Etiket arşivi: bitcoin

Haberler, Madencilik - Mining

Kanada’dan Bitcoin Madenciliğine Yönelik Açıklamalar

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Kanada’nın doğusunda yer alan ve ülkedeki en büyük eyaletlerden birisi olan Quebec bitcoin madenciliği hakkında açıklamalarda bulundu. Geçtiğimiz gün düzenlenen bir konferans dahilinde konuşan hükümet yetkilileri, eyalete elektrik sağlayan şirket Hydro-Quebec’i kullanarak bitcoin madencilerine ucuz elektrik sunma düşüncesiyle ilgilenmediklerini ifade ettiler.

Başkent Montreal’de düzenlenen konferansa katılan Başbakan Philippe Couillard ekonomiye “katma değer” sağlanmadan “bitcoin madenciliği yapmanın” uygun olmadığını vurguladı. Başbakan Couillard  yaptığı bu açıklamaların ardından bu konuya ilişkin gerçekleştirdiği daha önceki açıklamalarıyla çelişmiş oldu.

Başbakan Couillard tarafından bu konuya yönelik daha önceden yapılan açıklamalar şu şekilde:

Buraya yerleşmek ve sunucularınızı bağlayarak bitcoin madenciliği yapmak istiyorsanız, yapın. Bu bizi ilgilendirmez.”

Philippe Couillard’ın şimdiki açıklamaları ise şu şekilde:

Toplumumuza kazandırılan bir değerin bulunması gerekiyor. Madencilik işlemi yapmak için sunucu sahibi olmak ve yeni bitcoin’ler elde etmek eylemlerinde topluma katılan bir katma değer görmüyorum.”

Madencilik alanında yaşanan son gelişmelerin ardından Qeubec bu yıl kripto para madencilerinin radarına takıldı. Çin’den ve dünyanın çeşitli bölgelerinden gelen şirketler ucuz elektrik satın almak için Hydro-Quebec’e akın ettiler.

Tüm dünyadan gelen bu akım sonucunda geçtiğimiz Ocak ayında otuzun üzerinde şirketten başvuru alındı. Bunun sonucunda Hydro-Qeubec bölgeye yerleşmek isteyen bazı kuruluşlara “enerji sağlayamayacağını” duyurdu. Ayrıca Bloomberg tarafından bildirilen verilere göre eyaletteki madenciler için uygulanacak vergilendirmeler de kapıda.

Hydro-Quebec CEO’su Eric Martel tarafından bu konuya yönelik yapılan basın açıklamasında kaydedilen ifadelerse şu şekilde:

“Eğer başvuruda bulunan her bitcoin madencisini kabul edersek yeni bir sorunun ortaya çıkmasına sebep olmuş oluruz. Yapabileceğimiz şeylerin bir sınırı var. Büyük bir kapasiteye sahip olan devasa bir ağa sahibiz ancak tüm dünyaya sunuculuk yapamayız.”

Kanada’da hal böyleyken New York eyaletindeki yetkililer geçtiğimiz ayın başlarında eyalet sınırlarında bitcoin madenciliği yapılmasına izin verdiklerini açıkladı. Yetkililer bu sektörün getirdiği iş olanaklarına ve yerel topluluğa sağladığı değere dikkatleri çekti.

Kaynak: Cointelegraph
Altcoin, Bitcoin, Ethereum, Haberler, Ripple

Kripto Para Piyasasında Son Durum Nedir?

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Aralık ayından günümüze kadar çok ciddi dalgalanmaların olduğu kripto para piyasasında sular yavaş yavaş durulmaya başlıyor diyebiliriz. Gelen olumlu kripto para haberleri üzerine Bitcoin 10 bin dolar üzerinde tutunmaya çalışıyor. Son üç gündür 11 bin doları geçmiş durumda ve bu değer üzerinde tutunabilmesi halinde kripto para piyasasında ciddi artışlar beklenebilir.

04.03.2018 tarihli Coinmarketcap verilerine göre piyasada şuan; 1536 kripto para bulunmakta. Bugün itibariyle kripto paraların toplam piyasa değeri 456 Milyar $ değerine ulaşmış durumda. Bitcoin ise 190 Milyar $ değer ile toplam piyasanın %41 ‘lik hacmini oluşturmakta. 83 Milyar $ işlem hacmi ile %18 ‘lik bir paya sahip olan Ethereum ise ikinciliğini korumaya devam ediyor. Üçüncü sırada ise 35 Milyar $ değer ile Ripple bulunmakta.

Kripto para piyasasında son 24 saatte 15 Milyar $ değerinde işlem hacmi oluşmakla beraber 1. sırada 6 Milyar $ işlem hacmi ile Bitcoin, 2. sırada 2,2 Milyar $ işlem hacmi ile Tether bulunmakta.

Bitcoin‘de Son Durum Nedir?

Bitcoin – Günlük Mum Grafiği – 04.03.2018

6 Şubat tarihinde 6.000 ‘li değerlere düşen Bitcoin son bir haftadır 9.300 $ üzerinde işlem görmekte. 20 şubatta 11.768 $ değerine ulaşan Bitcoin şuan ki saatlerde ise 11.200 $ değerinde işlem görmeye devam ediyor. Bitcoin’in yükseliş rekoru ise 17 aralık 2017 tarihinde 19.850 $ olduğunu hatırlatmakta fayda var.

 

 

Bitcoin, English

How to Sell Bitcoin

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These days virtually all the methods available to buy bitcoin also offer the option to sell.

The exception is bitcoin ATMs – some do allow you to exchange bitcoin for cash, but not all. Coinatmradar will guide you to bitcoin ATMs in your area.

All exchanges allow you to sell as well as buy. What type of exchange you choose to sell your bitcoin will depend on what type of holder you are: small investor, institutional holder or trader?

Some platforms such as GDAX and Gemini are aimed more at large orders from institutional investors and traders.

Retail clients can sell bitcoin at exchanges such as BinanceCex.ioBitfinexCoinbase and Poloniex etc. Each exchange has a different interface, and some offer related services such as secure storage. Some require verified identification for all trades, while others are more relaxed if small amounts are involved.

(Of course, don’t forget to declare any profit you make on the sale to your relevant tax authority!)

You can, if you wish, exchange your bitcoin for other cryptoassets rather than for cash. Some exchanges such as ShapeShift focus on this service, allowing you to swap between bitcoin and ether, litecoin, XRP, dash and several others.

Another alternative is the direct sale. You can register as a seller on platforms such as Binance, Cex.ioBitfinexCoinbasePoloniex and interested parties will contact you if they like your price. Transactions are usually done via deposits or wires to your bank account, after which you are expected to transfer the agreed amount of bitcoin to the specified address.

Or, you can sell directly to friends and family once they have a bitcoin wallet set up. Just send the bitcoin, collect the cash or mobile payment, and have a celebratory drink together. (Note: it is generally not a good idea to meet up with strangers to exchange bitcoin for cash in person. Be safe.)

(Note: specific businesses mentioned here are not the only options available, and should not be taken as a recommendation.)

Source: coindesk

Bitcoin, English

How do Bitcoin Transactions Work?

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Simple version:

If I want to send some of my bitcoin to you, I publish my intention and the nodes scan the entire bitcoin network to validate that I 1) have the bitcoin that I want to send, and 2) haven’t already sent it to someone else. Once that information is confirmed, my transaction gets included in a “block” which gets attached to the previous block – hence the term “blockchain.” Transactions can’t be undone or tampered with, because it would mean re-doing all the blocks that came after.

Getting a bit more complicated:

My bitcoin wallet doesn’t actually hold my bitcoin. What it does is hold my bitcoin address, which keeps a record of all of my transactions, and therefore of my balance. This address – a long string of 34 letters and numbers – is also known as my “public key.”  I don’t mind that the whole world can see this sequence. Each address/public key has a corresponding “private key” of 64 letters and numbers. This is private, and it’s crucial that I keep it secret and safe. The two keys are related, but there’s no way that you can figure out my private key from my public key.

That’s important, because any transaction I issue from my bitcoin address needs to be “signed” with my private key. To do that, I put both my private key and the transaction details (how many bitcoins I want to send, and to whom) into the bitcoin software on my computer or smartphone.

With this information, the program spits out a digital signature, which gets sent out to the network for validation.

This transaction can be validated – that is, it can be confirmed that I own the bitcoin that I am transferring to you, and that I haven’t already sent it to someone else – by plugging the signature and my public key (which everyone knows) into the bitcoin program. This is one of the genius parts of bitcoin: if the signature was made with the private key that corresponds to that public key, the program will validate the transaction, without knowing what the private key is. Very clever.

The network then confirms that I haven’t previously spent the bitcoin by running through my address history, which it can do because it knows my address (= my public key), and because all transactions are public on the bitcoin ledger.

Even more complicated:

Once my transaction has been validated, it gets included into a “block,” along with a bunch of other transactions.

A brief detour to discuss what a “hash” is, because it’s important for the next paragraph: a hash is produced by a “hash function,” which is a complex math equation that reduces any amount of text or data to 64-character string. It’s not random – every time you put in that particular data set through the hash function, you’ll get the same 64-character string. But if you change so much as a comma, you’ll get a completely different 64-character string. This whole article could be reduced to a hash, and unless I change, remove or add anything to the text, the same hash can be produced again and again. This is a very effective way to tell if something has been changed, and is how the blockchain can confirm that a transaction has not been tampered with.

Back to our blocks: each block includes, as part of its data, a hash of the previous block. That’s what makes it part of a chain, hence the term “blockchain.” So, if one small part of the previous block was tampered with, the current block’s hash would have to change (remember that one tiny change in the input of the hash function changes the output). So if you want to change something in the previous block, you also have to change something (= the hash) in the current block, because the one that is currently included is no longer correct. That’s very hard to do, especially since by the time you’ve reached half way, there’s probably another block on top of the current one. You’d then also have to change that one. And so on.

This is what makes Bitcoin virtually tamper-proof. I say virtually because it’s not impossible, just very very, very, very, very difficult and therefore unlikely.

Fun

And if you want to indulge in some mindless fascination, you can sit at your desk and watch bitcoin transactions float by. Blockchain.info is good for this, but if you want a hypnotically fun version, try BitBonkers.

(For more detail on how blocks are processed and on how bitcoin mining works, see this article.)

Source: coindesk

Bitcoin, English

How Bitcoin Mining Works

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When you hear about bitcoin “mining” you envisage coins being dug out of the ground. But bitcoinisn’t physical, so why do we call it mining?

Because it’s similar to gold mining in that the bitcoins exist in the protocol’s design (just as the gold exists underground), but they haven’t been brought out into the light yet (just as the gold hasn’t yet been dug up). The bitcoin protocol stipulates that 21 million bitcoins will exist at some point. What “miners” do is bring them out into the light, a few at a time.

They get to do this as a reward for creating blocks of validated transactions and including them in the blockchain.

Nodes

Backtracking a bit, let’s talk about “nodes.” A node is a powerful computer that runs the bitcoin software and helps to keep bitcoin running by participating in the relay of information. Anyone can run a node, you just download the bitcoin software (free) and leave a certain port open (the drawback is that it consumes energy and storage space – the network at time of writing takes up about 145GB). Nodes spread bitcoin transactions around the network. One node will send information to a few nodes that it knows, who will relay the information to nodes that they know, etc. That way it ends up getting around the whole network pretty quickly.

Some nodes are mining nodes (usually referred to as “miners”). These group outstanding transactions into blocks and add them to the blockchain. How do they do this? By solving a complex mathematical puzzle that is part of the bitcoin program, and including the answer in the block. The puzzle that needs solving is to find a number that, when combined with the data in the block and passed through a hash function, produces a result that is within a certain range. This is much harder than it sounds.

(For trivia lovers, this number is called a “nonce”, which is a concatenation of “number used once.” In the case of bitcoin, the nonce is an integer between 0 and 4,294,967,296.)

Solving the puzzle

How do they find this number? By guessing at random. The hash function makes it impossible to predict what the output will be. So, miners guess the mystery number and apply the hash function to the combination of that guessed number and the data in the block. The resulting hash has to start with a pre-established number of zeroes. There’s no way of knowing which number will work, because two consecutive integers will give wildly varying results. What’s more, there may be several nonces that produce the desired result, or there may be none (in which case the miners keep trying, but with a different block configuration).

The first miner to get a resulting hash within the desired range announces its victory to the rest of the network. All the other miners immediately stop work on that block and start trying to figure out the mystery number for the next one. As a reward for its work, the victorious miner gets some new bitcoin.

Economics

At the time of writing, the reward is 12.5 bitcoins, which at time of writing is worth almost $200,000.

Although it’s not nearly as cushy a deal as it sounds. There are a lot of mining nodes competing for that reward, and it is a question of luck and computing power (the more guessing calculations you can perform, the luckier you are).

Also, the costs of being a mining node are considerable, not only because of the powerful hardware needed (if you have a faster processor than your competitors, you have a better chance of finding the correct number before they do), but also because of the large amounts of electricity that running these processors consumes.

And, the number of bitcoins awarded as a reward for solving the puzzle will decrease. It’s 12.5 now, but it halves every four years or so (the next one is expected in 2020-21). The value of bitcoin relative to cost of electricity and hardware could go up over the next few years to partially compensate this reduction, but it’s not certain.

Difficulty

The difficulty of the calculation (the required number of zeroes at the beginning of the hash string) is adjusted frequently, so that it takes on average about 10 minutes to process a block.

Why 10 minutes? That is the amount of time that the bitcoin developers think is necessary for a steady and diminishing flow of new coins until the maximum number of 21 million is reached (expected some time in 2140).

If you’ve made it this far, then congratulations! There is still so much more to explain about the system, but at least now you have an idea of the broad outline of the genius of the programming and the concept. For the first time we have a system that allows for convenient digital transfers in a decentralized, trust-free and tamper-proof way. The repercussions could be huge.

Source: coindesk