining community gives BURST value, and some of these miners are blockchain developers, and they have been building a full suite of technology based on the Burstcoin blockchain. CloudBurst immutably stores files directly on the Burstcoin blockchain, for a small 1-time fee. Real blockchain storage is a rarity in the cryptocurrency world. The file will be stored as long as the Burstcoin blockchain exists, which is the foreseeable future and beyond considering the expansive BURST mining community. Cloudburst would be useful if you lost your computer and all of your backups in a natural disaster like a hurricane, and is a more secure solution than cloud storage like Google. Also, the Burstcoin wallet can be used to easily issue cryptocurrencies that are based off of the Burstcoin blockchain, and there is a decentralized exchange built-in to the wallet to trade these crypto assets. Cryptocurrency scalability is a problem even for major cryptocurrencies like Bitcoin and Ethereum, but Burstcoin has tackled and solved this problem with the launch of the Dymaxion. The scalability of the Dymaxion is so powerful that it can handle all the non-cash transactions in the world. This is done via the utilization of tangle-based lightning networks on top of the Burstcoin blockchain. Transactions done via the Dymaxion are instant, with no fees and practically no energy expenditure. The Dymaxion gives Burstcoin the room to grow as much as it needs to. When people look for the cryptocurrencies that will survive long term, it can be confusing due to the 2,000+ cryptocurrencies listed on CoinMarketCap. However, it is clear that cryptocurrencies with truly unique and useful technology, as well as strong communities will always be around and gain value long term relative to all the ICOs and copycats. Bitcoin is the king of SHA-256, Litecoin is the king of Scrypt, Ethereum is the king of blockchain-based dApps, Dogecoin is the king of the shibes on Reddit, Dash is the King of X11, Monero is the king of privacy coins, IOTA is the king of Directed Acyclic Graphs (DAGs), and Burstcoin is the king of Proof of Capacity. These kings of cryptocurrency will definitely be the winners and survivors when the fallout from the ICO apocalypse is over. This is for educational purposes only and is not investment advice. We are not paid by BURST to write this article.
Miners have always had it rough.. "Frustrated Miners" The Problem with PoW (and what is being done to solve it) Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency. In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin. Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases. Hashrates and Hardware Types While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners. When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm. This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time. Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon. 2 Guys 1 ASIC One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption. Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix. When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete. This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control. Implications of Centralization This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors). This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things. The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions. The Rise of FPGAs With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending. A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network. Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements. Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes. All is not lost thanks to.. um.. Technology? Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.” In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution. Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member- "Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well" If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency. Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term. In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
To Vitalik and other ETH Devs, GPU Miners need you and you need GPU Miners (PoW/ProgPoW)
This is directed towardsu/nickjohnson,u/vbuterin,u/5chdnand other ETH Devs. Edit: Proof of ProgPoW: https://gangnam.wattpool.net/#/account/0x445c466856266f8a609f87fdc6b0aaeb274d203f Initial testing is seeing 8.8-10.15mh/s on RX480 and 3.8-4mh/s on RX460. Will include write-up soon, Newest ETH-Miner release! Let me start this by saying, I mined my first BTC before it was even $100 or well known. BTC Mined. That was my first foray into the PoW mining scene. I had a lot a fun doing so. I enjoy building computers, testing equipment, fixing problems. It's literally my everyday job as an IT Hardware Analyst for a company. I had to put down my mining on GPU dreams due to ASICs overtaking the networks of both BTC and LTC. I gave up on crypto as a hobby. Why bother? I don't want an ASIC in my house. There's no fun in tuning an ASIC, cannot change out components, upgrade it, etc. Then in 2017 I heard a whisper of GPU mineable coin that was ASIC resistant. It was called Ethereum. It was posed to be the next "Apple" with great innovations. At first I was beset by previous failures of GPU mineable coins getting overtaken by ASICs. Eventually with some discussion to my friend we built our first GPU mining rig in June of 2017. I got into Ethereum by mining it. Now ASICs run rampant through most of the top 100 Cryptocurrencies. The current outlook, regardless of the bear-market pricing, looks bleak. I want to appeal to Vitalik, Nick, and the other Ethereum developers. It was GPU miners you had in mind when you created the Ethereum network and not ASICs. Vitalik made the best effort of a ASIC-Resistant algorithm. It latest for years but it's a cat and mouse game. Continued development of ASIC-Resistant algorithms needs to continue, not fall by the wayside. u/AndLanu/ohgodagirl, Mr If, and others have poured non-paid work into ProgPoW and getting it working on the Ethereum network because they want to see Ethereum succeed. ASICs are now on the network, ProgPoW is a solution, and we need YOU DEVELOPERS, To stand with US, THE MINERS! Together lets push Ethereum forward to #1! The Developers and GPU Miners need a symbiotic relationship. GPU Miners are NOT against you! You should not be against us! We need to stand together to make Ethereum strong and succeed, not become Bitcoin, which as even in Ethereum's whitepaper you understood it became fairly centralized.
However, this mining algorithm is vulnerable to two forms of centralization. First, the mining ecosystem has come to be dominated by ASICs (application-specific integrated circuits), computer chips designed for, and therefore thousands of times more efficient at, the specific task of Bitcoin mining. This means that Bitcoin mining is no longer a highly decentralized and egalitarian pursuit, requiring millions of dollars of capital to effectively participate in.
In regards to Centralization Mr If, made an excellent argument last Dev meeting, for ProgPoW which I shall reiterate/paraphrase here for everyone on Reddit. PoW is geared towards industries of scale. This is why ASICs typically become the dominate force, because the ASIC manufactures have the capital, investment, and industry to produce them at a low cost. Thus they reap the PoW rewards. Hence why all PoW tends to go towards ASIC. They can decide to sell ASIC and recoup cost plus profit or keep mining with that equipment. Making ASICs egalitarian. ASIC manufactures decide, not the miner communities, what they do with the ASICs. You pay to play and you must be first. ProgPoW takes the same approach but changes who the industry is, instead of Bitmain/Innosilicon it is AMD/Nvidia. These two companies are industrial level manufactures and have the ability to produce on a scale to support PoW(Just look at all the overstock of Nvidia 1000 GPUs). In this sense we are trading one(ASICs) for another (ASIC-GPUs). We as PoW miners must use Nvidia/AMD GPUs to support the network. Because it is the commodity hardware mass available to everyone. ASICs ARE NOT commodity hardware and ARE NOT mass available to everyone. Changing from Eth-hash to ProgPoW changes the players in the game and chooses the lesser two evils (AMD/Nvidia). ProgPoW is not stricitly an Algorithm to replace Eth-hash but a has various "buttons" and "knobs" to tune. hence why its called Programmable! Ill let an Eth-miner Dev explain it... -Andrea LanFranchi (EthMiner Dev)
ProgPoW is not strictly an Algo, it is a finite set of basic operations. ProgPoW is to be considered more of a process which creates variants of the algo every specified interval. Due to this there is no concept of ProgPoW as an immutable algo like Eth-hash. It tune-able and can dial various "knobs" that allow the creation of large number "definition sets" which again due to the deterministic randomness create an infinite number of algo changes. ProgPoW creates a new search kernel every 50 blocks. Every 50 . blocks the gpu receives a completely new and different kernel from the previous which causes hashrate to change. In ProgPoW there is no fixed and constant hashrate for GPUs. You have to take into account averages across multiple periods to get the best out of the hardware. Variances are from 8-9%.
I personally supported the Network at $400, $180, $1400 and still support it now $100. I supported throughout the uncertainty of the Iceage and delays. Ethereum is still a PoW coin! ONE OF THE BEST! It's what made ethereum great! The project has excellent idea's of smart contracts and Dapps. On top of all is a massive GPU networking supporting it. Throughout 2017 there were no ASICs(That we know of) yet the ethereum network grew. What helped make Ethereum blossom was the miners and the mining community. I am personally invested into Ethereum want to see it succeed, I'm personally invested in PoW GPU mining, and want to see it succeed. I will invest my own time and money, being a GPU miner, into seeing that ProgPoW testnet gets fully scrutinized, put through it's paces to ensure that it is a fit for Ethereum and minimize problems. I plead, beg, and invite all other GPU miners to do so. If we want change we as miners must show through hashpower on the testnet, that we are pushing forward with ProgPoW. Throw a single GPU, a Rig, whatever you can spare or muster for ProgPoW testnet. I can and am more than willing to help anyone setup the necessary files, miners, etc needed to get mining on the test network. Right now you can download the ProgPoW Miner(Updates are constant) And Ethermine is in full support. Ethminer -P stratum://(ProgPoW Test Address)[[email protected]](mailto:[email protected]):4444 -A progpow Let's make a Decision together on ProgPoW. Miners are in majority support of ProgPoW and 100% support of kicking ASICs of the network(Look at Ethermine's twitter poll). GPU miners supported you, helped build your network, not investors, not ICOs. At the very heart of Ethereum beats the GPU. Operating that GPU is a typically an enthusiast, hobby miner, and a believer in Crypto. *Edit:*PoW is the known best way to distribute token "fairly", yet everyone hates it and wants PoS? What happens when large ASIC manufacture and centralized parties mining with ASICs earn more tokens than anyone else? Wouldn't that lead to centralization in PoS? Ethereum is on PoW BECAUSE it needs it! And because Ethereum needs PoW, it needs GPU miners, and to stay decentralized to PoS and in PoS it needs to keep GPUs miners on board. Vitalik, Nick, and others, a time-line needs to be set, ProgPoW needs to be in the Agenda continually, discussed throughly, until it's launched on the main network. I will personally come chat, debate ideas, with any of you! Civil discussions are important!
Bitcoin Mining Profitability: How Long Does it Take to Mine One Bitcoin in 2019?
When it comes to Bitcoin (BTC) mining, the major questions on people’s minds are “how profitable is Bitcoin mining” and “how long would it take to mine one Bitcoin?” To answer these questions, we need to take an in-depth look at the current state of the Bitcoin mining industry — and how it has changed — over the last several years. Bitcoin mining is, essentially, the process of participating in Bitcoin’s underlying security mechanism — known as proof-of-work — to help secure the Bitcoin blockchain. In return, participants receive compensation in bitcoins (BTC). When you participate in Bitcoin mining, you are essentially searching for blocks by crunching complex cryptographic challenges using your mining hardware. Once a block is discovered, new transactions are recorded and verified within the block and the block discoverer receives the block rewards — currently set at 12.5 BTC — as well as the transactions fees for the transactions included within the block. Once the maximum supply of 21 million Bitcoins has been mined, no further Bitcoins will ever come into existence. This property makes Bitcoin deflationary, something which many argue will inevitably increase the value of each Bitcoin unit as it becomes more scarce due to increased global adoption. The limited supply of Bitcoin is also one of the reasons why Bitcoin mining has become so popular. In previous years, Bitcoin mining proved to be a lucrative investment option — netting miners with several fold returns on their investment with relatively little effort. bitcoin mining hardware Mining Hardware The mining hardware you choose will mostly depend on your circumstances — in terms of budget, location and electricity costs. Since the amount of hashing power you can dedicate to the mining process is directly correlated with how much Bitcoin you will mine per day, it is wise to ensure your hardware is still competitive in 2019. Bitcoin uses SHA256 as its mining algorithm. Because of this, only hardware compatible with this algorithm can be used to mine Bitcoin. Although it is technically possible to mine Bitcoin on your current computer hardware — using your CPU or GPU — this will almost certainly not generate a positive return on your investment and you may end up damaging your device. The most cost-effective way to mine Bitcoin in 2019 is using application-specific integrated circuit (ASIC) mining hardware. These are specially-designed machines that offer much higher performance per watt than typical computers and have been an absolutely essential purchase for anybody looking to get into Bitcoin mining since the first Avalon ASICs were shipped in 2013. When it comes to selecting Bitcoin mining hardware, there are several main parameters to consider — though the importance of each of these may vary based on personal circumstances and budget. Performance per Watt When it comes to Bitcoin mining, performance per watt is a measure of how many gigahashes per watt a machine is capable of and is, hence, a simple measure of its efficiency. Since electricity costs are likely to be one of the largest expenses when mining Bitcoin, it is usually a good idea to ensure that you are getting good performance per watt out of your hardware. Ideally, your mining hardware would be highly efficient, allowing it to mine Bitcoin with lower energy requirements — though this will need to be balanced with acquisition costs, as often the most efficient hardware is also the most expensive. This means it may take longer to see a return on investment. In countries with cheap electricity, performance per watt is often less of a concern than acquisition costs and price-performance ratio. In most countries, operating outdated mining hardware is typically cost prohibitive, as energy costs outweigh the income generated by the mining equipment. However, this may not be the case for those operating in countries with extremely cheap electricity — such as Kuwait and Venezuela — as even older equipment can still be profitable. Similarly, miners with a free energy surplus, such as from wind or solar electric generators, can benefit from the minimal gains offered by still running outdated hardware. Longevity The lifetime of mining hardware also plays a critical role in determining how profitable your mining venture will be. It’s always a good idea to do whatever possible to ensure it runs as smoothly as possible. Since mining equipment tends to run at a full (or almost full) load for extended periods, they also tend to break down and fail more frequently than most electronics — which can seriously damage your profitability. Equipment failure is even more common when purchasing second-hand equipment. Since warranty claims are often challenging, it can often take a long time to receive a warranty replacement. Price-Performance Ratio In many cases, one of the major criteria used to select mining hardware is the price-performance ratio — a measure of how much performance a machine outputs per unit price. In the case of cryptocurrency mining hardware, this is commonly expressed as gigahashes per dollar or GH/$. Under ideal circumstances, the mining hardware would have a high price-performance ratio, ensuring you get a lot of bang for your buck. However, this must also be considered in combination with the acquisition costs and the expected lifetime of the machine — since the absolute most powerful machines are not always the cheapest or the most energy efficient. Acquisition Costs Acquisition costs are almost always the biggest barrier to entry for most Bitcoin miners since most top-end mining hardware costs several thousand dollars. This problem is further compounded by the fact that many hardware manufacturers offer discounts for bulk purchases, allowing those with deeper pockets to achieve a better price-performance ratio. Acquisition costs include all the costs involved in purchasing any mining equipment, including hardware costs, shipping costs, import duties, and any further costs. For example, many ASIC miners do not include a power supply — which can be another considerable expense, since the 1,000W+ power supplies usually required tend to cost several hundred dollars alone. Ensuring your equipment runs smoothly can also add in additional costs, such as cooling and maintenance expenses. In addition, some miners may want to invest in uninterruptible power supplies to ensure their hardware keeps running — even if the power fails temporarily. asic mining Current Generation Hardware One of the most recent additions to the Bitcoin mining hardware market is the Ebang Ebit E11++, which was released in October 2018. Using a 10nm fabrication process for its processors, the Ebit E11++ is able to achieve one of the highest hash rates on the market at 44TH/s. In terms of efficiency, the Ebang Ebit E11++ is arguably the best on the market, offering 44TH/s of hash rate while drawing just 1,980W of power, offering 22.2GH/W performance. However, as of writing, the Ebang Ebit E11++ is out of stock until March 31, 2019 — while its price of $2,024 (excluding shipping) may make it prohibitively expensive for those first getting involved with Bitcoin mining. Another popular choice is the ASICminer 8 Nano, a machine released in October 2018 that offers 44TH/s for $3,900 excluding shipping. The ASICminer 8 Nano draws 2,100W of power, giving it an efficiency of almost 21GH/W — slightly lower than the Ebit E11++ while costing almost double the price. However, unlike the E11++, the 8 Nano is actually in stock and available to purchase. ASICminer also offers the 8 Nano Pro, a machine launched in mid-2018 that offers 80 TH/s of hash rate for $9,500 (excluding shipping). However, unlike the Ebit E11++ and 8 Nano, the minimum order quantity for the 8 Nano Pro is curiously set at five, meaning you will need to lay out a minimum of $47,500 in order to actually get your hands on one (or five). While the 8 Nano Pro doesn’t offer the same performance per watt as the Ebit E11+ or AICMiner 8 Nano, it is one of the quieter miners on this list, making it more suitable for a home or office environment. That being said, the ASICminer 8 Nano Pro is easily the most expensive miner per TH on this list — costing a whopping $118.75/TH, compared to the $46/TH offered by the E11++ and $88.64 offered by the 8 Nano. The latest hardware on this list is the Innosilicon T3 43T, which is currently available for pre-order at $2,279, and estimated to ship in March 2019. Offering 43TH/s of performance at 2,100W, the T3 43T comes in at an efficiency of 20.4GH/W, which is around 10 percent less energy efficient than the Ebit E11++. The T3 43T also has a minimum order quantity of three units, making the minimum acquisition cost $6837 + shipping for preorders. All in all, the T3 43T is more costly and less efficient than the E11++ but may arrive slightly earlier since Ebang will not ship the E11++ units until at least end March 29, 2019. Finally, this list would not be complete without including Bitmain’s latest offering, the Antminer S15-28TH/s, which — as its name suggests — offers 28TH/s of hash power while drawing just under 1600W at the wall. The Antminer S15 is one of the only SHA256 miners to use 7nm processors, making it somewhat smaller than some of the other devices on this list. Like most pieces of top-end Bitcoin mining hardware, the Antminer S15 27TH/s model is currently sold out, with current orders not shipping until mid-February 2019. However, the S15 is offered at a significantly lower price than many of its competitors at just $1020 (excluding shipping), with no minimum quantity restriction. At these rates, the Antminer comes in at just $37.78/TH — though its energy efficiency is a much less impressive 17.5GH/W. Mining Hardware Mining Hardware Comparison Performance (GH/W) Price Performance Ratio ($/TH) Ebang Ebit E11++ 22.2GH/W $46/TH ASICminer 8 Nano 21GH/W $88.64/TH ASICminer 8 Nano Pro 19GH/W $118.75/TH Innosilicon T3 43T 20.4GH/W $53/TH Antminer S15-28TH/s 17.5GH/W $37.78/TH How To Select a Good Mining Pool Mining pools are platforms that allow miners to pool their resources together to achieve a higher collective hash rate — which, in turn, allows the collective to mine more blocks than they would be able to achieve alone. Typically, these mining pools will distribute block rewards to contributing miners based on the proportion of the hash rate they supply. If a pool contributing a total of 20 TH/s of hash rate successfully mines the next block, a user responsible for 10 percent of this hash rate will receive 10 percent of the 12.5 BTC reward. Pools essentially allow smaller miners to compete with large private mining organizations by ensuring that the collective hash rate is high enough to successfully mine blocks on regular basis. Without operating through a mining pool, many miners would be unlikely to discover any blocks at all — due to only contributing a tiny fraction of the overall Bitcoin hash rate. While it is quite possible to be successful mining without a pool, this typically requires an extremely large mining operation and is usually not recommended — unless you have enough hash rate to mine blocks on a regular basis. Although it is technically possible to discover blocks mining solo and keep the entire 12.5 BTC reward for yourself, the odds of this actually occurring are practically zero — making pool collaboration practically the only way to compete in 2019 and beyond. Selecting the best pool for you can be a challenging job since the vast majority of pools are quite similar and offer similar features and comparable fees. Because of this, we have broken down the qualities you should be looking for in a new pool into four categories; reputation, hash rate, pool fees, and usability/features: Reputation The reputation of a pool is one of the most important factors in selecting the pool that is best for you. Well-reputed pools will tend to be much larger than newer or less well-established pools since few pools with a poor reputation can stand the test of time. Well-reputed pools also tend to be more transparent about their operation, many of which provide tools to ensure that each user is getting the correct reward based on the hash rate contributed. By using only pools with a great reputation, you also ensure your hash rate is not being used for nefarious purposes — such as powering a 51 percent attack. When comparing a list of pools that appear suitable for you, it is a wise move to read their user reviews before making your choice — ensuring you don’t end up mining at a pool that steals your hard-fought earnings. Hash Rate When it comes to mining Bitcoin, the probability of discovering the next block is directly related to the amount of hashing power you contribute to the network. Because of this, one of the major features you should be considering when selecting your pool is its total hash rate — which is often closely related to the proportion of new blocks mined by the pool Since the total hash rate of a pool is directly related to how quickly it discovers new blocks, this means the largest pools tend to discover a relative majority of blocks — leading to more regular rewards. However, the very largest pools also tend the have higher fees but often make up for this with sheer success and additional features. Sometimes, some of the largest pools have a minimum hash rate requirement ù leaving some of the smaller miners left out of the loop. Although smaller pools typically have more relaxed requirements with reduced performance thresholds, these pools may be only slightly more profitable than mining solo. Pool Fees When choosing a suitable pool, typically one of the major considerations is its fees. Typically, most pools will charge a small fee that is deducted from your earnings and is usually around 1-2 percent — but sometimes slightly lower or higher. There are also pools that offer 0 percent fees. However, these are often much smaller than the major pools and tend to make their money in a different way — such as through monthly subscriptions or donations. Ideally, you will choose the pool that offers the best balance of fees to other features. Usually, the pool with the absolute lowest fees is not the best choice. Additionally, pools with the lowest fees often have the highest withdrawal minimums — making pool hopping uneconomical for most. Usability and Features When first starting out with Bitcoin mining, learning how to set up a pool and navigating through the settings can be a challenge. Because of this, several pools target their services to newer users by offering a simple to navigate user interface and providing detailed learning resources and prompt customer support. However, for more experienced miners, simple pools don’t tend to offer a variety of features needed to maximize profitability. For example, although many mining pools focus their entire hash rate towards mining a single cryptocurrency, some are large enough to offer additional options — allowing users to mine other SHA256 coins such as Bitcoin Cash (BCH) or Fantom if they choose. These pools are technically more challenging to use and mostly designed for those familiar with mining, happy to hop from coin to coin mining whichever is most profitable at the time. There are even some exchanges that automatically direct their combined hash rate at the most profitable cryptocurrency — taking the guesswork out of the equation. bitcoin mining pool Best Mining Pools for 2019 The Bitcoin mining pool industry has a large number of players, but the vast majority of the Bitcoin hash rate is concentrated within just a few pools. Currently, there are dozens of suitable pools to choose from — but we have selected just a few of the best to help get you started on your journey. Slushpool was the first Bitcoin mining pool released, being launched way back in 2010 under the name “Bitcoin Pooled Mining Server.” Since then, Slushpool has grown into one of the most popular pools around — currently accounting for just under 10 percent of the total Bitcoin hash rate. Although Slushpool isn’t one of the very largest pools, it does offer a newbie-friendly interface alongside more advanced features for those that need them. The pool has moderately high fees of 2 percent but offers servers in several countries — including the U.S., Europe, China, and Japan — giving it a good balance of fees to features. BTC.com is another potential candidate for your pool and currently stands as the largest public Bitcoin mining pool. It is responsible for mining around 17 percent of new blocks. Being the largest public mining pool provides users with a sense of security, ensuring blocks are mined regularly and a stable income is made. Image courtesy of Blockchain.info. BTC.com is owned by Bitmain, a company that manufacturers mining hardware, and charges a 1.5 percent fees — placing it squarely in the middle-tier in terms of fees. Unlike other platforms, BTC.com uses its own payment structure known as FPPS (Full Pay Per Share), which means miners also receive a share of the transaction fees included within mined blocks — making it slightly more profitable than standard payment per share (PPS) pools. Another great option is Antpool, a mining pool that supports mining services for 10 different cryptocurrencies, including Bitcoin, Litecoin (LTC) and Ethereum (ETH). AntPool frequently trades places with BTC.com as the largest Bitcoin mining pool. However, as of this writing, it occupies the title of the third-largest public mining pool. What sets Antpool apart from other pools is the ability to choose your own fee system — including PPS, PPS+, and PPLNS. If you choose PPLNS, using Antpool is free but you will not receive any transaction fees from any blocks mined. Antpool also offers regular payouts and has a low minimum payout of just 0.001 BTC, making it suitable for smaller miners. Last on the list of the best Bitcoin mining pools in 2019 is the Bitcoin.com mining pool. Although this is one of the smaller pools available, the Bitcoin.com pool has some redeeming features that make it worth a look. It offers mining contracts, allowing you to test out Bitcoin mining before investing in mining equipment of your own. According to Bitcoin.com, they are the highest paying Pay Per Share (PPS) pool in the world, offering up to 98 percent block rewards as well as automatic switching between BTC and BCH mining to optimize profitability. Electricity Costs While your mining hardware is most important when it comes to how much BTC you can earn when mining, your electricity costs are usually the largest additional expense. With electricity costs often varying dramatically between countries, ensuring you are on the best cost-per-KWh plan available will help to keep costs down when mining. Most commonly, large mining operations will be set up in countries where electricity costs are the lowest — such as Iceland, India, and Ukraine. Since China has one of the lowest energy costs in the world, it was previously the epicenter of Bitcoin mining. However, since the government began cracking down on cryptocurrencies, it has largely fallen out of favor with miners. Technically, Venezuela is one of the cheapest countries in the world in terms of electricity, with the government heavily subsidizing these energy costs — while Bitcoin offers an escape from the hyperinflation suffered by the Venezuelan bolivar. Despite this, importing mining hardware into the country is a costly endeavor, making it impractical for many people. Finding ways to lower your electricity costs is one of the best ways to improve your mining profitability. This can include investing in renewable energy sources such as solar, geothermal, or wind — which can yield increased profitability over the long term. if you are looking to buy bitcoin mining equipment here is some links: Model Antminer S17 Pro (56Th) from Bitmain mining SHA-256 algorithm with a maximum hashrate of 56Th/s for a power consumption of 2385W. https://miningwholesale.eu/product/bitmain-antminer-s17-pro-56th-copy/?wpam_id=17 Model Antminer S9K from Bitmain mining SHA-256 algorithm with a maximum hashrate of 14Th/s for a power consumption of 1323W. https://miningwholesale.eu/product/bitmain-antminer-s9k-14-th-s/?wpam_id=17 Model T2T 30Tfrom Innosilicon mining SHA-256 algorithm with a maximum hashrate of 30Th/s for a power consumption of 2200W. https://miningwholesale.eu/product/innosilicon-t2t-30t/?wpam_id=17 mining wholesale website: https://miningwholesale.eu/?wpam_id=17
Application-Specific Integrated Circuit. ASICs allow miners to use hardware made specifically for Bitcoin or other SHA-256 algo coins. An ASIC has benefits over CPU, GPU and FPGAs due to being designed for one specific task. They are able to mine Bitcoin at a higher hash rate (speed of processing transactions) than CPUs, GPUs and FPGAs. Several manufacturers produce their own ASIC chips and ... Eventually, technology was developed solely for mining, known as ASICs, or Application Specific Integrated Circuits. Their hashrates are significantly higher than anything GPUs are capable of. With stellar performance comes a high price tag – the best ASIC chips will run you a few thousand dollars each. Upon creation, Bitcoin blocks were ... In order to mine Bitcoin, you’ll need specialized bitcoin mining hardware called application-specific integrated circuit devices, or ASICs. There are many different ASICs on the market today. These devices have evolved through a highly competitive Bitcoin mining arms race — the Bitcoin blockchain uses vast amounts of processing power in order to solve extremely complex math problems and ... ASIC (Application Specific Integrated Circuit) miner is a computing equipment that’s specifically designed for a singular activity –in this case, the mining of certain cryptocurrencies. They do this by speedily and efficiently solving mathematically complex problems, after which they are rewarded by a specific amount of the designated cryptocurrency. An application-specific integrated circuit (ASIC) bitcoin miner is a computerized device that was designed for the sole purpose of mining bitcoins.
What Is Cryptocurrency ASIC Mining? $20,000 ASIC Tear-Down Who Makes ASIC Miners?
An application-specific integrated circuit (ASIC) /ˈeɪsɪk/, is an integrated circuit (IC) customized for a particular use, rather than intended for general-purpose use. For example, a chip ... ASIC means application-specific integrated circuit- so these devices are engineered to mine Bitcoin and only mine Bitcoin. This creates an extremely powerful, and efficient machine, over 100x ... Today's modern and best bitcoin mining hardware Application-specific integrated circuit (ASIC) miners have taken over completely. These ASIC machines mine at unprecedented speeds while consuming ... - CRYPTOCURRENCY- Eventually, equipment called an ASIC, which stands for Application-Specific Integrated Circuit, was made particularly for mining bitcoin. The first ones were released in 2013 and ... Today we dive deep into the world of ASIC mining, an ASIC miner is an application specific integrated circuit miner aka it is a purpose built machine that can only do one thing, which is mine a ...