Bytecoin (BCN)
$0.00081
(3% )
0.00000001 BTC
84.5 Mh/s
Hashrate
$339,849
6.14 BTC
119 BCN
Nagrada
19/4
Rudari/Pulovi
POOL MINING  DAN Trenutno Tež 
DAN 1h PROS Tež 
DAN 24h PROS Tež 
SEDMICA 24h PROS Tež 
MESEC 24h PROS Tež 


Nagrade BCN  243  240  235  1,648  7,065  
Prihod BTC  0.0000036  0.0000035  0.0000035  0.000025  0.00011  
Prihod USD  $0.2  $0.19  $0.2  $1.38  $5.92 
SOLO MINING  DAN Trenutno Tež 
DAN 1h PROS Tež 
DAN 24h PROS Tež 
SEDMICA 24h PROS Tež 
MESEC 24h PROS Tež 


BCN Blocks  2  2  1  13  59  
Nagrade BCN  237  237  119  1,541  6,995  
Prihod USD  $0.19  $0.19  $0.099  $1.29  $5.86 
Bytecoin rudarski pulovi
Naziv pula  Spojeni  Prov %  Min. isplata  Rudari  Mh/s  Status  

fastpool.xyz  0.5  1  0  0  4 min ranije  
miningpool.guru  0.5  10  4  0.15  4 min ranije  
Semipool.com  pplns 0  1  4  0.7  7 min ranije  
Fairhash  1  200  11  2.83  7 min ranije 
Bytecoin marketi
Menjačnica  Par  24h BCN  24h USD  Provereno  

Poloniex  BCN/USDT  108,377,452  $86,778  2 sat ranije  
HitBTC  BCN/BTC  95,014,600  $78,147  2 sat ranije  
CoinEx  BCN/USDT  88,243,018  $71,219  2 sat ranije  
HitBTC  BCN/USD  84,167,900  $68,849  2 sat ranije  
CoinEx  BCN/BTC  40,336,801  $32,131  2 sat ranije  
HitBTC  BCN/ETH  1,451,800  $1,192  2 sat ranije  
CREX24  BCN/BTC  781,380  $688  3 sat ranije  
TradeOgre  BCN/LTC  538,222  $500  3 sat ranije  
BITEXBOOK  BCN/BTC  206,896  $174  2 sat ranije  
STEX  BCN/ETH  43,676  $37.6  9 sat ranije 
Bytecoin
Bytecoin is the first CryptoNotebased currency, which has reached mass adoption successfully. Bytecoin also possesses one of the largest ecosystems. Bytecoin has been originally created in close cooperation with CryptoNote team. It is the first implementation of CryptoNote technology, with the release dating back to July 2012. Up to this date Bytecoin developers has been making significant contributions to the development of CryptoNote technology.
Simbol  BCN 
Predstavljen  Jun 2011 
Forkovano sa  Originally 
Hashing algoritam  CN ASIC 
Vreme bloka  120 sek 
Decimalna mesta  8 
Nagrada  119 
Trenutna visina  2,295,657 
Istorijski podaci  JSON 
CN  07. Feb 2018 
AMX  Jan 2021 
FTS  Mar 2020 
DYNGE  Apr 2019 
XNB  Nov 2018 
XAO  Feb 2018 
INTU  Feb 2018 
XEQ  Feb 2018 
TYCH  Feb 2018 
BLOC  Feb 2018 
PARS  Feb 2018 
BBS  Jan 2018 
LBIT  Jan 2018 
TRTL  Jan 2018 
BFR  Jan 2018 
LUK  Dec 2017 
BTCN  Dec 2017 
BSM  Nov 2017 
BTN  Oct 2017 
IRD  Sep 2017 
B2B  Aug 2017 
GEEM  Jul 2017 
CROAT  Jun 2017 
COAL  Oct 2016 
KRB  Mar 2016 
DCY  Dec 2015 
MCN  Jun 2014 
XMR  Apr 2014 
Ticker: BCN
Total coins: 18 446 744 073 709 551 616 atomic units (= 184.46 billion BCN)
Block time: 120 seconds (2 minutes)
Difficulty retargets each block
Block reward decreases each block according to the formula: BaseReward = (MSupply  A)/2^{18}, where MSupply = (2^{64}  1) atomic units and 'A' is amount of already generated coins
One coin is divisible down to 8 decimal places (divisible up to 10^{8})
What is Bytecoin?
Bytecoin is a private, decentralized cryptocurrency with an open source code that allows everyone to take part in the network development of Bytecoin. Privacy and security are naturally proponents of Bytecoin and it’s best solution for those who want to keep their finances private.
Technology
Untraceable payments
The ordinary digital signature (e.g. (EC)DSA, Schnorr, etc...) verification process involves the public key of the signer. It is a necessary condition, because the signature actually proves that the author possesses the corresponding secret key. But it is not always a sufficient condition.
Ring signature [1] is a more sophisticated scheme, which in fact may demand several different public keys for verification. In the case of ring signature, we have a group of individuals, each with their own secret and public key. The statement proved by ring signatures is that the signer of a given message is a member of the group. The main distinction with the ordinary digital signature schemes is that the signer needs a single secret key, but a verifier cannot establish the exact identity of the signer. Therefore, if you encounter a ring signature with the public keys of Alice, Bob and Carol, you can only claim that one of these individuals was the signer but you will not be able to pinpoint him or her.
This concept can be used to make digital transactions sent to the network untraceable by using the public keys of other members in the ring signature one will apply to the transaction. This approach proves that the creator of the transaction is eligible to spend the amount specified in the transaction but his identity will be indistinguishable from the users whose public keys he used in his ring signatures.
Unlinkable transactions
Normally, when you post your public address, anyone can check all your incoming transactions even if they are hidden behind a ring signature. To avoid linking you can create hundreds of keys and send them to your payers privately, but that deprives you of the convenience of having a single public address.
CryptoNote solves this dilemma by an automatic creation of multiple unique onetime keys, derived from the single public key, for each P2P payment. The solution lies in a clever modification of the DiffieHellman exchange protocol [2]. Originally it allows two parties to produce a common secret key derived from their public keys. In our version the sender uses the receiver's public address and his own random data to compute a onetime key for the payment.
The sender can produce only the public part of the key, whereas only the receiver can compute the private part; hence the receiver is the only one who can release the funds after the transaction is committed. He only needs to perform a singleformula check on each transactions to establish if it belongs to him. This process involves his private key, therefore no third party can perform this check and discover the link between the onetime key generated by the sender and the receiver's unique public address.
An important part of our protocol is usage of random data by the sender. It always results in a different onetime key even if the sender and the receiver both remain the same for all transactions (that is why the key is called "onetime"). Moreover, even if they are both the same person, all the onetime keys will also be absolutely unique.
Doublespending proof
Fully anonymous signatures would allow spending the same funds many times which, of course, is incompatible with any payment system's principles. The problem can be fixed as follows.
A ring signature is actually a class of cryptoalgorithms with different features. The one CryptoNote uses is the modified version of the "Traceable ring signature" [3]. In fact we transformed traceability into linkability. This property restricts a signer's anonymity as follows: if he creates more than one ring signature using the same private key (the set of foreign public keys is irrelevant), these signatures will be linked together which indicates a doublespending attempt.
To support linkability CryptoNote introduced a special marker being created by a user while signing, which we called a key image. It is the value of a cryptographic oneway function of the secret key, so in math terms it is actually an image of this key. Onewayness means that given only the key image it is impossible to recover the private key. On the other hand, it is computationally impossible to find a collision (two different private keys, which have the same image). Using any formula, except for the specified one, will result in an unverifiable signature. All things considered, the key image is unavoidable, unambiguous and yet an anonymous marker of the private key.
Blockchain analysis resistance
There are many academic papers dedicated to the analysis of the Bitcoin's blockchain. Their authors trace the money flow, identify the owners of coins, determine wallet balances and so on. The ability to make such analysis is due to the fact that all the transfers between addresses are transparent: every input in a transaction refers to a unique output. Moreover, users often reuse their old addresses, receiving and sending coins from them many times, which simplifies the analyst's work. It happens unintentionally: if you have a public address (for example, for donations), you are sure to use this address in many inputs and transactions.
CryptoNote is designed to mitigate the risks associated with key reusage and oneinputtooneoutput tracing. Every address for a payment is a unique onetime key, derived from both the sender's and the recipient's data. It can appear twice with a probability of a 256bit hash collision. As soon as you use a ring signature in your input, it entails the uncertainty: which output has just been spent?
Trying to draw a graph with addresses in the vertices and transactions on the edges, one will get a tree: a graph without any cycles (because no key/address was used twice). Moreover, there are billions of possible graphs, since every ring signature produces ambiguity. Thus, you can't be certain from which possible sender the transactionedge comes to the addressvertice. Depending on the size of the ring you will guess from "one out of two" to "one out of a thousand". Every next transaction increases the entropy and creates additional obstacles for an analyst.
Adaptive limits
A decentralized payment system must not depend on a single person's decisions, even if this person is a core developer. Hard constants and magic numbers in the code deter the system's evolution and therefore should be eliminated (or at least be cut down to the minimum). Every crucial limit (like max block size or min fee amount) should be recalculated based on the system's previous state. Therefore, it always changes adaptively and independently, allowing the network to develop on it's own.
CryptoNote has the following parameters which adjust automatically for each new block:
1) Difficulty. The general idea of our algorithm is to sum all the work that nodes have performed during the last 720 blocks and divide it by the time they have spent to accomplish it. The measure of the work is the corresponding difficulty value for each of the blocks. The time is calculated as follows: sort all the 720 timestamps and cutoff 20% of the outliers. The range of the rest 600 values is the time which was spent for 80% of the corresponding blocks.
2) Max block size. Let MN be the median value of the last N blocks sizes. Then the "hardlimit" for the size of accepting blocks is 2*MN. It averts blockchain bloating but still allows the limit to slowly grow with the time if necessary. Transaction size does not need to be limited explicitly. It is bounded by the size of the block.
Smooth emission
The upper bound for the overall amount of all digital coins is also digital:
MSupply = 2^{64} − 1 atomic units
This is a natural restriction based only on the implementation limits, not on intuition like "N coins ought to be enough for everybody". To make the emission process smoother CryptoNote uses the following formula for block rewards:
BaseReward = (MSupply − A) >> 18
where A is amount of previously generated coins. It gives a predictable growth of the money supply without any breakpoints.
[1] Ronald L. Rivest, Adi Shamir, and Yael Tauman. How to leak a secret. In ASIACRYPT, pages 552–565, 2001
[2] Whitfield Diffie and Martin Hellman. New directions in cryptography. IEEE Transactions on Information Theory 22 (6): 644–654, 1976.
[3] Eiichiro Fujisaki and Koutarou Suzuki. Traceable ring signature. In Public Key Cryptography, pages 181–200, 2007.
BCN Pozadine, baneri
Preporučen BCN Softver
TOP BCN Uređaji za rudarenje
Halong DragonMint X2  248,000 h/s 
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Innosilicon A8 Plus  240,000 h/s 
Bitmain Antminer X3  220,000 h/s 
Innosilicon A8  160,000 h/s 
Halong DragonMint X1  124,000 h/s 
Bytecoin Novčanici
B Wallet  Mobilni 
Bytecoin Desktop Wallet  Desktop 
Bytecoin Money  WEB 
Bytecoin Paper Wallet  Papir 
Cryptonator  WEB, Mobilni 
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