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Ethereum | Bitcoin Mining | Miner Hardware and Rigs

Buy The Fastest Nvidia GPU's For Your Ethereum Mining Rig, Bitcoin Mining Rig Or Any Other Crypto Currency Miner.
[link]

AMD Radeon RX Vega 56 GPU, NEW, Fastest bitcoin mining, graphics video card

AMD Radeon RX Vega 56 GPU, NEW, Fastest bitcoin mining, graphics video card submitted by DeadMan3000 to Amd [link] [comments]

Someone should come up with a way to make the idea behind bitcoin mining, accessible to all. Not those who dedicate their earnings into a competition of who has the fastest gpu and how many in your garage.

I think there should be a new form concept that allows a more generalized public to participate in mining. It would save costs, reduce blockchain traffic, speed up transactions and confirmations etc... without one person draining his electric bill just to recoop a few btc
submitted by supahotfiiire to Bitcoin [link] [comments]

Someone should come up with a way to make the idea behind bitcoin mining, accessible to all. Not those who dedicate their earnings into a competition of who has the fastest gpu and how many in your garage. /r/Bitcoin

Someone should come up with a way to make the idea behind bitcoin mining, accessible to all. Not those who dedicate their earnings into a competition of who has the fastest gpu and how many in your garage. /Bitcoin submitted by BitcoinAllBot to BitcoinAll [link] [comments]

Bitcoin mentioned around Reddit: AMD Radeon RX Vega 56 GPU, NEW, Fastest bitcoin mining, graphics video card /r/Amd

Bitcoin mentioned around Reddit: AMD Radeon RX Vega 56 GPU, NEW, Fastest bitcoin mining, graphics video card /Amd submitted by BitcoinAllBot to BitcoinAll [link] [comments]

4K Gaming/Streaming PC with $3000 USD budget

What will you be doing with this PC? Be as specific as possible, and include specific games or programs you will be using.
What is your maximum budget before rebates/shipping/taxes?
When do you plan on building/buying the PC? Note: beyond a week or two from today means any build you receive will be out of date when you want to buy.
What, exactly, do you need included in the budget?
Which country (and state/province) will you be purchasing the parts in? If you're in US, do you have access to a Microcenter location?
If reusing any parts (including monitor(s)/keyboard/mouse/etc), what parts will you be reusing? Brands and models are appreciated.
Will you be overclocking? If yes, are you interested in overclocking right away, or down the line? CPU and/or GPU?
Are there any specific features or items you want/need in the build? (ex: SSD, large amount of storage or a RAID setup, CUDA or OpenCL support, etc)
What type of network connectivity do you need? (Wired and/or WiFi) If WiFi is needed and you would like to find the fastest match for your wireless router, please list any specifics.
Do you have any specific case preferences (Size like ITX/microATX/mid-towefull-tower, styles, colors, window or not, LED lighting, etc), or a particular color theme preference for the components?
Do you need a copy of Windows included in the budget? If you do need one included, do you have a preference?
Extra info or particulars:
I want this PC to be built for me.
I've built my own PC a few years ago and it took way longer than expected and received faulty hardware, so I will gladly pay extra to have someone else do it for me. Just the cable management alone is something I'm willing to pay an extra few Benjamin's for.
For the aesthetic, I would like the case to be see-through with LED lights inside, with a white case.
submitted by borntoperform to buildapcforme [link] [comments]

05-24 13:04 - 'How much money can i make mining with the fastest cpu in the world?' (self.Bitcoin) by /u/Choata18 removed from /r/Bitcoin within 183-193min

'''
Fastest gpu, fastest EVERYTHING, bascially the fastest hardware possible in the world. max spent: $500k
Or am i too late to the game?
Thanks
'''
How much money can i make mining with the fastest cpu in the world?
Go1dfish undelete link
unreddit undelete link
Author: Choata18
submitted by removalbot to removalbot [link] [comments]

Numbers on the screen or how digital payment systems make the market fair?

Numbers on the screen or how digital payment systems make the market fair?

https://preview.redd.it/6m1gp2mvotx41.png?width=1160&format=png&auto=webp&s=a83f0346d8008c17968d6a240cfba8fe3fe4e2aa
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.
https://i.redd.it/quc2bgmxotx41.gif
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.

https://i.redd.it/4nvhydtzotx41.gif
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.

https://preview.redd.it/rl4aai81ptx41.png?width=1400&format=png&auto=webp&s=cdfa10f0d68442aac84c14e3bae5a52e92651878
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.
https://i.redd.it/8njxgxq2ptx41.gif

Currency transactions and payments abroad

You 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?


https://i.redd.it/tykhrd56ptx41.gif
  1. Currency conversion by the payment system;
  2. Euro-Dollar, or in the case of processing payment via MasterCard in Turkey, Turkish lira-Euro and additional conversion on the side of the issuing Bank (your Bank) Euro — Dollar.
  3. Currency conversion by an acquiring bank;
  4. The difference between the exchange rate on the purchase date and the write-off date. We purchased at a rate of 0.91 euros per dollar, and the write-off occurred at a rate of 0.94 euros per dollar.
  5. A large number of currency conversions.
  6. The greater the number of them, the more we will lose when buying. For example, when paying in the UAE or China, buying a product for the local currency, we understand that the number of conversions increases several times.
If we touch on the topic of international translations, we will encounter additional nuances:
  • This is the payment processing time. International payments can be processed within 3–5 days, as mentioned above, which in our dynamic time — it interferes with the comfortable use of the system.
  • Restrictions on the amounts;
  • Possible requirements for certain documentation for payment confirmation;
  • Additional fees and commissions, sometimes hidden fees.
It is not always possible to make a transfer quickly and when necessary due to these restrictions. All this confirms the complexity of the operations and additional commissions that the user pays.

Сryptocurrency exchanges

And now back to the numbers on the screen, this topic affects not only banks but also centralized cryptocurrency exchanges:
  • You top up your Deposit on the exchange in cryptocurrency-then you use numbers inside the exchange, and real funds are most often stored on “cold storage” for which administrators or other responsible persons are responsible.
  • Only when you make a withdrawal from the exchange to your wallet-you are sent real funds (tokens or cryptocurrency).
The same applies to centralized applications and online services that deal with cryptocurrencies:
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 systems

The 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.

https://preview.redd.it/ojcg4fz7ptx41.png?width=601&format=png&auto=webp&s=6cc81d1617b0cb64a3f5c7cc6d06a78354386f8c
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.

https://preview.redd.it/npttc3a9ptx41.png?width=1000&format=png&auto=webp&s=0f2dee1e5b19436a847dca96e2b3b7f22b801b57
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.

https://i.redd.it/gk6j0m9bptx41.gif

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.

https://i.redd.it/sb6i2ladptx41.gif
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.

https://preview.redd.it/uvw9vfyeptx41.png?width=1400&format=png&auto=webp&s=14b89acca3568fdc5eb82d986aaa2710219ced91
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.

https://preview.redd.it/vodiuq5gptx41.png?width=1400&format=png&auto=webp&s=31ab44da4431b0159ef1213db7e37c6fd92d5b0a
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?


https://i.redd.it/9ftct10iptx41.gif
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=$0.00000174
Accordingly, 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 blockchain

Now 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 days
As 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 network

A 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.

https://i.redd.it/f9d17k8uptx41.gif
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.

https://preview.redd.it/nnz5krdvptx41.png?width=1400&format=png&auto=webp&s=fee452ae6389c8f46d97357777193ed2b10bc4bc
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.
https://preview.redd.it/2d0uu4gxptx41.png?width=1200&format=png&auto=webp&s=ae5f2f0bc8b7c7dedd1814eb32e97092a6330c3a
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.

https://i.redd.it/afcfj3rzptx41.gif
submitted by tkeycoin to Tkeycoin_Official [link] [comments]

Debunking myths about mining and GPUs

E: Going to bed, will contribute more tomorrow. Thanks for the discussion!
Myth: Mining is more stressful than gaming. Fact: It depends. During the old days, this was plausible, because older GPUs (Pre-polaris) are/were bottlenecked by core clock when mining the most profitable coins. Thus, miners overclocked and overvolted these cards quite frequently, especially with cheap electricity. This meant that those cards were often run hot, pushing the limits and stressing VRM and fans quite a lot. Nowadays, ethash (Ethereum) is the most profitable algorithm for AMD cards 99% of the time, and newer GPUs (Polaris) are limited by memory bandwidth and latency. Miners can underclock core to the low 1100MHz range before seeing performance drop. To save power, miners who know what they are doing also undervolt, since it is no longer necessary to sustain a high core clock. Thus, it is quite feasible to run polaris cards below 70C at a reasonable fan speed. However, dual mining (mining more than one coin at once) does increase power consumption by up to 20%, and there are also idiots who run their polaris cards OCd while mining. With the exception of a few idiots, miners treat their Polaris GPUs pretty much the same; that is, running underclocked and undervolted 24/7 with a memory strap mod and mem OC. On the other hand, former gaming cards are highly variable in use cases. Some gamers leave their cards at stock settings, some undervolt, and some OC and/or overvolt. Most of the time, these cards are thermal cycled far more often than mining cards, which is known to weaken solder. Another thing to consider is that manufacturers have learned (somewhat) from their mistakes of putting shit tier fans in GPUs, and many fans on modern GPUs are ball bearing and/or swappable. Even some budget cards, such as MSI Armor, use decent ball bearing fans. Bottom line: the risk of buying mined Polaris cards is not as high as the risk of buying older mined cards. I would not be against buying mined polaris cards, but it's not necessarily better than buying a gamer's card instead. At the end of the day, it depends more on how the owner treated it than what they used it for.
Myth: GPUs are obsolete because of FPGAs and ASICs Fact: Mostly false. Older algorithms such as scrypt and SHA256 (lite/doge/feathebitcoin etc) are no longer feasible to mine with GPUs, but there have been multiple algorithms since then that are built to deter ASICs; most of the time it is done by making it memory-hard because designing an ASIC with high memory throughput is considerably more expensive to design and manufacture. Many devs prefer their blockchain to be ASIC resistant to avoid the concentration of power problem that Bitcoin is having nowadays, where a giant, near-monopolistic ASIC manufacturer (Bitmain) is causing a lot of (subjective) controversy. Blockchains based on ethash (Ethereum and its forks), equihash (Zcash and its forks) and cryptonight (Monero and forks) are some examples, but there are scores of other shitcoins and a few other algos that are GPU dominant. It is almost impossible that there will be another ASIC takeover, which is what was responsible for the stop in GPU demand in the bitcoin and litecoin days. Bottom line: ASICs no longer threaten GPU miners, or the demand for GPUs
Myth: Ethereum switching to Proof of Stake will kill mining soon Fact: Doomsayers have been preaching about proof of stake since late 2015. It has always been "coming soon." The fact is, the Ethereum roadmap goes from proof of work (mining) -> Casper (mining + PoS) -> Metropolis (PoS). Currently, the release date of Casper is not even announced yet, nor is it being tested in a (public) testnet. Proof of Stake might one day take over, but mining is here to stay for a while yet. Another thing to consider is that there are tons of other GPU mineable blockchains, and although Ethereum is biggest, it is certainly feasible that mining stays profitable even after Ethereum goes PoS (if it ever does). However, it is possible that profits will be low enough to discourage new miners. Bottom line: It's very unlikely. E: I screwed up the roadmap; here is a better source than me with some interesting information: https://www.ethnews.com/ethereums-vitalik-buterin-gives-keynote-on-metropolis
Myth: The current Ethereum demand spike is a bubble Opinion: Honestly, I don't know. I would not be surprised if stricter regulations on ICOs come sooner or later, which would fuck with Ether prices. There is also the inherent volatility of cryptocurrencies. However, it is also possible that blockchain technology continues to gain traction; that is, the price could just as easily go up as go down. Although it's fun to read about other people's opinions, only time-travelling wizards can tell you when it will become economical again to upgrade your poor HD5770. Bottom line: No one knows.
Myth: Miners will "steal" all the RX Vegas Fact: Only a reckless miner would buy Vegas on release, since mining performance is not known. In fact, it is possible that it can't mine at all (or at some stupidly low speed) until devs add support to existing miners. It would be even more reckless than gamers who buy without seeing benchmarks, since at least gamers can expect the games to actually run. It's also not necessarily the case that Vega will be good once miners do add support. Maybe there will be enough reckless miners to affect supply, maybe not. Of course, it is possible that miners will deplete the supply after it is demonstrated that Vega is good for mining. Bottom line: Most miners won't preorder, but it's possible that a significant number will. E: Important to remember that even if mining demand isn't high, doesn't mean that supply will be plentiful.
Myth: Nvidia cards SUCK at mining Fact: Mostly false. They USED to suck in the old pre-Maxwell days, but now they are actually more efficient at mining Ethereum and Zcash compared to AMD cards, even after both cards are undervolted. The flipside is that they (used to) cost more for the equivalent hashrate. For reference, my old 5xRX470 rig drew just under 800W when mining ETH only and hashed at 150MH/s. My current 6xGTX1060 rig draws just over half of that (<450W) and hashes at about 135MH/s. Certainly not as good in raw performance, but they are viable nonetheless, especially given the AMD GPU shortage. In fact, Nvidia cards (1060 and especially 1070) are becoming scarce as well. Bottom line: Nvidia is still the underdog when it comes to mining, but far from irrelevant nowadays.
Myth: 4GB cards will be obsolete for mining soon Fact: FALSE. The Ethereum DAG is not even 3GB yet, and won't be for a few months. The recent reports of 4GB Polaris cards slowing down soon due to DAG size is caused by limited TLB capacity, not VRAM restrictions. Polaris cards will still be able to mine ETH forks such as Expanse and UBIQ without diminished speed, and even if they are used to mine ETH, it is not that much of a performance hit at first. It would certainly not make polaris useless or undesirable for mining anytime soon. Tahiti GPUs already suffer from this issue and Hawaii is the most resistant to this issue. Have not benched Nvidia at a later epoch.
Myth: Creating miner-bashing posts on Reddit will help alleviate the GPU supply problem Fact: False, you are simply giving cryptocurrencies and mining more exposure to the general public, increasing demand.
Myth: Mining-specific GPUs will solve the shortage problems Opinion: There's not enough info to tell yet, but I am a skeptic for the following reasons. First, no display limits the resale value of the card for obvious reasons. IMO, the whole point of crypto mining from a profitability standpoint is to have a hedge against coin volatility (hardware is still worth something if the coin crashes). Otherwise it is much less effort to just buy and hold the coin. If the hardware is useless without demand from other (significant) sources, then it doesn't make much sense to buy it unless the price is extremely low. I'm sure that cost-downing the PCB and warranty will make for a cheap card, but it has to be extremely cheap and plentiful in supply, or else miners will buy whatever they can get. I could envision "failed" chips (not meeting spec of consumer editions) being stuck in miner cards, but I doubt there are enough to meet demand without ramping up production as a whole, which carries its own risks. I guess that it would help a little, but probably not solve the problems. Alternatively, since modern GPUs are bottlenecked by RAM when mining, it might be enticing to miners to have the fastest (GDDR5) RAM on the market (probably the 9gbps chips from the 1060 6G 9gbps edition, although I don't have one to test). However, my previous points still apply; buying such a card without display outputs carries a big risk. Bottom line: It's not a great idea, unless they are super cheap or use really good RAM.
Hope this helped; if you have any further questions I will try to answer them. I'm both a gamer and miner who uses both AMD and Nvidia roughly equally and don't favor one group over another. I've mined and gamed on all high end AMD GPUs since Tahiti (except Tonga) and all Pascal cards except 1050ti.
submitted by key_smash to Amd [link] [comments]

AIOMiner - Alpha 7 Released

Hello All!
AIOMiner Alpha 7 is here and with it comes AMD support.
In this release we have given you the fastest way to mine for new people. In 5 clicks after install you can be mining and be on your way.
For anyone new, this is used to help you run your rig or desktop miner to help you manage your pools and mine with ease.
But here are some key new things, read more on the GitHub Page
Quick Start: Download,Install, Help, Add Wallet, Save, Click start
Screen Shots:
Main
Advanced
Supported Coins
ZCash, Vertcoin, BitcoinZ, Straks, MonaCoin, ZenCash, Ethereum, Hush, Komodo, Trezarcoin, Verge, Vivo, Bitcoin Gold, Zclassic, Ellaism, Pirl, Musicoin, Feathercoin, Monero, Ubiq, Expanse, Orbitcoin, Metaverse, Ethereum Classic, Sumokoin, Karbo, Electroneum, Bytecoin, Halcyon
Quick Help
Download Today
Feature Request or Chat
Community Driven, No Mining Fees, No Batch Files
submitted by xixspiderxix to gpumining [link] [comments]

Mining ERC-918 Tokens (0xBitcoin)

GENERAL INFORMATION

0xBitcoin (0xBTC) is the first mineable ERC20 token on Ethereum. It uses mining for distribution, unlike all previous ERC20 tokens which were assigned to the contract deployer upon creation. 0xBTC is the first implementation of the EIP918 mineable token standard (https://eips.ethereum.org/EIPS/eip-918), which opened up the possibility of a whole new class of mineable assets on Ethereum. Without any ICO, airdrop, pre-mine, or founder’s reward, 0xBitcoin is arguably the most decentralized asset in the Ethereum ecosystem, including even Ether (ETH), which had a large ICO.
The goal of 0xBitcoin is to be looked at as a currency and store of value asset on Ethereum. Its 21 million token hard cap and predictable issuance give it scarcity and transparency in terms of monetary policy, both things that Ether lacks. 0xBitcoin has certain advantages over PoW based currencies, such as compatibility with smart contracts and decentralized exchanges. In addition, 0xBTC cannot be 51% attacked (without attacking Ethereum), is immune from the “death spiral”, and will receive the benefits of scaling and other improvements to the Ethereum network.

GETTING 0xBITCOIN TOKENS

0xBitcoin can be mined using typical PC hardware, traded on exchanges (either decentralized or centralized) or purchased from specific sites/contracts.

-Mined using PC hardware

-Traded on exchanges such as


MINING IN A NUTSHELL

0xBitcoin is a Smart Contract on the Ethereum network, and the concept of Token Mining is patterned after Bitcoin's distribution. Rather than solving 'blocks', work is issued by the contract, which also maintains a Difficulty which goes up or down depending on how often a Reward is issued. Miners can put their hardware to work to claim these rewards, in concert with specialized software, working either by themselves or together as a Pool. The total lifetime supply of 0xBitcoin is 21,000,000 tokens and rewards will repeatedly halve over time.
The 0xBitcoin contract was deployed by Infernal_Toast at Ethereum address: 0xb6ed7644c69416d67b522e20bc294a9a9b405b31
0xBitcoin's smart contract, running on the Ethereum network, maintains a changing "Challenge" (that is generated from the previous Ethereum block hash) and an adjusting Difficulty Target. Like traditional mining, the miners use the SoliditySHA3 algorithm to solve for a Nonce value that, when hashed alongside the current Challenge and their Minting Ethereum Address, is less-than-or-equal-to the current Difficulty Target. Once a miner finds a solution that satisfies the requirements, they can submit it into the contract (calling the Mint() function). This is most often done through a mining pool. The Ethereum address that submits a valid solution first is sent the 50 0xBTC Reward.
(In the case of Pools, valid solutions that do not satisfy the full difficulty specified by the 0xBitcoin contract, but that DO satisfy the Pool's specified Minimum Share Difficulty, get a 'share'. When one of the Miners on that Pool finds a "Full" solution, the number of shares each miner's address has submitted is used to calculate how much of the 50 0xBTC reward they will get. After a Reward is issued, the Challenge changes.
A Retarget happens every 1024 rewards. In short, the Contract tries to target an Average Reward Time of about 60 times the Ethereum block time. So (at the time of this writing):
~13.9 seconds \* 60 = 13.9 minutes
If the average Reward Time is longer than that, the difficulty will decrease. If it's shorter, it will increase. How much longer or shorter it was affects the magnitude with which the difficulty will rise/drop, to a maximum of 50%. * Click Here to visit the stats page~ (https://0x1d00ffff.github.io/0xBTC-Stats) to see recent stats and block times, feel free to ask questions about it if you need help understanding it.

MINING HARDWARE

Presently, 0xBitcoin and "Alt Tokens" can be mined on GPUs, CPUs, IGPs (on-CPU graphics) and certain FPGAs. The most recommended hardware is nVidia graphics cards for their efficiency, ubiquity and relatively low cost. As general rules, the more cores and the higher core frequency (clock) you can get, the more Tokens you will earn!
Mining on nVidia cards:
Mining on AMD cards:
Mining on IGPs (e.g. AMD Radeon and Intel HD Graphics):
Clocks and Power Levels:

MINING SOFTWARE AND DESCRIPTIONS

For the most up-to-date version info, download links, thread links and author contact information, please see this thread: https://www.reddit.com/0xbitcoin/comments/8o06dk/links_to_the_newestbest_miners_for_nvidia_amd/ Keep up to date for the latest speed, stability and feature enhancements!
COSMiC Miner by LtTofu:
SoliditySha3Miner by Amano7:
AIOMiner All-In-One GPU Miner:
TokenMiner by MVis (Mining-Visualizer):
"Nabiki"/2.10.4 by Azlehria:
~Older Miners: Older and possibly-unsupported miner versions can be found at the above link for historical purposes and specific applications- including the original NodeJS CPU miner by Infernal Toast/Zegordo, the '1000x' NodeJS/C++ hybrid version of 0xBitcoin-Miner and Mikers' enhanced CUDA builds.

FOR MORE INFORMATION...

If you have any trouble, the friendly and helpful 0xBitcoin community will be happy to help you out. Discord has kind of become 0xBTC's community hub, you can get answers the fastest from devs and helpful community members. Or message one of the community members on reddit listed below.
Links
submitted by GeoffedUP to gpumining [link] [comments]

Games4coins.com .. a new service to buy Steam keys with BTX

Games4coins.com .. a new service to buy Steam keys with BTX
Artwork by Desing Team - Bitcore BTX ® 2018
Steam is a digital distribution platform developed by Valve Corporation offering digital rights management1 (DRM), multiplayer gaming and social networking services. Steam provides the user with installation and automatic updating of games on multiple computers, and community features such as friend lists and groups, cloud saving, and in-game voice and chat functionality.
If you purchase a game that uses Steam from another website as a digital download, you'll be given a product key that you use to activate the game on Steam. A Steam key is a unique code that you will use to access the full game2.
Bitcore BTX originally a hybrid fork of Bitcoin, features a proof-of work consensus mechanism and implements all of the BIPs (Bitcoin Improvement Proposals) of the Bitcoin protocol3.
Bitcore: The most clever Bitcoin fork” -- Jimmy Song, Bitcoin Core Developer
More exchanges are listing Bitcore (BTX) and businesses are adopting it. One of the latest cases of adoption of BTX is in purchasing Steam Games Key from Games4Coins.
Games4Coins is a platform that you can purchase Steam product keys. Buying a game on Games4Coins is really simple. Once you have selected a game, you can quickly and securely pay. Why we say quickly and securely? Because a powerful cryptocurrency, Bitcore (BTX) is accepted as a payment coin at this platform (Figure 1). Moreover, as a crypto, they accept only Bitcore.
Figure 1. Bitcore accepted in Games4Coins
After the transaction is complete, you gain full access to your purchased game key which is 15 letter+number code that would look something like this: 8GMR2-Q20YJ-9PDKL. Once you get that, you go into your steam app on your computer and go to Games > Activate a product on steam. Then it will have a space for you to put your code.
Bitcore is one Cryptocurrency with a big Future”. Games4Coins Team
There are totally forty seven steam games and you can pay via Bitcore for all games. Moreover the prices are very cheap, between 0.44303596 BTX and 5.41588852 BTX (Figure 2).
Figure 2. Some samples for the steam games and their price
Consequently, Bitcore is one of the best cryptos in the market. It is also one of the fastest cryptos in the market when compared to Bitcoin, Litecoin and many other top 10 cryptos. Given that transaction speeds are a factor in the applicability of crypto in real-world business usage, it then follows that Bitcore’s long-term prospects are quite good, as blockchain technology continues to gain a foothold in business. This kind of integrations could open the doors for other major businesses to adopt BTX as a payment method, further adding to the intrinsic value of this crypto. The future of Bitcore (BTX) looks great.
Author: Chris DEVTeam Bitcore | [[email protected]](mailto:[email protected])
Download PDF

GAMES4COINS HERE

References
1 https://en.wikipedia.org/wiki/Digital_rights_management
2 https://support.steampowered.com/kb_article.php?ref=5414-tfbn-1352
3 https://bitcore.cc/white-pape

https://preview.redd.it/0matv78hrml11.png?width=1440&format=png&auto=webp&s=e8596b7325dd200f5d5a098e83d9a918a7dc7848
Web: Official | News | Coin Specs | Roadmap | White Paper | Ecosystem | Network Update | Community | FAQ | Blog | TeamWallets: Windows | Win Wallet & Blockchain | Linux | Mac | iOS | Android | Eletrum | Zeltrez | Jaxx LibertyExchanges: Bit Z | Cryptopia | hitBTC | VE Bitcoin | Exrates | Crypto Bridge | QBTC | Coinexchange | Octaex | Bitexlive | Bitibu | Trade Satoshi | PayCML | ExcoincialServices: Livingroom of Satoshi | Kamoney | Cryptonaut | EasyRabBit.net | LuckyGames.io | InstaSwap Block Explorers: InsightAPI | Crypto ID | LiivenetMining Pools: Bitcorepool | Yiimp | Suprnova | Chainworks | Umine | Ant Mine Pool | Coin Miners | BSOD | BTXpool | Minersport | Omegapool | PoolGPUMarket Info: CoinMarketCap | World Coin Index | Cryptocompare Source: Github | Kryptowerk | DgCarlosLeon

submitted by dgcarlosleon to bitcore_btx [link] [comments]

The Problem with PoW

The Problem with PoW
Miners have always had it rough..
"Frustrated Miners"

The Problem with PoW
(and what is being done to solve it)

Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency.
In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin.
Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases.

Hashrates and Hardware Types

While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners.
When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm.
This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time.
Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon.

2 Guys 1 ASIC

One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption.
Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix.
When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete.
This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control.

Implications of Centralization

This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors).
This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things.
The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions.

The Rise of FPGAs

With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending.
A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network.
Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements.
Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes.

All is not lost thanks to.. um.. Technology?

Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.”
In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution.
Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member-
"Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well"

If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency.
Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term.

In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
submitted by Godballz to CryptoCurrency [link] [comments]

Bitcore BTX - What makes us different from the other cryptocurrencies? by DgCarlosLeon

Bitcore BTX - What makes us different from the other cryptocurrencies? by DgCarlosLeon
Beyond all of Bitcore's avant-garde technical aspects, it is also one of the forerunners of 2017, being Bitcoin's first hybrid Fork.
Artwork by Design Team - Bitcore BTX ® 2018
We have focused on being the currency of choice for the fastest and most efficient transactions and payments (but here again we fall back on the technical side).
From my personal point of view, at Bitcore we are different because we think about people, we think about nature and everything that technology can provide to everyone in general.
We are aware that the world today is changing in all environments and we adapt to this pace.
Let's see a little, the other currencies (as perspective) Bitcoin certainly the first in the ranking and very busy avoiding the blows of other currencies like Bcash.
Bcash, focused on making them believe that they Bitcoin still entered the world almost eight years after Bitcoin, with a crypto tycoon who can move the markets as he pleases.
Bitcoin Gold another fork with a few more dark started, especially because of the scam with the purse that overtook more than one BTC holder (I include myself, for having relied on the publication of themselves).
Bitcoin Private, Bitcoin Diamond, Bitcoin Red, Bitcoin Scrypt, BitcoinDark, BitcoinZ, Bitcoin Interest, Bitcoin 21, Bitcoin Atom, Bitcoin Fast, Bitcoin God, Bitcoin Plus, Bitcoin X, Bitcoin Green, Bitcoin Planet, Lightining Bitcoin, Super Bitcoin, United Bitcoin... and they're all Bitcoin?
I don't deny that everyone may or may not have their own characteristics, but let's start with the name "Bitcoin" there we can already appreciate that they are currencies with other interests beyond people.
At Bitcore BTX we have a different goal and that is to make people truly enjoy the advantages of having a decentralized crypt for the development of their lives in a comprehensive and worry-free way.
We want to make a difference and the best way is by dedicating our effort and work to improving people's quality of life.
Disclaimer: My opinion is not based on technical characteristics, but on the quality of the people who make up the team of the cryptocurrecies and on the visible intentions of each one.
https://preview.redd.it/sq2iygtgmrc11.png?width=1440&format=png&auto=webp&s=95bc8e29a5ee27f33ab8bc4cdf6aef6b1c54d649
Web: Official | News | Coin Specs | Roadmap | White Paper | Ecosystem | Network Update | Community | FAQ | Blog | Team Wallets: Windows | Win Wallet & Blockchain | Linux | Mac | iOS | Android | Eletrum | Zeltrez Exchanges: Bit Z | Cryptopia | hitBTC | VE Bitcoin | Exrates | Crypto Bridge | QBTC | Coinexchange | Octaex | Bitexlive | Bitibu | Trade Satoshi | PayCML Services: Livingroom of Satoshi | Kamoney | Cryptonaut | EasyRabBit.net | LuckyGames.io Block Explorers: InsightAPI | Crypto ID | Liivenet Mining Pools: Bitcorepool | Yiimp | Suprnova | Chainworks | Umine | Ant Mine Pool | Coin Miners | BSOD | BTXpool | Minersport | Omegapool | PoolGPU Market Info: CoinMarketCap | World Coin Index | Cryptocompare Source: Github | Kryptowerk | DgCarlosLeon
submitted by dgcarlosleon to bitcore_btx [link] [comments]

Why GPU Prices Went Up And Where They Will Go In The Future (Informed Speculation)

I am seeing a lot of comments in this sub in regards to the GPU apocalypse 2.0. I wanted to shed some insight about what is going on and what I believe is going to happen in the future. As a long time lurker in this sub, I believe in speaking the truth and getting past all the bs.
First, I need to tell you guys right now. I am a miner. I have 16 1070s and 12 1060 3gbs mining in unison in my basement (which most veteran miners would consider a mid-sized operation). My personal gaming rig is still powered by my GTX 980 and I mine with it as well when I am not using it. All that being said, I have been in the mining game for years and I saw this apocalypse coming with the climbing profitability (which is why about three weeks ago I ordered 12 1060s). In July, when the GPU apocalypse 1.0 happened, everyone was happy because a 6x1070 rig could make you upwards of $20 a day. Then when everyone started mining it dropped to $15 on average, then again to $12. In late November to early December I started to see a huge but gradual climb to over $20 a day again. I admitted all of that to establish myself as a mining veteran, NOT to troll anyone. If you want to try and predict GPU apocalypse 3.0 yourself, visit whattomine and calculate what 6x1070s are making and compare them to the numbers I have above. If they start to climb near $20 a day, you will know winter is coming again.
For the GPU market, I strongly believe that the market in the next few years will shift. There are two reasons for that. The first is I think that GPU mining is here to stay. Remember that our profitability is NOT completely linked to crypto prices, but in the difficulty of a particular coin. If the difficulty of ethereum were to double today and the price stay the same, I would be mining zcash etc. Even if the prices of ALL coins tanked, it wouldn't affect my profit as much as many of you seem to think it would. The reason is because when the reward goes down, many stop mining a coin and so the difficulty drops. It's just human behavior. That is why most days I make the exact same amount of USD $$$ even though the price of most coins shot up. It IS possible for profitability to drop as hard as it's went up recently, but the low profitability would cause a new coin to utilize all that untapped hashrate. There is a huge financial incentive to tap into all of this GPU power, and that is why I strongly believe it is going to continue to be profitable long term. Just look at how much etheruem has eaten into the Bitcoin dominance by market cap in the past year or two.
The second reason is I believe that this generation of cards has experienced demand the likes of which we have never seen! I mean seriously, those of us that got into PC gaming in the last 10 years, we have not seen demand like this EVER. Like you guys have been saying, this is going to cause a VERY healthy second hand market soon, which is a great thing. If the Volta profitability from the Titan V is anything to go by, that manufacturing process is going to be the new go-to for crypto mining. The only reason the Titan isn't coveted by crypto miners is the price. At 200w it's crypto numbers are actually the strongest per watt of anything out there (which will very likely translate down into the next gen 1080, 1070, and 1060 respectively). I don't think everyone is gonna just shut off their rx 570s, 1060s, 1070s, and 1080s just to upgrade to Volta, but all NEW rigs in the future will obviously be built with the best tech. Those old rigs will stay powered on until they are literally unprofitable to run OR they are so low-profit that they are no longer worth the effort to maintain.
For the two reasons above (continued profitability and better GPUs in the future) I do believe we are heading towards a situation where crypto miners get the latest gen cards and gamers get one generation back. The FPS/$ on the used market has mostly always been better than the new market, but we are heading for a time where that effect is going to be compounded. I strongly believe the go-to-cards for gamers once Volta spreads to miners is going to be rx 570-1080ti depending on budget.
One final piece of bad news is there is a new floor to GPU prices. Miners will ALWAYS buy whatever is going to ROI fastest and make the most money. If 1070s dropped to 100 bucks and Volta 2070s are $450 but only twice as good, we will demand 1070s until the price goes up beyond $200. That's just an example, but you get the idea. I think that second hand GPUs for the previous gen will be selling for slightly less than what they were MSRP at launch.
Personally, mining has changed my life for the better. My wife is preggo and we are about to move to a single income family because of the revenue generated by mining (about $100 every day with the cards listed above). I don't understand why gamers aren't subsidizing their purchase of GPUs by mining with new, easy software like Nicehash then cashing it out. I get not everyone has the up-front capital to get a 1080ti for $1300, but why not get a 1060 3gb for a little under 300 then set it to mine when you aren't using it? After a few months you will have made the price of your GPU under 200 despite electricity costs. Another benefit is technically you mining with that 1060 will decrease the profit of miners like me slightly. If you really wanna affect the bottom line of miners, mine with the cards you already have. It increases the difficulty and makes profit lower MUCH more so than a drop in price would. There is plenty of profit to go around. I would say you could buy games on steam with the resulting Bitcoin, but they eliminated that. You CAN buy from Newegg straight up or even from Amazon at a discount using purse.io in order to justify the extra price for the card. There are a TON of options of how you can spend your BTC.
I certainly don't know everything, but if you guys have any questions please let me know and I will try my best to answer them. I am sure an even more experienced miner will jump in if I don't know the answer and respond as well.
TL;DR: GPU apocalypse 2.0 happened because the profit of 6x1070s passed $20 per day again (all cards are high profit but I use 1070s as a reference). I believe gamers are going to get one generation of GPU back starting when the full Volta stack comes out.
submitted by compound-interest to pcmasterrace [link] [comments]

COSMiC v4.0a Public Test - The Easy-To-Use 0xBitcoin and ERC-918 Token Miner for nVidia/CUDA Devices (Windows 64-bit)

Release Thread: https://www.reddit.com/0xbitcoin/comments/c1590e/cosmic_v413t_update_nvidiacuda_win64_guibased/
Thanks!
Hello, 0xBitcoin Community! I'm happy to share my work with you today! This is a brand new CUDA miner for Pool-Mining 0xBitcoin and similar ERC-918 tokens like 0xBitcoinCash/0xKIWI. I've rewritten COSMiC from the ground up, using the best parts of v3.4 (the fastest/most stable release prior to this one.) Presenting, COSMiC V4! As I add more features to this miner, my goal is to make it as simple and pleasant to use as possible for newcomers to 0xBitcoin and mining in general.
SCREENSHOTS:
DOWNLOAD: (Out-Of-Date: See v4.0.1 link above)
FEATURES:
WHAT'S COMING SOON:
COMPATIBILITY:
Should work on nVidia(CUDA) cards Kepler(6xx-series) and up. Tested on Maxwell Gen2(9xx) and Pascal (GTX10x0). Developed on Windows 10. Should work on 8.1 and up (probably works on 7.) This is a 64-bit application and expects a 64-bit version of Windows.
Non-English Windows Users: **If the program crashes or doesn't launch when you double-click Cosmic.exe, please open the file Cosmic.exe.Config and change the 1.5 to read 1,5 - This is a bug with how decimal points are handled by a Windows function. I will add a fix right away. This workaround will hopefully fix the issue for you in the meantime. :) You should not need to edit the Config file manually in any other circumstance- just use the Options->Configure... menu item to quickly get set up.
You can probably also change this setting in Windows' 'Region & Language Settings' > 'Additional Date, Time and Regional Settings' > 'Change Date, Time or Number Formats' > 'Additional Settings' > Decimal Symbol `.`
HOW TO USE:
This is a brand new miner and as such only runs one GPU per instance. Multi-GPU support coming soon. See below for more info on using multiple GPUs.
MULTI-GPU INSTRUCTIONS:
A WORD ON INTENSITIES:
PERFORMANCE TIPS:
Please let me know what you think and help me to make this the best miner that it can be. :) I can be found here on Reddit or, for a faster response, look for me on the Discord (see sidebar) with the username @LtTofu [ Mag517 ]
Thanks for your support and feedback!
submitted by LieutenantTofu to 0xbitcoin [link] [comments]

The Problem with PoW


Miners have always had it rough..
"Frustrated Miners"


The Problem with PoW
(and what is being done to solve it)

Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency.
In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin.
Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases.
Hashrates and Hardware Types
While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners.
When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm.
This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time.
Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon.
2 Guys 1 ASIC
One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption.
Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix.
When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete.
This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control.
Implications of Centralization
This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors).
This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things.
The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions.
The Rise of FPGAs
With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending.
A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network.
Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements.
Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes.
All is not lost thanks to.. um.. Technology?
Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.”
In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution.
Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member-
"Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well"
If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency.
Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term.
In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
submitted by Godballz to EtherMining [link] [comments]

COSMiC Miner v4.0.1t Update (Windows 64-Bit, nVidia/CUDA)

This is an update to COSMiC V4, an nVidia(CUDA) Token Miner for 0xBTC and other ERC-918 tokens. Users are encouraged to upgrade. Read the rest of this thread or check the README / About/Help Dialog box for info on changes. Enjoy and Happy Hashing :)
** NOTE: this is a very old build! Newest version (4.1.3t) as of this writing, see release thread: https://www.reddit.com/0xbitcoin/comments/c1590e/cosmic_v413t_update_nvidiacuda_win64_guibased/
or the Bitbucket downloads section- latest uploads are at the top: https://bitbucket.org/LieutenantTofu/cosmic-v3/downloads/
** thanks! **

SCREENSHOTS:

DOWNLOAD:

GETTING STARTED VIDEO:

CHANGES THIS VERSION:

FEATURES:

WHAT'S COMING SOON:

COMPATIBILITY:

Should work on nVidia(CUDA) cards Kepler(6xx-series) and up. Tested on Maxwell Gen2(9xx) and Pascal (GTX10x0). Developed on Windows 10. Tested to work on Windows 7 and newer. This is a 64-bit application and expects a 64-bit version of Windows.

HOW TO USE:

This is a brand new miner and as such only runs one GPU per instance. Multi-GPU support coming soon. See below for more info on using multiple GPUs.

MULTI-GPU INSTRUCTIONS:

A WORD ON INTENSITIES:

PERFORMANCE TIPS:

Please let me know what you think and help me to make this the best miner that it can be. :) I can be found here on Reddit or, for a faster response, look for me on the Discord (see sidebar) with the username: @LtTofu [ _Cosmic Miner_ ].
Thanks for your support and feedback!
submitted by LieutenantTofu to 0xbitcoin [link] [comments]

[Miner] COSMiC v4.1t Multi-GPU (for Windows X64+CUDA Devices, 0xBitcoin/Other ERC-918 TokenPools)

Hello 0xBitcoin and Token Mining community! I'm happy to share my work with you today. COSMiC v4.1t is a public "beta" which brings multiple enhancements, including support for mining on multiple nVidia/CUDA devices in one instance and a redesigned GUI.
Suggestions/feedback greatly appreciated: I will use your input in forthcoming updates to the miner. :)
CHANGES THIS VERSION:
SCREENSHOTS:
DOWNLOADS:
INSTRUCTIONS:
COMING SOON:
WHAT'S PLANNED:
CONTACT:
submitted by LieutenantTofu to 0xbitcoin [link] [comments]

A Short Response to AdoredTV's "How Nvidia Won and AMD Lost the GPU War"

AdoredTV claims of booming sales for AMD with the fastest gaming GPU in 2011 are contradicted by two errors!

As everyone knows, the biggest disruptive event for PC gaming GPUs sales happened in October 2010 - the first public release of GPU mining code for Bitcoin Network. Yes, a lot of new high-end AMD GPUs where being bought up by crypto-currency miners from that point onwards. Therefore, the new business sales data includes a lot of sales to people starting off the crypto-currency GPU mining scene - booming sales of GPUs for AMD.

When we look at the Steam Hardware Survey for the years 2010 and 2011:
Nvidia: 59.11%
ATI (AMD): 32.98%
Today, Desktop GPU shipments by Nvidia and AMD are:
Nvidia 65%-70%
AMD 30%-35%
Varying according to how much risk each business takes on unsold inventory.

That entire period of ATI (AMD) releasing faster and faster gaming GPUs resulted in a very tiny 5% change in market share and the emergence of crypto-currency mining was the principal reason for increased new business sales of high-end gaming GPUs.

Towards the end, AdoredTV seems to not understand business commitments at different price segments.

Polaris on 12nm is a required product, which AdoredTV simply refuses to accept. Polaris on 12nm is required by Apple, AMD's AIB partners and OEMs. At, the $170 to $250 AMD has to offer an improved product each year.

This is Polaris statistics:
Driver Optimisations +8% performance 1st year and -3% 2nd year, net gain 5%.
Polaris 14nm architectural tweaks +8% performance 500 series.
Polaris 12nm node shrink and tweaks +12% performance.

That is going to be 25% performance change over 2 years at $170 to $250 price point at no extra cost to the end users who are only willing to spend under $250 on a gaming GPU. That is what PC gamers expect: a 25% performance increase over a 2 year period at the same pricing.

This is the essential problem with AdoredTV: AMD delivers exactly what customers asked for e.g. more performance at the same prices (incrementally).
AdoredTV get's upset and says: "your gonna lose no matter what".
Nvidia charges more money for performance people use to get for free every two years and AdoredTV says "people are gonna buy it no matter what".

The sales of new desktop GPU shipments will stay around the same percentages, Nvidia customers will simply be a bit poorer and AMD customers will simply be a bit richer.

And, all of AMD Subreddit would rather be in the latter group, than the former group.

Discuss
submitted by balbs10 to Amd [link] [comments]

Announcement: AIOMiner Now Supports Vertcoin!

Hello All!
AIOMiner Alpha 7 is here and with it comes AMD support as well as Vertcoin Support!
In this release we have given you the fastest way to mine for new people. In 5 clicks after install you can be mining and be on your way.
For anyone new, this is used to help you run your rig or desktop miner to help you manage your pools and mine with ease.
But here are some key new things, read more on the GitHub Page:
Quick Start: Download,Install, Help, Add Wallet, Save, Click start
Screen Shots:
Main
Advanced
Supported Coins: ZCash, Vertcoin, BitcoinZ, Straks, MonaCoin, ZenCash, Ethereum, Hush, Komodo, Trezarcoin, Verge, Vivo, Bitcoin Gold, Zclassic, Ellaism, Pirl, Musicoin, Feathercoin, Monero, Ubiq, Expanse, Orbitcoin, Metaverse, Ethereum Classic, Sumokoin, Karbo, Electroneum, Bytecoin, Halcyon
Quick Help
Download Today
Discord
Community Driven, No Mining Fees, No Batch Files
submitted by The_Brutally_Honest to vertcoin [link] [comments]

5 most promising Altcoins for long-term investments | Coinscapture

5 most promising Altcoins for long-term investments | Coinscapture

After the success of Bitcoin and the rise in the price of the first-ever cryptocurrency, many new coins were developed in cryptoworld. In simple words, any coin other than bitcoin is termed as “Altcoins”. These coins are created by tweaking the Bitcoin's or any other existing cryptocurrencies protocol. In the growing world of cryptocurrency, there are more than 3000 cryptocurrencies which came into existence and so it is a tough job to choose the right Altcoin to invest in it. Here are the 5 most promising Altcoins that can help you to narrow your search.
Disclaimer: This guide should not be considered as financial advice. It is highly recommended to do appropriate market research before any investments.

Litecoin

After the successful launch of Bitcoin, Litecoin was the next one to enter the Cryptoworld in 2011. Charlie Lee - a computer scientist created Litecoin by making some technical changes in the bitcoin’s source-code and made it the fastest peer-to-peer currency that enabled instant, near-zero cost payments to anyone across the world. Also, litecoin has a total supply of 84 million with an average block mining time of 2.5 minutes.

Reasons why to choose Litecoin as a Long-Term Investment

  • Improved: Litecoin algorithm is generally easier to mine but difficult to crack The bitcoin mining is highly processed intensive requiring, application-specific integrated circuit devices with high processing capabilities, while Litecoin mining is memory-intensive requiring less cost-intensive graphics processing units (GPU).
  • Faster block-processing rate: The technical changes done on Bitcoin’s source-code allows Litecoin to processes a block at a much faster rate and giving out rewards to the miner faster in every 2.5 minutes as compared to Bitcoin which processes a block in every 10 minutes. Litecoin network have more capacity to handle the transactions than bitcoin's network
  • SegWit upgrade: Litecoin's SegWit upgrade boost the capacity of the number of transactions a block can hold in litecoin's blockchain, thereby speeding up the transaction settlement times and lowering transaction costs.
  • Higher trading volume: The trading of Litecoin has begun since 2011 and since then it was in the top 10 list of coins. The popularity of Litecoins is so much that you won't face any problem selling them in the future which brings less fear of having risk as compared to other new coins.

Ethereum

Ethereum is the second-largest digital currency introduces Vitalik Buterin in late 2015. It has been a popular choice in many industries as its cool feature named Smart Contracts helps developers to build decentralized applications (dApps) on top of its (i.e. Ethereum's) blockchain which helps to avoid fraud, downtime, and control or interference from a third party. Ethereum can also be used for banking and financial service contracts, ICOS, prediction markets, replacing escrow, identity management. The Enterprise Ethereum Alliance founded in 2017 has over 200 organizations that are testing on various versions of Ethereum's blockchain in different industries. Ethereum has a circulating supply of 106,376,346 ETH, the market capitalization of $26,307, 580,992 and faster transaction of 6 minutes as compared to Bitcoin.

Reasons why to choose Ethereum as a Long-Term Investment

  • Multi-purpose usage- Other than trading Ethereum can be used for ICOs, prediction markets, building tokens and many more ways that very few cryptocurrencies can do as good as Ethereum.
  • Safety: The apps built on Ethereum’s blockchain termed as dApps or decentralized apps are significantly safer and more resistant to hacking than the software you use now.
  • Smart contracts: The smart contract feature offers significant business benefits over more traditional conventional forms of cloud computing and transaction-clearing.
  • Initial Coin Offerings: Ethereum is used ICOs (Initial Coin Offerings) that means it acts as a launchpad for new tokens which thereby makes it a valuable platform and price will increase with its use.

Ripple

Ripple is the hot choice in banking and financial institutions as it can be used as an intermediary for quick transaction-processing and settlement service; allowing to transact directly and instantly across national borders. XRP currently has a fast transaction processing time of about 4 seconds and a cheap transaction fee about $0.004 per transaction (which is less than half a cent). It has a circulating supply of 42,181,995,112 and a market capitalization of around 17 billion USD.

Reasons why to choose Ripple as a Long-Term Investment

  • Well distributed: Ripple is an open-source technology, built on the principles of blockchain with an increasing set of validators.
  • Highly Scalable: XRP has the potential to handle 1,500 transactions per second, 24x7, and can scale to deal with a similar throughput as Visa.
  • Highly Stable: The most stable record of Ripple makes it ready for institutional and enterprise use.
  • Global Bank partners: Ripple has partnered with over 100 banks like Bank of America, UBS, Standard Chartered, Barclays, JP Morgan, Santander, and American Express.

Stellar

Stellar offers the fastest and the cheapest online payment and cross-border payment services as compared to the other large companies. Also, it does not use proof of work verification which is time and energy consuming which allows processing a transaction in approx 5 seconds. It has a market capitalization of $2,378,213,121 and a circulating supply of 19.331,689,641.

Reasons why to choose Stellar as a Long-Term Investment

  • Low-cost transactions: Stellar’s payment protocol prioritizes profit, the low transaction time and high operational efficiency translates to a lower cost of transactions.
  • Currency exchanger: Stellar’s platform also acts as a currency exchanger between government-backed currencies, such as dollars to euros.
  • Creating tokens: Launching a token on the Stellar platform is super easy because of the simple programming.
  • Tech elements: Stellar can integrate with elements such as blockchain smart contracts, and multi signatures that enhances the functionality of the payment protocol

Binance Coin

Binance coin is the official coin of the Binance platform that offers a stage for trading cryptocurrencies. Binance is soon launching its own decentralized exchange, Binance DEX that would be available on all platforms, such as Windows, Linux, Mac OS, iOS and Android. BNB has a market capitalization of 4 billion USD and a circulating supply of 141,175,490.

Reasons why to choose Binance Coin a Long-Term Investment

  • Discounts: BNB can be used not only to pay сommissions for transactions on the exchange and also to get additional discounts for each purchase and exchange via Binance
  • Team: BNB has a great team that is ambitious and experienced in the cryptocurrency world
  • Referrals: BNB coin offers a smart referral scheme which attracts many users and thereby grows the platform’s adoption
  • Loyalty: BNB coin is the only cryptocurrency that rewards customers for their loyalty and creating a fair ecosystem within Binance
    https://coinscapture.com/blog/5-most-promising-altcoins-for-long-term-investments
submitted by coinscapturecom to u/coinscapturecom [link] [comments]

The Problem with PoW

The Problem with PoW

Miners have always had it rough..
"Frustrated Miners"


The Problem with PoW
(and what is being done to solve it)

Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency.
In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin.
Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases.
Hashrates and Hardware Types
While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners.
When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm.
This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time.
Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon.
2 Guys 1 ASIC
One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption.
Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix.
When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete.
This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control.
Implications of Centralization
This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors).
This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things.
The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions.
The Rise of FPGAs
With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending.
A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network.
Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements.
Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes.
All is not lost thanks to.. um.. Technology?
Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.”
In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution.
Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member-
"Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well"
If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency.
Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term.
In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
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