submitted by amtf99 to gpumining [link] [comments]
19 GPU Build with ASUS B250 Mining Expert - 470MH/sIts my dream to achieve and build a mining rig of this extent.
Allow me to describe this journey of mine to the GPU mining community.
Kudos to all! Feel free to ask me questions and I would love to help you out.
2017 - Bull Market - Dipped my toes into the GPU mining market. Spent nearly 3k USD, 6x GTX 1060 3GB & 2x GTX 1070ti.Back then, my setup was really simple, An ASUS B250 Mining Expert with Pentium G4400, 8GB of RAM, 2 PSU (Coolermaster 700w as well as a V1200W PSU)
Placed this entire setup on a DIY metal shelf
Bought extra 2 GTX 1060 3GB on my Ryzen 7 1700 setup back then. Mining Monero too on Cryptonight Algo. Really profitable on these 2 rigs combined. Earning approximately 35USD per day at the peak :)
Without much experience back then, my overclocking skills sucks. I was drawing a ton of power with very little efficiency. However, at that point I was literally making few hundreds every month. It has been a really wonderful journey until bear market hits.
2018 - Nicehash Hacked, Bitconnect & Bear Market Hits...If you still remember the dreadful hack of Nicehash. One morning I woke up seeing that my rig was no longer mining. Saw my balance turned to zero. And the moment I saw this article, my heart sanked. With over 100 USD inside my account that point, I knew I wouldnt be able to pay for my electric that month. This pulled down my confidence but quite a little.
Still remember Bitconnect? Hahahaha well entered into this ponzi scheme too. Invested 100 USD into this, got it back and donated the money.
Disconnected my entire rig... It was a pretty sad moment :\")
My house became cooler, quieter and my power usage instantly went down.
Kept 1 GTX 1070ti & 1 GTX 1060 3GB and built myself a Ryzen 7 gaming computer hehe.
My disconnection from Crypto 2018-2019I exited this market back at the very end of the bull run and never touched Bitcoin until 2019. I began to plan my future, created an investment portfolio where I finally included Bitcoin back into my high risk asset class. The resurgence of Bitcoin mining begans :)
2019 - Sold my Ryzen 7 1700 & MB for ASUS B250 Mining Expert with 19 GPU build in mindIt all started with my small mining rig of one ZOTAC GTX 1070ti as well as an ASUS B250 Mining Expert which I was using to mine Ethereum at 33MH/s, get paid 0.05eth approximately every 2 weeks on 2miners.com
Purchased 2 more GTX 1070ti, bringing my total hashrate to 130MH/s.
Revamped & Redesigned into a DIY rig. Didnt wanna spend the money to find a frame hehe decided to use my mums shoe rack instead HAHAHAH
Back then, 1 GTX 1070ti resale value was approximately 230 USD here in Singapore.
Calculated hash per dollar and I notice the insane price I was paying with my 1070tis.
Sold all 4 of my GTX 1070tis and manage to trade for the following cards:
With all the skills and experience I have accumulated in 2017, I began redesigning my entire 10 GPU setup. This was the end product of my 10 GPU mining rig consisting of 5 NVIDIA P106-100 6GB cards as wel as 5 AMD RX 570 8GB cards. Working fine alongside with one another as claimed by ASUS.
DEAL OF THE MONTH - ZOTAC P106-100 6GB @ 56 USDThe dream of building 19 cards were never off my brain. Been sourcing for cheaper 2nd hand cards and snap! 56 USD per card for ZOTAC P106-100. It was insanely a great deal. Sold my 5x RX 570 8GB, use the cash and baammm!
Got 8 ZOTAC P106-100 6GB (2 not in photo) for test. PERFECT CONDITION and I cant believe the speed I was getting in Ethereum. 450MH/S for 18x P106-100 6GB
2ND DEAL OF THE MONTH - P104-100 8GB @ 70 USDManaged to achieve 35.9MH @ 124w. Bringing my total GPU to 19.
The screen all miners with B250s love to see :)
The entire setup of my 19 GPU rig. Fan is blowing at single direction, expelling all the hot air towards my door exit. Keeping my living room relatively cool.
Underclocked my rig to 466MH for better stability and power draw. Has been running fine for 2 weeks without any manual interventions.
Bought a HP 1200w PSU. Placed a 120mm fan on top of it to keep it cool. In case if you are asking how loud is it, actually its pretty quiet. I have only used 600w, half of the capacity. Hence, under full load I am not sure how loud it will be.
All in all, my journey of a 19 GPU build. Feel free to ask me any questions :)
submitted by tkeycoin to Tkeycoin_Official [link] [comments]
Continuing the trend of practicality characteristic of the XXI century, paper money is gradually disappearing from our lives, giving way to more practical digital storage. However, the digitized banking that we now use every day is still far from perfect. For starters, it is completely controlled by third parties. No one owns the numbers they see on the screen — control is entirely owned by third parties, such as banks.
Banks create money out of thin air, and credit is a prime example of this. Money is no longer printed when someone takes out an overdraft or mortgage-it is simply created out of nothing. Moreover, these banks charge disproportionately high fees for the services they provide, and these services are outdated and impractical today.
For example, it is impractical to pay a Commission to spend your money abroad, as it is impractical to wait a few days to verify the transfer of a small amount from You to your relative. All this makes no sense in the interconnected and instantaneous world in which We live today.
Thus, the monetary system has ceased to be practical, it is replaced by a higher form of value storage. In this particular case, it is replaced by a faster and safer system that eliminates expensive operations and gives control to the person.
Money that you have in your Bank account can be considered a virtual currency since it does not have a physical form and exists only in the Bank book. If they lose the book, your money will simply disappear. These are just numbers that you see on the screen. The numbers are stored on the hard drives of Bank servers.
Do you open a regular app and think you have money? They are just bytes of the computer system. Today’s global payment infrastructure moves money from one payment system to another through a series of internal Deposit transfers between financial institutions. Since these transfers occur in different systems with a low level of coordination, the calculation of funds is slow, often 3–5 days, capturing liquidity.
How do payments work?When you make a money transfer, for example, from your Bank card to the Bank card of a friend or acquaintance, you see an instant transfer, so to speak, moving numbers from you to the Recipient. For the user, the transfer is carried out instantly, and the exchange of obligations between the participants of the process takes place within 3–7 days, the User does not know about it and hardly ever thinks about it.
When you make a payment at a supermarket or any other point of sale, at the time of payment, information from the POS-terminal is sent to the acquiring Bank — then the acquiring Bank sends a request that passes through the payment system (Visa or MasterCard) and then transmitted to Your Bank, which confirms the operation. At this point, there is no write-off of funds. The funds are temporarily held, and the actual withdrawal will take place within a few days, the maximum processing time is up to 30 days.
Currency transactions and payments abroadYou may have noticed that after making a transaction in a different currency, such as yen or dirhams, or any other currency that differs from the currency of your account or buying an item abroad, the amount charged may differ from the amount that was reflected immediately after payment.
Why is this happening?As soon As you have made a transaction with Your Bank card — the local Bank transfers the information to the payment system: Visa or MasterCard — the payment system converts the currency used into the billing currency.
Billing currency — the currency that will be used for payment with the payment system by your Bank that issued the card. For the US, the billing currency is the dollar, in Europe — the Euro.The billing currency may also differ depending on the issuing Bank — the Bank that issued your debit card. For example, some banks use the billing currency — Euro when making payments with MasterCard cards in the United States, which will lead to additional costs when converting euros into dollars.
If the payment is in other currencies, the payment scheme will become more complicated and, accordingly, its cost will be more expensive. The transfer rate from one settlement currency to another is set by the payment system: Visa and MasterCard.
If the currency of your Bankcard is the same as the currency of the payment system, the payment will take place without additional operations. For example, You have a dollar card, you make a payment in dollars in the United States, and if you make a payment with a dollar card in Europe, your Bank will convert the amount at its exchange rate, which will lead to additional costs. There are exceptions, some European banks can use dollars for settlements, but this is more an exception than a rule.
Also, if, for example, you pay for purchases in China using a Bank card in euros, then double conversion is inevitable.
Thus, payment in dollars is universal all over the world, except for the European Union countries. The dollar is a global currency and is therefore often used for binding in international settlements.
Now we understand that due to differences in the account currency and the differences in the VISA or MasterCard payment system, additional conversions may occur, which will lead to additional bank fees. as a result, the actual payment amount will differ from the amount debited from your card.
In addition to paying for conversion in the payment system and paying for currency conversion in your Bank, some banks charge an additional fee for conducting a cross-border transaction.
Where do we lose money when making debit card payments?
Сryptocurrency exchangesAnd now back to the numbers on the screen, this topic affects not only banks but also centralized cryptocurrency exchanges:
There are many services, both online and apps, that are centralized, regardless of what they will be called: Bitcoin wallet or bitcoin exchange. This means that when you add funds to an account in such a wallet, the funds are stored on the developecompany’s side. In simple words, all your funds are stored in the wallets of the system’s creators.
If you use a centralized app, you have a risk of losing funds. Although the application is called cryptocurrency, it does not affect its main principles — it is decentralization.
In other words, using systems where there is a Central authority, especially in the cryptocurrency market — the risk increases, so we recommend using decentralized systems for storing currency to reduce risks to a minimum.
Decentralization is the process of redistributing, dispersing functions, forces, power, people, or things from a Central location or governing body. Centralization is a condition in which the right to make the most important decisions remains with the highest levels of management.
Peer-to-peer payment systemsThe opposite and standard of security and independence are peer-to-peer payment systems. Using the application-level network Protocol, clients running on multiple computers connect to form a peer-to-peer network.
There are no dedicated servers in such a network, and each node is both a client and performs server functions. In contrast to the client-server architecture, this organization allows you to maintain the network operability with any number and any combination of available nodes. All nodes are members of the network.
Tkeycoin is a decentralized peer-to-peer payment system based on p2p principles and the concept of electronic cash. P2P technology is a fairer means of mutual settlements between users and companies around the world. Modern payment systems are imperfect and may depend on the will of high-ranking officials.
The main goal of Tkeycoin is to create universal products that will make financial transactions more accessible, profitable and secure.
What do decentralized systems protect against?Using decentralized tools, for example, a local Tkeycoin wallet or a Multi-currency blockchain tkeyspace wallet — Your funds belong only to You and only You can use them, which eliminates the risks of third-party bankruptcy, and such a decentralized architecture can also protect against natural disasters. Given that there is no central server that can be damaged in a natural disaster, the system can work even if there are 2 nodes.
In addition to force majeure situations, you protect your funds from theft and any sanctions from third parties-in our time, this is very important. The owner of Tkeycoin does not need Bank branches, does not need additional verifications, and does not need permission to use, transfer, or even transport Tkeycoin. You can easily carry $1 million worth of Tkeycoin in your pocket and even in theory not know any troubles.
Besides, it is extremely convenient and safe to store even multibillion-dollar capital in Tkeycoin. Imagine that you have a lot, a lot of money, and you need a safe place to store it. Where do you apply? Of course, the Swiss Bank, Yes, but it can easily freeze your accounts and you can easily lose your savings. In recent years, many banks are actively fighting against gray non-cash funds (including offshore ones), and every month more and more legal proceedings are organized on this basis.
The fact is that serious money, for the most part, has a gray tinge, and only a tiny fraction of billions and millions are clean for the law. That is why their owners are often called to court, subjected to pressure, forced to leave the country, and so on. If your money is stored in Tkeycoin, you will not be subjected to such pressure and will avoid the lion’s share of troubles that usually accompany accounts with many zeros.
Using peer-to-peer systems — you will not be called by a Bank Manager and require documents or a fraudster who asks for Your card number and SMS for confirmation. This is simply not the case, wallets are encrypted, and using different addresses guarantees privacy.
As for fees for transfers, there are no Visa or Mastercard payment systems, as well as additional fees that we discussed above.
How are payments made in the Tkeycoin peer-to-peer payment system?
As soon as you sign a transaction, it is sent to the blockchain and the miners are engaged in its confirmation, for which they take a symbolic Commission. Let’s look at an example, the key rate is $1, the transfer fee will be 0.00001970 TKEY or 0.00000174 TKEY.
0.00001970 TKEY=$0.00001970 0.00000174 TKEY=$0.00000174Accordingly, commissions are almost zero. In Europe, on average, you will pay $15–20 for a small Bank transfer.
For example, now sending 1 million dollars to BTC, You will pay a Commission in the area of ≈3–8 dollars. Just think, 1 million dollars, without restrictions, risks, and sanctions, and most importantly, the transaction will be the available day today, and you paid an average of ≈5 dollars for the transfer.
Transactions in the Tkeycoin blockchainNow let’s touch on the topic of how a transaction in the blockchain goes. Once you have sent a transaction, it will be available to the Recipient. The transaction takes place instantly and the User sees not” numbers on the screen”, but real funds-cryptocurrency. This is very convenient when you make any transactions and the Recipient needs to make sure that the payment came.
In the full node-there is a choice of confirmation blocks — this is the amount after which you can use the received cryptocurrency. When sending, you can select the number of confirmations:
• 2 blocks≈10 minutes • 4 block≈40 minutes • 6 blocks≈60 minutes • 12 blocks≈120 minutes • 24 blocks≈4 hours • 48 blocks≈8 hours • 144 blocks≈24 hours • 504 blocks≈3 days • 1008 blocks≈7 daysAs we can see, you can also set a weekly confirmation if necessary. The minimum recommended number is 3 blocks. by default, the full node (local wallet) has 6 blocks installed. The presence of this number of confirmations ensures that Your block will not be forged and will be accepted by the network.
Each new transaction that receives network approval is sent to mempool, where it waits for miners to confirm it. When a miner takes a transaction to include it in the next block, it automatically receives the first confirmation.
Generating blocks in the TKEY networkA block in the TKEY network is generated within 6–10 minutes. the network automatically corrects the complexity and time of block formation. Thousands of transactions or a single transaction can be placed in a block.
Transactions work faster in the TKEYSPACE app because we have already enabled new algorithms and this is now the fastest and most convenient way to exchange various digital currencies.
Anyway, using the full node is also one of the safest ways to store and send Tkeycoin cryptocurrency, and most importantly, the full node stores a full copy of the entire blockchain, which benefits the network and provides protection from information forgery.
The more popular the project becomes, the more load is placed on the network itself. For example, 10,000 transactions passed in one block that was processed quickly, while the other 10–20 transactions in another block hung for a longer time, so temporary “pits” may appear. To deal with them, we are working on implementing additional chains-separate chains that are created for cross-transactions, which ensures fast payments under heavy load.
For the global system — we get a shipment around the world in 6–10 minutes, in cross-chains in 10 seconds. In comparison with the global payment system, which processes cross — border payments within 3–5 days, this is a huge advantage. If we add liquidity to this, we will get a perfect payment system.
Also, you should not forget that if you did not sync with the network and sent a transaction, the transaction may hang in its memory pool and you will have to perform several actions to solve this situation. Here we must understand that syncing with the network is an important point because if you have a connection failure in the Internet Bank, the payment will also not be processed. After all, it will not be sent to a specialist for confirmation.
If you are currently experiencing any delays with transactions, this is due to the transition of CPU mining to GPU, as soon as miners switch to new mining methods, the confirmation of blocks will be consistently fast.
In conclusion: blockchain is a new technology and many terms, concepts and how it all works are still difficult for many to understand and this is normal from innovation.
In many countries, the word cryptocurrency and blockchain are synonymous and no one wants to understand the reality, most people believe that if the blockchain, it means it is related to trading on the cryptocurrency exchange. No one thinks about the real usefulness of certain solutions that will become commonplace for Us in the future.
For example, the Internet banking system dates back to the ’80s of the last century, when the Home Banking system was created in the United States. This system allowed depositors to check their accounts by connecting to the Bank’s computer via their phone. In the future, as the Internet and Internet technologies develop, banks are beginning to introduce systems that allow depositors to get information about their accounts via the Internet. For the first time, the service of transferring funds from accounts was introduced in 1994 in the United States by the Stanford Federal Credit Union, and in 1995 the first virtual Bank was created — Security First Network Bank. But, to the disappointment of the founders of the project, it failed because of strong distrust from potential customers, who, at that time, did not trust such an innovation.
Only in 2001, Bank of America became the first among all banks that provide e-banking services, the whole user base for this service exceeded 2 million customers. At that time, this figure was about 20 % of all Bank customers. And in October of the same year, 2001, and the same Bank of America took the bar in 3 million money transfers made using online banking services for a total amount of more than 1 billion US dollars. Currently, in Western Europe and America, more than 50% of the entire adult population uses e-banking services, and this figure reaches 90% among adult Internet users.
Life changes, and in the bustle of everyday work — we do not even notice how quickly all processes change.
We are experiencing a technological revolution that is inevitable.
We are back!submitted by mineshop to gpumining [link] [comments]
For the last 2 years there was not much to shill in mining mining was on the life support. And the profits constantly got decreasing. Start of 2020 Bitcoin and Altcoins are showing great performance in price action. This price action has also increased mining profits in some coins for more then 100% since december 2019. It might be to early to say that “we are back” , as crypto can be so unpredictable. But there is a lot of signs that we have now oversold a lot and value of crypto market is increasing steadily. We might see this pattern continue for good bit of times as BTC halving is coming up in 3 month. Let’s get in straight in. I will choose 3 hardware devices which in my opinion would be the best choice and we will see how profitable they are.
If you are new to mining and you want to know which devices to choose, choose from top market cap coins latest equipment. This will be your safest bet, as the mining profits are much more stable on bigger cap coins then on smaller cap coins. If you are small miner and don’t have large electric bills, you can choose smaller cap coins. They might go up in price lot faster then bigger cap coins in bull market, but be aware they they might dump lot faster. It is high risk high reward type of mining.
If you are really serious about mining, you need to look at cheapest power source possible which would be in 0.05c a kw/h range. It is not 2017 and mining from home wont be profitable at 0.30c a kw/h. Industrial power is possible to achieve 0.05 in many places in the world. If it is not possible in your country , look for the country where it is possible. So all profit calculations done for 0.05c a kw/h
Top mining profitability websites :
The top and 3 most profitable Crypto currencies to mine in February 2020 , for some people miner pick could be different. The prices changes if you are buying new/used , depending in which part of the world are you. This is my recommended , brand new purchase in Europe.
These would be my to pick miners for start of 2020. There is big risks in any on these miners as no high reward investment is guaranteed anywhere. I’ll have more detailed explanation of the risks of each of these miners in my next post.
Any miner suggestion, what would be your best choice and why?
Video here - https://www.youtube.com/watch?v=QvVYQFJEmnQ&t
Last time, we discussed how Ethereum block rewards decreased with time – from 5 ETH to 2 ETH during the latest Constantinople fork. This so-called “thirdening” was the most contentious and potentially damaging of all award reductions. This time, we'll see why.submitted by 2Ether to u/2Ether [link] [comments]
As you know, Ethereum is supposed to transfer from Proof-of-Work mining to Proof-of-Stake. PoW is extremely wasteful and slow, and a PoW-based coin cannot scale efficiently, because all miners have to work on the same puzzle simultaneously. Proof-of-Stake is easier, more environmentally friendly and cost-efficient. It's probably the way of the future – but for miners, it's not great. With PoS, they will only earn the transaction fees – and no block rewards at all. If Ethereum suddenly rolls out a critical update that includes PoS, chances are that most miners won't accept it.
So how do you make miners switch to PoS? That's right, by making the old PoW way unprofitable. To achieve this, Ethereum has embedded in its code a nifty and dangerous device – the so-called difficulty bomb. Difficulty means how hard it is to find the solution to each block's puzzle. The more difficult the puzzles are, the more time it takes to produce each new block – and the more energy a miner needs to expend. At first, difficulty increases just a little bit every once in a while. But then, it starts to speeds up. New blocks take more and more times to discover. Transactions take longer to confirm. And as miners find fewer new blocks, they get less rewards. Sooner or later, the network grinds to a halt. This is called the difficulty bomb, and it's the main incentive for miners to agree to Proof-of-Stake.
But as Vitalik Buterin and the others realized that it will take much more time to switch to PoS then they had thought, they had to postpone it for a year and a half. At the same time, the block was cut by a third. The founders thought that the price of ETH would grow enough to compensate for the losses. And it sort of did, but just about. Now the exchange rate of ETH to USD is around one third higher than it was at the moment of the thirdening. But miners expected it to rise more.
Another issue is the increasing competition with mining farms. Ethereum used to be the best coin for small, independent GPU miners to mine. The ETH mining algorithm – Ethash – is very different from the one used by Bitcoin. It makes it more difficult to produce ASIC hardware for mining Ethereum. As you know, ASICs dominate over BTC mining, and it's impossible for an independent miner to be profitable in the Bitcoin business.
Ethereum was even considered ASIC-proof for a while, because its algorithm regularly changed. An ASIC is programmed to do just one task, so if you modify the algorithm, all current ASICs will have to be scrapped and replaced by a new model. For a long time, ASICs for Ethereum weren't much more efficient than GPUs, so small miners could prosper.
But those good times are gone. The new generation of ASICs is twice as efficient as GPUs, leaving small miners almost no chance. Their rewards are cut to 2 ETH, the price remains low, mining farms using ASICs are starting to dominate, electricity costs are growing… It seems like all is doom and gloom for GPU miners.
Here's where 2Ether comes onto the stage. With our dynamic block rewards, small miners will finally have a level playing field with mining farms. In our next post, we'll begin to explain how it works!
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
submitted by everus-world to u/everus-world [link] [comments]
With cryptocurrencies entering the mainstream with a bang, more and more people every single day develop an interest in this new and strange world of blockchain. A lot of these people come to cryptos because they had heard that it’s possible to make money from them. If you’re one of those people, you’re in luck, because today I want to tell you how to mine cryptocurrency.
Understanding MiningTo put it into very simple terms, crypto mining is a process in which a machine performs certain tasks to obtain a little bit of cryptocurrency. This is the biggest TL;DR possible, so let’s branch out a bit, shall we? Imagine that you have a machine that mines crypto coins. We’ll talk about the specific types of machines later on in the tutorial, but for example’s sake, let’s just say that it’s your own, personal computer and you’re trying to figure out how to mine cryptocurrency. That is a very short and simple way of defining what is cryptocurrency mining. Now let’s move on to what you came here to see; how to mine cryptocurrency.
Cryptocurrency MiningThere are a few ways you could go about cryptocurrency mining. I’ll cover the main ones here, and start from the easiest one – cloud mining.
Method #1 – Cloud MiningIf you’re looking for crypto mining ways, cloud mining is probably the most popular way to mine cryptocurrencies without having to lift a finger. Cloud mining is a process where you pay someone (most often it’s a big corporation) a specific amount of money and “rent out” their mining machine called a “rig”, and the process of mining itself. This rent lasts for an agreed-upon period, through which all of the earnings that the rig makes (minus the electricity and maintenance costs) are transferred to your cryptocurrency wallet. The people (companies) that offer these cloud mining services usually have huge mining facilities with multiple farms (tens or hundreds of rigs stacked and operating together) at their disposal and know perfectly well how to mine cryptocurrency.
Cloud mining has become so popular mainly because it offers the possibility to participate in the world of cryptocurrencies for people who might not have enough money to buy their rigs or who perhaps simply aren’t interested in owning a rig. There are two options of cloud mining – free and paid. Naturally, a lot of people that are looking for ways to mine cryptocurrency would gravitate towards the “free” options, but it does have its drawbacks (very slow mining speeds, extra conditions, etc.). Paid cloud mining usually works like this: It is usually expected that you’ll break even at around the half-a-year – one year mark, and then profit from that point onwards. No one can know for sure, though, because the prices of cryptocurrencies are very volatile and their prices tend to sway by quite a bit.
Method #2 – CPU MiningCPU mining utilizes processors to mine cryptocurrencies. It used to be a viable option back in the day, but currently, fewer and fewer people choose this method of mining cryptocurrency daily. There are a couple of reasons why that is. First of all, CPU mining is EXTREMELY slow. You could go on for months without noticing the smallest amount of revenue. It’s also usually not worth it – you make very little amounts of money, but you probably spend ten times that amount on electricity and cooling. The problem mitigates itself by a bit if you can find a place that has nice cooling and cheap electricity bills, but that’s rarely the case.
So why do people still even use CPU mining, then?
Well, basically because anyone with a desktop computer could do it. All you need to be able to mine using the CPU method is just a computer and a couple of programs. It is possible to do it with a laptop, but it is VERY STRONGLY NOT ADVISED. Your laptop will probably fry and overheat in a matter of a couple of hours. The fact that it’s so easy to start cryptocurrency mining attracts new CPU miners every day. Some people that are looking for how to mine cryptocurrency don’t care about the details – they just want to start the process as soon as possible, and in any way possible.
Method #3 – GPU MiningGPU mining is probably the most popular and well-known method of mining cryptocurrencies. If you google “cryptocurrency mining”, GPU rigs are going to be some of the first things that you’ll see.
Cloud miners, for example, use GPU rigs for their services. And these guys are professionals that sometimes have hundreds if not thousands of rigs, so they probably know what they’re doing, right?
GPU mining is very popular because it’s both efficient and relatively cheap. Don’t get me wrong, the construction of the rig itself tends to be costly – but when it comes to its hash speed and the general workforce, the GPU mining rig is great. GPU rigs utilize graphics cards to mine cryptocurrencies. One standard rig is made out of a processor, a motherboard, cooling, rig frame and – of course – a few (2 – 8) graphics cards.A typical price for a well-performing and nicely built GPU mining rig aims to be around the $3000 price range. It is a hefty investment but will pay off much faster than, let’s say, a CPU miner. People looking for ways to mine cryptocurrency should check them out.
Method #4 – ASIC MiningASICs (Application-Specific Integrated Circuits) are special devices that are designed explicitly to perform a single task, which in this case is crypto mining. ASICs are very well known and treasured because they produce insane amounts of cryptocurrency when compared to its competitors’ GPU and CPU. But if they are so good, why didn’t I mention them sooner?
Well, mostly because they’re a big subject of controversy. You see, when the ASIC company announced its new version of the machine, the announcement caused an uproar in the cryptocurrency community. Many people have called for an outright ban on these machines.
Why? Because ASICS are so powerful, they rob other miners who are using GPU or CPU rigs of the possibility to keep up both in hash speeds and in earnings. Also, ASICS have twisted the economy of certain specific cryptocurrencies – imagine if the majority of earnings would go to one miner with an ASIC farm, what kind of chaos that would ensue.
The Best Method to Mine CryptocurrencyNow that you have an understanding of how to mine cryptocurrency and about all of the different ways to do it, which one is the best way?
The method that suits you the most depends solemnly on a few key details: are you willing to spend some initial money? If so, how much? Do you want to OWN a rig? Do you even want to do it with a rig?
Which Cryptocurrency to Mine?Your choice of gear should also depend on the type of cryptocurrency mining that you’ve decided to do. Some of the obvious favorites would be Bitcoin, Ethereum or Dash. Keep in mind, though, that Bitcoin mining is probably the trickiest of them all – since the coin is so popular, there are many miners around the world tuning into the few pools that there are and trying to snatch at least a small bit of Bitcoin. This might result in you waiting for countless hours until the first drops of Bitcoin start coming in.
Keeping that in mind, your best bet would probably be to stick with Ethereum or some other less-popular cryptocurrency. Depending on your method of choice, check out the prices, calculate when your return on investment would happen, do some math and you’ll figure it out in no time!
ConclusionAs you’ve probably noticed, there are many different ways on how to mine cryptocurrency. These are simply the main methods – if you’d like, you could even forget about mining and jump into Bitcoin faucets – but that’s a whole different story for a whole different day. But it’s an option!
One thing that you should not only remember, but also do right away is to create a cryptocurrency wallet. Decide on the type of cryptocurrency that you want to mine and simply look up the wallet options for that currency. You’ll have no problems finding one for coins like Bitcoin, Ethereum or Litecoin, but if you want to mine the less-known currencies, then you might need to search for a bit until you find a reputable wallet.
Getting a secure and reputable wallet is the most important task when you’re starting with cryptocurrency mining. Imagine if you’d be mining for a year and all of your savings would be stolen only because you didn’t pay enough attention while choosing the wallet and picked a fishy one that got hacked into.
If you’re serious and are looking for ways on how to mine cryptocurrency, I would suggest buying a hardware wallet – they are the safest and most trustworthy cryptocurrency wallets out there.
Well, this is the end of my tutorial on crypto mining. We’ve covered a few different topics and explored the different varieties of cryptocurrency mining methods. Remember – the method that suits you the most will depend solemnly on what you want and what kind of resources you have, so choose carefully! If you do decide on giving mining a chance, I wish you the best of luck!
Thank you for inviting Horizen to the GPU mining AMA!submitted by Blockops to gpumining [link] [comments]
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 HorizenIn 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.
Technology ProgressionFor 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 CycleFor 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 MinersThe 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 CycleAs 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:
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 ZenCashThe 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:
When the governance is transitioned, the project should be as decentralized as possible. The goal of decentralization is to enable resilience and preventing the capture of the project by regulators, government, criminal organizations, large corporations, or a small group of individuals.
Everyone involved with Horizen can be proud of what we have accomplished together so far. Miners who were there for the early mining and growth of the project played a large part in securing the network, evangelizing to new community members, and helping to create liquidity on new exchanges. Miners are still a very important part of the project and community. Together we can look forward to achieving many new goals in the future.
Here are some links to find out more about Horizen.
Horizen Website – https://horizen.global
Horizen Blog – https://blog.horizen.global
Horizen Reddit - https://www.reddit.com/Horizen/
Horizen Discord – https://discord.gg/SuaMBTb
Horizen Github – https://github.com/ZencashOfficial
Horizen Forum – https://forum.horizen.global/
Horizen Twitter – https://twitter.com/horizenglobal
Horizen Telegram – https://t.me/horizencommunity
Horizen on Bitcointalk – https://bitcointalk.org/index.php?topic=2047435.0
Horizen YouTube Channel – https://www.youtube.com/c/Horizen/
Buy or Sell Horizen
Horizen on CoinMarketCap – https://coinmarketcap.com/currencies/zencash/
About the Author: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
One of the little-known aspects of bitcoin is the nature of the proof of work system. There are many people, especially those who support a UASF or PoW change that believe a distributed system should be completed as a mesh. In this, they confuse centralised systems with centrality. The truth of the matter, no matter which proof of work system is implemented, they all follow a maximal growth curve that reflects the nature of the firm as detailed in 1937 by Ronald Coase (1937).
The bitcoin White Paper was very specific. users of the system "vote with their CPU power" . What this means, is that the system was never generated to give one vote per person. It is designed purely around economic incentives individuals with more hash power will have provided more investment into the system. These individuals who invest more in the system gain more say in the system. At the same time, no one or even two individuals can gain complete control of the system. We'll explore the nature of cartels in a separately, but these always fail without government intervention. The reason for cartels failing comes down to the simple incentivisation of the most efficient member. The strongest cartel member always ends up propping up the weakest. This leads to a strategy of defection.
No proof of work-based solution ever allows for a scenario where you have one vote to one person. The anti-sybiling functions of bitcoin and all other related systems based on proof of work or similar derivatives are derived from an investment based strategy. Solutions to the implementation of ASIC based systems are constantly proposed as a methodology of limiting the centralisation of proof of work systems as it is termed. The truth of the matter is that the mining function within any proof of work system naturally aligns to business interests. This leads to corporations running machines within data centres. On the way that democracies and republics have migrated away from small groups of people individually voting for an outcome towards a vote for a party, the transactional costs associated with individual choice naturally leads to corporate solutions. In this, the corporation mirrors a political party.
In this paper, we address the issues of using alternate approval work systems with regards to either incorporating alternate functions in an extension of simply securing the network against the use of proof of work systems to create a one person one vote scenario in place of economic incentivisation. We will demonstrate conclusively that all systems migrate to a state of economic efficiency. The consequence of this is that systems form into groups designed to maximise returns. The effect is that bitcoin is not only incentive compatible but is optimal. No system can efficiently collapse into an order of one vote one individual and remain secure. In the firm-based nature of bitcoin, we demonstrate that the inherent nature of the firm is reflected within mining pools. Multiple aggregation strategies exist. The strategies range from the creation of collective firms where members can easily join or leave (mining pools) through to more standard corporate structures
Proof of Work as it relates to the theory of the firm. that are successful within any proof of work system. The system was determined to be based on one- vote per CPU (Satoshi, 2008) and not one vote per person or one vote per IP address. The reasons for this is simple, there is no methodology available that can solve byzantine consensus on an individual basis. The solution developed within bitcoin solves this economically using investment. The parties signal their intent to remain bound to the protocol through a significant investment. Those parties that follow the protocol are rewarded. The alternative strategy takes us back to the former and failed systems such as e-cash that could not adequately solve Sybil attacks and decentralise the network. Bitcoin manages to maintain the decentralise nature of the network through a requirement that no individual party can ever achieve more than 50% of the network hash rate.
In all proof of work systems, there are requirements to inject a costly signal into the network that is designed as the security control. To many people, they believe that the cryptographic element, namely the hashing process is the security feature of bitcoin. This is a fallacy, it is the economic cost that is relevant to the overall system and not the individual element.
The benefits of a hash function are that they are difficult to solve in the nature of the proof of work algorithm but are easy to verify. This economic asymmetry is one of the key features of bitcoin. Once a user has found a solution, they know it can be quickly broadcast and verified by others. Additionally, the hash algorithm provides a fair distribution system based on the amount of invested hash rate. The distinction from proof of stake solution as has been proposed comes in the requirement to constantly reinvest. A proof of stake system requires a single investment. Once this investment is created, the system is incentivised towards the protection of the earlier investment. This leads to a scenario known as a strategic oligopoly game.
The solution using a proof of work algorithm is the introduction of an ongoing investment. This is different to an oligopoly game in that sunk cost cannot make up for continued investment. In a proof of stake system, prior investment is crystallised allowing continued control with little further investment. Proof of work differs in that it requires continuous investment. More than this, it requires innovation. As with all capitalist systems, they are subject to Schumpeterian dynamical change (Shumpeter, 1994). The system of creative destruction allows for cycles of innovation. Each innovation leads to waves of creation over the destruction of the old order.
This process creates continued growth. Proof of work-based systems continue to grow and continue to update and change. Any incumbent corporation or other entity needs to continue to invest knowing that their continued dominance is not assured. In bitcoin, we have seen innovative leaps as people moved from CPU-based mining into GPU-based systems. This initial innovation altered the software structure associated with the mining process in bitcoin. That change significantly altered the playing field leading to novel techniques associated with FPGAs and later ASICs dedicated to a specific part of the mining process.
The error held by many people is that this move from a CPU-based solution into more costly implementations could have been averted. A consequence of this has been the introduction of alternative proof of work systems into many of the alt-coins
These systems have been implemented without the understanding that it is not the use of ASICs that is an issue. It is that the belief that individual users can individually mine in a mesh system will be able to be implemented as a successful proof of work. In the unlikely event that a specialised algorithm was implemented that could only run once on any one machine CPU, it would still lead to the eventual creation of corporate data centres for mining. In the section above, we showed using Arrow’s theorem how only a single use proof of work system can be effective. If we extend this and look at the Theory of the Firm (Coase, 1937) we note that in a system in Litecoin and Dogecoin for example. A00137:
Proof of Work as it relates to the theory of the firm. of prices, reduction could be carried out without any organisation. One issue against this arises from the cost of information. Interestingly, as we move into a world of increasingly more information, it becomes scarce information that is important. As the amount of information becomes more voluminous, the ability to uncover accurate and timely information becomes scarcer. The ability to specialise in the coordination of the various factors of production and the distribution of information leads towards vertical integration within firms. We see this first voiced in Adam Smith’s (Smith, 1776) postulation on the firm:
Everyone can choose to either seek further information or act on the information that they already have. This information can be in the form of market knowledge, product knowledge, or expertise, but at some point, the individual needs to decide to act. There is a cost to obtaining information. The returns on obtaining more information hit a maximum level and start to decrease at a certain point. The entrepreneur acts as a guiding influence managing the risk associated with incomplete information compared to the risk of not acting but rather waiting to obtain more information.
In the instance of bitcoin mining, the firm can increase in size through the integration of multiple specialist roles. Even given the assumption that any one process can run on but a single CPU, we come to the scenario of high-end datacentre servers. The Intel Xeon Phi 7290f implements 72 Atom CPU Cores. Each core runs two threads. Even taking the control system into account, this leaves 142 processes able to run per system. With four cards per RU this allows for datacentre implementations of 5,964 mining processes to run on a pure CPU-based proof of work implementation. One person can manage a small number of mining server implementations within a home or small business environment. In large data centre-based organisations such as Facebook, a single administrator can run 20,000 servers
The effect of this would be one individual managing 2,840,000 individual CPU-based mining processes. This alone is outside the scaling capabilities of any individual. This can be further enhanced as cost savings through the creation of large data centres, management savings and integrating multiple network and systems administrators is considered. As we start to add additional layers we come to a maximum where it is no longer profitable to grow the firm in size. Right up until that point, the firm will grow.
For someone first starting out as a cryptocurrency investor, finding a trustworthy manual for screening a cryptocurrency’s merits is nonexistent as we are still in the early, Wild West days of the cryptocurrency market. One would need to become deeply familiar with the inner workings of blockchain to be able to perform the bare minimum due diligence.submitted by Kosass to CryptoCurrency [link] [comments]
One might believe, over time, that finding the perfect cryptocurrency may be nothing short of futile. If a cryptocurrency purports infinite scalability, then it is probably either lightweight with limited features or it is highly centralized among a limited number of nodes that perform consensus services especially Proof of Stake or Delegated Proof of Stake. Similarly, a cryptocurrency that purports comprehensive privacy may have technical obstacles to overcome if it aims to expand its applications such as in smart contracts. The bottom line is that it is extremely difficult for a cryptocurrency to have all important features jam-packed into itself.
The cryptocurrency space is stuck in the era of the “dial-up internet” in a manner of speaking. Currently blockchain can’t scale – not without certain tradeoffs – and it hasn’t fully resolved certain intractable issues such as user-unfriendly long addresses and how the blockchain size is forever increasing to name two.
In other words, we haven’t found the ultimate cryptocurrency. That is, we haven’t found the mystical unicorn cryptocurrency that ushers the era of decentralization while eschewing all the limitations of traditional blockchain systems.
“But wait – what about Ethereum once it implements sharding?”
“Wouldn’t IOTA be able to scale infinitely with smart contracts through its Qubic offering?”
“Isn’t Dash capable of having privacy, smart contracts, and instantaneous transactions?”
Those thoughts and comments may come from cryptocurrency investors who have done their research. It is natural for the informed investors to invest in projects that are believed to bring cutting edge technological transformation to blockchain. Sooner or later, the sinking realization will hit that any variation of the current blockchain technology will always likely have certain limitations.
Let us pretend that there indeed exists a unicorn cryptocurrency somewhere that may or may not be here yet. What would it look like, exactly? Let us set the 5 criteria of the unicorn cryptocurrency:
(1) Perfectly solves the blockchain trilemma:
o Infinite scalability
o Full security
o Full decentralization
(2) Zero or minimal transaction fee
(3) Full privacy
(4) Full smart contract capabilities
(5) Fair distribution and fair governance
For each of the above 5 criteria, there would not be any middle ground. For example, a cryptocurrency with just an in-protocol mixer would not be considered as having full privacy. As another example, an Initial Coin Offering (ICO) may possibly violate criterion (5) since with an ICO the distribution and governance are often heavily favored towards an oligarchy – this in turn would defy the spirit of decentralization that Bitcoin was found on.
There is no cryptocurrency currently that fits the above profile of the unicorn cryptocurrency. Let us examine an arbitrary list of highly hyped cryptocurrencies that meet the above list at least partially. The following list is by no means comprehensive but may be a sufficient sampling of various blockchain implementations:
Bitcoin is the very first and the best known cryptocurrency that started it all. While Bitcoin is generally considered extremely secure, it suffers from mining centralization to a degree. Bitcoin is not anonymous, lacks smart contracts, and most worrisomely, can only do about 7 transactions per seconds (TPS). Bitcoin is not the unicorn notwithstanding all the Bitcoin maximalists.
Ethereum is widely considered the gold standard of smart contracts aside from its scalability problem. Sharding as part of Casper’s release is generally considered to be the solution to Ethereum’s scalability problem.
The goal of sharding is to split up validating responsibilities among various groups or shards. Ethereum’s sharding comes down to duplicating the existing blockchain architecture and sharing a token. This does not solve the core issue and simply kicks the can further down the road. After all, full nodes still need to exist one way or another.
Ethereum’s blockchain size problem is also an issue as will be explained more later in this article.
As a result, Ethereum is not the unicorn due to its incomplete approach to scalability and, to a degree, security.
Dash’s masternodes are widely considered to be centralized due to their high funding requirements, and there are accounts of a pre-mine in the beginning. Dash is not the unicorn due to its questionable decentralization.
Nano boasts rightfully for its instant, free transactions. But it lacks smart contracts and privacy, and it may be exposed to well orchestrated DDOS attacks. Therefore, it goes without saying that Nano is not the unicorn.
While EOS claims to execute millions of transactions per seconds, a quick glance reveals centralized parameters with 21 nodes and a questionable governance system. Therefore, EOS fails to achieve the unicorn status.
One of the best known and respected privacy coins, Monero lacks smart contracts and may fall short of infinite scalability due to CryptoNote’s design. The unicorn rank is out of Monero’s reach.
IOTA’s scalability is based on the number of transactions the network processes, and so its supposedly infinite scalability would fluctuate and is subject to the whims of the underlying transactions. While IOTA’s scalability approach is innovative and may work in the long term, it should be reminded that the unicorn cryptocurrency has no middle ground. The unicorn cryptocurrency would be expected to scale infinitely on a consistent basis from the beginning.
In addition, IOTA’s Masked Authenticated Messaging (MAM) feature does not bring privacy to the masses in a highly convenient manner. Consequently, the unicorn is not found with IOTA.
PascalCoin as a Candidate for the Unicorn Cryptocurrency
Please allow me to present a candidate for the cryptocurrency unicorn: PascalCoin.
According to the website, PascalCoin claims the following:
“PascalCoin is an instant, zero-fee, infinitely scalable, and decentralized cryptocurrency with advanced privacy and smart contract capabilities. Enabled by the SafeBox technology to become the world’s first blockchain independent of historical operations, PascalCoin possesses unlimited potential.”
The above summary is a mouthful to be sure, but let’s take a deep dive on how PascalCoin innovates with the SafeBox and more. Before we do this, I encourage you to first become acquainted with PascalCoin by watching the following video introduction:
The rest of this section will be split into 10 parts in order to illustrate most of the notable features of PascalCoin. Naturally, let’s start off with the SafeBox.
Part #1: The SafeBox
Unlike traditional UTXO-based cryptocurrencies in which the blockchain records the specifics of each transaction (address, sender address, amount of funds transferred, etc.), the blockchain in PascalCoin is only used to mutate the SafeBox. The SafeBox is a separate but equivalent cryptographic data structure that snapshots account balances. PascalCoin’s blockchain is comparable to a machine that feeds the most important data – namely, the state of an account – into the SafeBox. Any node can still independently compute and verify the cumulative Proof-of-Work required to construct the SafeBox.
The PascalCoin whitepaper elegantly highlights the unique historical independence that the SafeBox possesses:
“While there are approaches that cryptocurrencies could use such as pruning, warp-sync, "finality checkpoints", UTXO-snapshotting, etc, there is a fundamental difference with PascalCoin. Their new nodes can only prove they are on most-work-chain using the infinite history whereas in PascalCoin, new nodes can prove they are on the most-work chain without the infinite history.”
Some cryptocurrency old-timers might instinctively balk at the idea of full nodes eschewing the entire history for security, but such a reaction would showcase a lack of understanding on what the SafeBox really does.
A concrete example would go a long way to best illustrate what the SafeBox does. Let’s say I input the following operations in my calculator:
5 * 5 – 10 / 2 + 5
It does not take a genius to calculate the answer, 25. Now, the expression “5 \ 5 – 10 / 2 + 5”* would be forever imbued on a traditional blockchain’s history. But the SafeBox begs to differ. It says that the expression “5 \ 5 – 10 / 2 + 5”* should instead be simply “25” so as preserve simplicity, time, and space. In other words, the SafeBox simply preserves the account balance.
But some might still be unsatisfied and claim that if one cannot trace the series of operations (transactions) that lead to the final number (balance) of 25, the blockchain is inherently insecure.
Here are four important security aspects of the SafeBox that some people fail to realize:
(1) SafeBox Follows the Longest Chain of Proof-of-Work
The SafeBox mutates itself per 100 blocks. Each new SafeBox mutation must reference both to the previous SafeBox mutation and the preceding 100 blocks in order to be valid, and the resultant hash of the new mutated SafeBox must then be referenced by each of the new subsequent blocks, and the process repeats itself forever.
The fact that each new SafeBox mutation must reference to the previous SafeBox mutation is comparable to relying on the entire history. This is because the previous SafeBox mutation encapsulates the result of cumulative entire history except for the 100 blocks which is why each new SafeBox mutation requires both the previous SafeBox mutation and the preceding 100 blocks.
So in a sense, there is a single interconnected chain of inflows and outflows, supported by Byzantine Proof-of-Work consensus, instead of the entire history of transactions.
More concretely, the SafeBox follows the path of the longest chain of Proof-of-Work simply by design, and is thus cryptographically equivalent to the entire history even without tracing specific operations in the past. If the chain is rolled back with a 51% attack, only the attacker’s own account(s) in the SafeBox can be manipulated as is explained in the next part.
(2) A 51% Attack on PascalCoin Functions the Same as Others
A 51% attack on PascalCoin would work in a similar way as with other Proof-of-Work cryptocurrencies. An attacker cannot modify a transaction in the past without affecting the current SafeBox hash which is accepted by all honest nodes.
Someone might claim that if you roll back all the current blocks plus the 100 blocks prior to the SafeBox’s mutation, one could create a forged SafeBox with different balances for all accounts. This would be incorrect as one would be able to manipulate only his or her own account(s) in the SafeBox with a 51% attack – just as is the case with other UTXO cryptocurrencies. The SafeBox stores the balances of all accounts which are in turn irreversibly linked only to their respective owners’ private keys.
(3) One Could Preserve the Entire History of the PascalCoin Blockchain
No blockchain data in PascalCoin is ever deleted even in the presence of the SafeBox. Since the SafeBox is cryptographically equivalent to a full node with the entire history as explained above, PascalCoin full nodes are not expected to contain infinite history. But for whatever reason(s) one may have, one could still keep all the PascalCoin blockchain history as well along with the SafeBox as an option even though it would be redundant.
Without storing the entire history of the PascalCoin blockchain, you can still trace the specific operations of the 100 blocks prior to when the SafeBox absorbs and reflects the net result (a single balance for each account) from those 100 blocks. But if you’re interested in tracing operations over a longer period in the past – as redundant as that may be – you’d have the option to do so by storing the entire history of the PascalCoin blockchain.
(4) The SafeBox is Equivalent to the Entire Blockchain History
Some skeptics may ask this question: “What if the SafeBox is forever lost? How would you be able to verify your accounts?” Asking this question is tantamount to asking to what would happen to Bitcoin if all of its entire history was erased. The result would be chaos, of course, but the SafeBox is still in line with the general security model of a traditional blockchain with respect to black swans.
Now that we know the security of the SafeBox is not compromised, what are the implications of this new blockchain paradigm? A colorful illustration as follows still wouldn’t do justice to the subtle revolution that the SafeBox ushers. The automobiles we see on the street are the cookie-and-butter representation of traditional blockchain systems. The SafeBox, on the other hand, supercharges those traditional cars to become the Transformers from Michael Bay’s films.
The SafeBox is an entirely different blockchain architecture that is impressive in its simplicity and ingenuity. The SafeBox’s design is only the opening act for PascalCoin’s vast nuclear arsenal. If the above was all that PascalCoin offers, it still wouldn’t come close to achieving the unicorn status but luckily, we have just scratched the surface. Please keep on reading on if you want to learn how PascalCoin is going to shatter the cryptocurrency industry into pieces. Buckle down as this is going to be a long read as we explore further about the SafeBox’s implications.
Part #2: 0-Confirmation Transactions
To begin, 0-confirmation transactions are secure in PascalCoin thanks to the SafeBox.
The following paraphrases an explanation of PascalCoin’s 0-confirmations from the whitepaper:
“Since PascalCoin is not a UTXO-based currency but rather a State-based currency thanks to the SafeBox, the security guarantee of 0-confirmation transactions are much stronger than in UTXO-based currencies. For example, in Bitcoin if a merchant accepts a 0-confirmation transaction for a coffee, the buyer can simply roll that transaction back after receiving the coffee but before the transaction is confirmed in a block. The way the buyer does this is by re-spending those UTXOs to himself in a new transaction (with a higher fee) thus invalidating them for the merchant. In PascalCoin, this is virtually impossible since the buyer's transaction to the merchant is simply a delta-operation to debit/credit a quantity from/to accounts respectively. The buyer is unable to erase or pre-empt this two-sided, debit/credit-based transaction from the network’s pending pool until it either enters a block for confirmation or is discarded with respect to both sender and receiver ends. If the buyer tries to double-spend the coffee funds after receiving the coffee but before they clear, the double-spend transaction will not propagate the network since nodes cannot propagate a double-spending transaction thanks to the debit/credit nature of the transaction. A UTXO-based transaction is initially one-sided before confirmation and therefore is more exposed to one-sided malicious schemes of double spending.”
Phew, that explanation was technical but it had to be done. In summary, PascalCoin possesses the only secure 0-confirmation transactions in the cryptocurrency industry, and it goes without saying that this means PascalCoin is extremely fast. In fact, PascalCoin is capable of 72,000 TPS even prior to any additional extensive optimizations down the road. In other words, PascalCoin is as instant as it gets and gives Nano a run for its money.
Part #3: Zero Fee
Let’s circle back to our discussion of PascalCoin’s 0-confirmation capability. Here’s a little fun magical twist to PascalCoin’s 0-confirmation magic: 0-confirmation transactions are zero-fee. As in you don’t pay a single cent in fee for each 0-confirmation! There is just a tiny downside: if you create a second transaction in a 5-minute block window then you’d need to pay a minimal fee. Imagine using Nano but with a significantly stronger anti-DDOS protection for spam! But there shouldn’t be any complaint as this fee would amount to 0.0001 Pascal or $0.00002 based on the current price of a Pascal at the time of this writing.
So, how come the fee for blazingly fast transactions is nonexistent? This is where the magic of the SafeBox arises in three ways:
(1) PascalCoin possesses the secure 0-confirmation feature as discussed above that enables this speed.
(2) There is no fee bidding competition of transaction priority typical in UTXO cryptocurrencies since, once again, PascalCoin operates on secure 0-confirmations.
(3) There is no fee incentive needed to run full nodes on behalf of the network’s security beyond the consensus rewards.
Part #4: Blockchain Size
Let’s expand more on the third point above, using Ethereum as an example. Since Ethereum’s launch in 2015, its full blockchain size is currently around 2 TB, give or take, but let’s just say its blockchain size is 100 GB for now to avoid offending the Ethereum elitists who insist there are different types of full nodes that are lighter. Whoever runs Ethereum’s full nodes would expect storage fees on top of the typical consensus fees as it takes significant resources to shoulder Ethereum’s full blockchain size and in turn secure the network. What if I told you that PascalCoin’s full blockchain size will never exceed few GBs after thousands of years? That is just what the SafeBox enables PascalCoin to do so. It is estimated that by 2072, PascalCoin’s full nodes will only be 6 GB which is low enough not to warrant any fee incentives for hosting full nodes. Remember, the SafeBox is an ultra-light cryptographic data structure that is cryptographically equivalent to a blockchain with the entire transaction history. In other words, the SafeBox is a compact spreadsheet of all account balances that functions as PascalCoin’s full node!
Not only does the SafeBox’s infinitesimal memory size helps to reduce transaction fees by phasing out any storage fees, but it also paves the way for true decentralization. It would be trivial for every PascalCoin user to opt a full node in the form of a wallet. This is extreme decentralization at its finest since the majority of users of other cryptocurrencies ditch full nodes due to their burdensome sizes. It is naïve to believe that storage costs would reduce enough to the point where hosting full nodes are trivial. Take a look at the following chart outlining the trend of storage cost.
As we can see, storage costs continue to decrease but the descent is slowing down as is the norm with technological improvements. In the meantime, blockchain sizes of other cryptocurrencies are increasing linearly or, in the case of smart contract engines like Ethereum, parabolically. Imagine a cryptocurrency smart contract engine like Ethereum garnering worldwide adoption; how do you think Ethereum’s size would look like in the far future based on the following chart?
Ethereum’s future blockchain size is not looking pretty in terms of sustainable security. Sharding is not a fix for this issue since there still needs to be full nodes but that is a different topic for another time.
It is astonishing that the cryptocurrency community as a whole has passively accepted this forever-expanding-blockchain-size problem as an inescapable fate.
PascalCoin is the only cryptocurrency that has fully escaped the death vortex of forever expanding blockchain size. Its blockchain size wouldn’t exceed 10 GB even after many hundreds of years of worldwide adoption. Ethereum’s blockchain size after hundreds of years of worldwide adoption would make fine comedy.
Part #5: Simple, Short, and Ordinal Addresses
Remember how the SafeBox works by snapshotting all account balances? As it turns out, the account address system is almost as cool as the SafeBox itself.
Imagine yourself in this situation: on a very hot and sunny day, you’re wandering down the street across from your house and ran into a lemonade stand – the old-fashioned kind without any QR code or credit card terminal. The kid across you is selling a lemonade cup for 1 Pascal with a poster outlining the payment address as 5471-55. You flip out your phone and click “Send” with 1 Pascal to the address 5471-55; viola, exactly one second later you’re drinking your lemonade without paying a cent for the transaction fee!
The last thing one wants to do is to figure out how to copy/paste to, say, the following address 1BoatSLRHtKNngkdXEeobR76b53LETtpyT on the spot wouldn’t it? Gone are the obnoxiously long addresses that plague all cryptocurrencies. The days of those unreadable addresses will be long gone – it has to be if blockchain is to innovate itself for the general public. EOS has a similar feature for readable addresses but in a very limited manner in comparison, and nicknames attached to addresses in GUIs don’t count since blockchain-wide compatibility wouldn’t hold.
Not only does PascalCoin has the neat feature of having addresses (called PASAs) that amount to up to 6 or 7 digits, but PascalCoin can also incorporate in-protocol address naming as opposed to GUI address nicknames. Suppose I want to order something from Amazon using Pascal; I simply search the word “Amazon” then the corresponding account number shows up. Pretty neat, right?
The astute reader may gather that PascalCoin’s address system makes it necessary to commoditize addresses, and he/she would be correct. Some view this as a weakness; part #10 later in this segment addresses this incorrect perception.
Part #6: Privacy
As if the above wasn’t enough, here’s another secret that PascalCoin has: it is a full-blown privacy coin. It uses two separate foundations to achieve comprehensive anonymity: in-protocol mixer for transfer amounts and zn-SNARKs for private balances. The former has been implemented and the latter is on the roadmap. Both the 0-confirmation transaction and the negligible transaction fee would make PascalCoin the most scalable privacy coin of any other cryptocurrencies pending the zk-SNARKs implementation.
Part #7: Smart Contracts
Next, PascalCoin will take smart contracts to the next level with a layer-2 overlay consensus system that pioneers sidechains and other smart contract implementations.
In formal terms, this layer-2 architecture will facilitate the transfer of data between PASAs which in turn allows clean enveloping of layer-2 protocols inside layer-1 much in the same way that HTTP lives inside TCP.
· The layer-2 consensus method is separate from the layer-1 Proof-of-Work. This layer-2 consensus method is independent and flexible. A sidechain – based on a single encompassing PASA – could apply Proof-of-Stake (POS), Delegated Proof-of-Stake (DPOS), or Directed Acyclic Graph (DAG) as the consensus system of its choice.
· Such a layer-2 smart contract platform can be written in any languages.
· Layer-2 sidechains will also provide very strong anonymity since funds are all pooled and keys are not used to unlock them.
· This layer-2 architecture is ingenious in which the computation is separate from layer-2 consensus, in effect removing any bottleneck.
· Horizontal scaling exists in this paradigm as there is no interdependence between smart contracts and states are not managed by slow sidechains.
· Speed and scalability are fully independent of PascalCoin.
One would be able to run the entire global financial system on PascalCoin’s infinitely scalable smart contract platform and it would still scale infinitely. In fact, this layer-2 architecture would be exponentially faster than Ethereum even after its sharding is implemented.
All this is the main focus of PascalCoin’s upcoming version 5 in 2019. A whitepaper add-on for this major upgrade will be released in early 2019.
Part #8: RandomHash Algorithm
Surely there must be some tradeoffs to PascalCoin’s impressive capabilities, you might be asking yourself. One might bring up the fact that PascalCoin’s layer-1 is based on Proof-of-Work and is thus susceptible to mining centralization. This would be a fallacy as PascalCoin has pioneered the very first true ASIC, GPU, and dual-mining resistant algorithm known as RandomHash that obliterates anything that is not CPU based and gives all the power back to solo miners.
Here is the official description of RandomHash:
“RandomHash is a high-level cryptographic hash algorithm that combines other well-known hash primitives in a highly serial manner. The distinguishing feature is that calculations for a nonce are dependent on partial calculations of other nonces, selected at random. This allows a serial hasher (CPU) to re-use these partial calculations in subsequent mining saving 50% or more of the work-load. Parallel hashers (GPU) cannot benefit from this optimization since the optimal nonce-set cannot be pre-calculated as it is determined on-the-fly. As a result, parallel hashers (GPU) are required to perform the full workload for every nonce. Also, the algorithm results in 10x memory bloat for a parallel implementation. In addition to its serial nature, it is branch-heavy and recursive making in optimal for CPU-only mining.”
One might be understandably skeptical of any Proof-of-Work algorithm that solves ASIC and GPU centralization once for all because there have been countless proposals being thrown around for various algorithms since the dawn of Bitcoin. Is RandomHash truly the ASIC & GPU killer that it claims to be?
Herman Schoenfeld, the inventor behind RandomHash, described his algorithm in the following:
“RandomHash offers endless ASIC-design breaking surface due to its use of recursion, hash algo selection, memory hardness and random number generation.
For example, changing how round hash selection is made and/or random number generator algo and/or checksum algo and/or their sequencing will totally break an ASIC design. Conceptually if you can significantly change the structure of the output assembly whilst keeping the high-level algorithm as invariant as possible, the ASIC design will necessarily require proportional restructuring. This results from the fact that ASIC designs mirror the ASM of the algorithm rather than the algorithm itself.”
Polyminer1 (pseudonym), one of the members of the PascalCoin core team who developed RHMiner (official software for mining RandomHash), claimed as follows:
“The design of RandomHash is, to my experience, a genuine innovation. I’ve been 30 years in the field. I’ve rarely been surprised by anything. RandomHash was one of my rare surprises. It’s elegant, simple, and achieves resistance in all fronts.”
PascalCoin may have been the first party to achieve the race of what could possibly be described as the “God algorithm” for Proof-of-Work cryptocurrencies. Look no further than one of Monero’s core developers since 2015, Howard Chu. In September 2018, Howard declared that he has found a solution, called RandomJS, to permanently keep ASICs off the network without repetitive algorithm changes. This solution actually closely mirrors RandomHash’s algorithm. Discussing about his algorithm, Howard asserted that “RandomJS is coming at the problem from a direction that nobody else is.”
Link to Howard Chu’s article on RandomJS:
Yet when Herman was asked about Howard’s approach, he responded:
In the end, PascalCoin may have successfully implemented the most revolutionary Proof-of-Work algorithm, one that eclipses Howard’s burgeoning vision, to date that almost nobody knows about. To learn more about RandomHash, refer to the following resources:
Technical proposal for RandomHash:
Someone might claim that PascalCoin still suffers from mining centralization after RandomHash, and this is somewhat misleading as will be explained in part #10.
Part #9: Fair Distribution and Governance
Not only does PascalCoin rest on superior technology, but it also has its roots in the correct philosophy of decentralized distribution and governance. There was no ICO or pre-mine, and the developer fund exists as a percentage of mining rewards as voted by the community. This developer fund is 100% governed by a decentralized autonomous organization – currently facilitated by the PascalCoin Foundation – that will eventually be transformed into an autonomous smart contract platform. Not only is the developer fund voted upon by the community, but PascalCoin’s development roadmap is also voted upon the community via the Protocol Improvement Proposals (PIPs).
This decentralized governance also serves an important benefit as a powerful deterrent to unseemly fork wars that befall many cryptocurrencies.
Part #10: Common Misconceptions of PascalCoin
“The branding is terrible”
PascalCoin is currently working very hard on its image and is preparing for several branding and marketing initiatives in the short term. For example, two of the core developers of the PascalCoin recently interviewed with the Fox Business Network. A YouTube replay of this interview will be heavily promoted.
Some people object to the name PascalCoin. First, it’s worth noting that PascalCoin is the name of the project while Pascal is the name of the underlying currency. Secondly, Google and YouTube received excessive criticisms back then in the beginning with their name choices. Look at where those companies are nowadays – surely a somewhat similar situation faces PascalCoin until the name’s familiarity percolates into the public.
“The wallet GUI is terrible”
As the team is run by a small yet extremely dedicated developers, multiple priorities can be challenging to juggle. The lack of funding through an ICO or a pre-mine also makes it challenging to accelerate development. The top priority of the core developers is to continue developing full-time on the groundbreaking technology that PascalCoin offers. In the meantime, an updated and user-friendly wallet GUI has been worked upon for some time and will be released in due time. Rome wasn’t built in one day.
“One would need to purchase a PASA in the first place”
This is a complicated topic since PASAs need to be commoditized by the SafeBox’s design, meaning that PASAs cannot be obtained at no charge to prevent systematic abuse. This raises two seemingly valid concerns:
· As a chicken and egg problem, how would one purchase a PASA using Pascal in the first place if one cannot obtain Pascal without a PASA?
· How would the price of PASAs stay low and affordable in the face of significant demand?
With regards to the chicken and egg problem, there are many ways – some finished and some unfinished – to obtain your first PASA as explained on the “Get Started” page on the PascalCoin website:
More importantly, however, is the fact that there are few methods that can get your first PASA for free. The team will also release another method soon in which you could obtain your first PASA for free via a single SMS message. This would probably become by far the simplest and the easiest way to obtain your first PASA for free. There will be more new ways to easily obtain your first PASA for free down the road.
What about ensuring the PASA market at large remains inexpensive and affordable following your first (and probably free) PASA acquisition? This would be achieved in two ways:
· Decentralized governance of the PASA economics per the explanation in the FAQ section on the bottom of the PascalCoin website (https://www.pascalcoin.org/)
· Unlimited and free pseudo-PASAs based on layer-2 in the next version release.
“PascalCoin is still centralized after the release of RandomHash”
Did the implementation of RandomHash from version 4 live up to its promise?
The official goals of RandomHash were as follow:
(1) Implement a GPU & ASIC resistant hash algorithm
(2) Eliminate dual mining
The two goals above were achieved by every possible measure.
Yet a mining pool, Nanopool, was able to regain its hash majority after a significant but a temporary dip.
The official conclusion is that, from a probabilistic viewpoint, solo miners are more profitable than pool miners. However, pool mining is enticing for solo miners who 1) have limited hardware as it ensures a steady income instead of highly profitable but probabilistic income via solo mining, and 2) who prefer convenient software and/or GUI.
What is the next step, then? While the barrier of entry for solo miners has successfully been put down, additional work needs to be done. The PascalCoin team and the community are earnestly investigating additional steps to improve mining decentralization with respect to pool mining specifically to add on top of RandomHash’s successful elimination of GPU, ASIC, and dual-mining dominance.
It is likely that the PascalCoin community will promote the following two initiatives in the near future:
(1) Establish a community-driven, nonprofit mining pool with attractive incentives.
(2) Optimize RHMiner, PascalCoin’s official solo mining software, for performance upgrades.
A single pool dominance is likely short lived once more options emerge for individual CPU miners who want to avoid solo mining for whatever reason(s).
Let us use Bitcoin as an example. Bitcoin mining is dominated by ASICs and mining pools but no single pool is – at the time of this writing – even close on obtaining the hash majority. With CPU solo mining being a feasible option in conjunction with ASIC and GPU mining eradication with RandomHash, the future hash rate distribution of PascalCoin would be far more promising than Bitcoin’s hash rate distribution.
PascalCoin is the Unicorn Cryptocurrency
If you’ve read this far, let’s cut straight to the point: PascalCoin IS the unicorn cryptocurrency.
It is worth noting that PascalCoin is still a young cryptocurrency as it was launched at the end of 2016. This means that many features are still work in progress such as zn-SNARKs, smart contracts, and pool decentralization to name few. However, it appears that all of the unicorn criteria are within PascalCoin’s reach once PascalCoin’s technical roadmap is mostly completed.
Based on this expository on PascalCoin’s technology, there is every reason to believe that PascalCoin is the unicorn cryptocurrency. PascalCoin also solves two fundamental blockchain problems beyond the unicorn criteria that were previously considered unsolvable: blockchain size and simple address system. The SafeBox pushes PascalCoin to the forefront of cryptocurrency zeitgeist since it is a superior solution compared to UTXO, Directed Acyclic Graph (DAG), Block Lattice, Tangle, and any other blockchain innovations.
Author: Tyler Swob
Bitcoin Mining Profitability. Bitcoin mining has been evolving since the start. For most, mining hasn’t been easy to make a profit on. This is due to a variety of factors including: Bitcoin’s block rewards get reduced every four years. Nakamoto set up Bitcoin’s rewards to be cut in half every four years. This helps reduce the amount that Bitcoin mining difficulty will usually only drop if Bitcoin prices do, but if that happens then your Bitcoin is worth less, which also pushes back the breakeven point. As such, even if a cloud mining contract looks like it will be profitable, you’re still more likely to lose more than you earn. Bitcoin mining is a very challenging way to earn a free Bitcoin. In addition, the process takes times and resources. In addition, the process takes times and resources. Considering all these requirements, you will find in this article if Bitcoin mining is still profitable today. GPU mining for Ethereum is more efficient than mining with Bitcoin with an ASIC machine. You can think of it as though the miners are a decentralized Paypal. Allowing all the transactions to be recorded accurately and making a bit of money for running the system. may once again make Bitcoin mining profitable to small individual miners UPDATE: Use Cudo Miner for Mac computers as its the most profitable mining software these days. Scroll back up to the top of the guide to join our FB group and get started mining. Yes, Bitcoin mining with a MacBook is possible with the help of a mining software called Niftyhash.
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