How to Run a Full Bitcoin Node in Your House

[OWL WATCH] Waiting for "IOTA TIME" 30;

Disclaimer: This is sort of my own arbitrary editing, so there could be some misunderstandings.
I root for the spread of good spirits and transparency of IF.
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Hans Moog [IF]어제 오후 2:45
So why don't we just copy Avalanche? Well that's pretty simple ...
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Hans Moog [IF]어제 오후 2:47
1. It doesn't scale very well with the amount of nodes in the network that have no say in the consensus process but are merely consensus consuming nodes (i.e. sensors, edge devices and so on). If you assume that the network will never have more than a few thousand nodes then thats fine but if you want to build a DLT that can cope with millions of devices then it wont work because of the message complexity.
2. If somebody starts spamming conflicts, then the whole network will stop to confirm any transactions and will grind to a halt until the conflict spamming stops. Avalanche thinks that this is not a huge problem because an attacker would have to spend fees for spamming conflicts which means that he couldn't do this forever and would at some point run out of funds.
IOTA tries to build a feeless protocol and a consensus that stops to function if somebody spams conflicts is really not an option for us.
3. If a medium sized validator goes offline due to whatever reason, then the whole network will again stop to confirm any transactions because whenever a query for a nodes opinion can not be answered they reset the counter for consecutive successful voting rounds which will prevent confirmations. Since nodes need to open some ports to be available for queries it is super easy to DDOS validators and again bring the network confirmations to 0.
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Hans Moog [IF]어제 오후 3:05
4. Avalanche still processes transactions in "chunks/blocks" by only applying them after they have gone through some consensus process (gathered enough successfull voting rounds), which means that the nodes will waste a significant amount of time where they "wait" for the next chunk to be finished before the transactions are applied to the ledger state. IOTA tries to streamline this process by decoupling consensus and the booking of transactions by using the "parallel reality based ledger state" which means that nodes in IOTA will never waste any time "waiting" for decisions to be made. This will give us much higher throughput numbers.
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Hans Moog [IF]어제 오후 3:11
5. Avalanche has some really severe game theoretic problems where nodes are incentivized to attach their transactions to the already decided parts of the DAG because then things like conflict spam won't affect these transactions as badly as the transactions issued by honest nodes. If however every node would follow this "better and selfish" tip selection mechanism then the network will stop to work at all.
Overall the "being able to stop consensus" might not be too bad since you can't really do anything really bad (i.e. double spend) which is why we might not see these kind of attacks in the immediate future but just wait until a few DeFi apps are running on their platform where smart contracts are actually relying on more or less real time execution of the contracts. Then there might be some actual financial gains to be made if the contract halts and we might see alot of these things appear (including selfish tip selection).
Avalanche is barely a top 100 project and nobody attacks these kind of low value networks unless there is something to be gained from such an attack. Saying that the fact that its live on mainnet and hasn't been attacked in 3 weeks is a proof for its security is completely wrong.
Especially considering that 95% of all stake are controlled by avalanche itself
If you control > 50% of the voting power then you essentially control the whole network and attacks can mostly be ignored
I guess there is a reason for avalanche only selling 10% of the token supply to the public because then some of the named problems are less likely to appear
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Navin Ramachandran [IF]어제 오후 3:21
I have to say that wtf's suggestion is pretty condescending to all our researchers. It seems heavy on the troll aspect to suggest that we should ditch all our work because iota is only good at industrial adoption. Does wtf actually expect a response to this? Or is this grand standing?
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Hans Moog [IF]어제 오후 3:22
The whole argument of "why don't you just use X instead of trying to build a better version" is also a completely idiotic argument. Why did ETH write their own protocol if Bitcoin was already around? Well because they saw problems in Bitcoins approach and tried to improve it.
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Hans Moog [IF]어제 오후 3:27
u/Navin Ramachandran [IF] Its like most of his arguments ... remember when he said we should implement colored coins in 2nd layer smart contracts instead of the base layer because they would be more expressive (i.e. turing complete) completely discarding that 2nd layer smart contracts only really work if you have a consensus on data and therefore state for which you need the "traceability" of funds to create these kind of mini blockchains in the tangle?
Colored coins "enable" smart contracts and it wouldnt work the other way round - unless you have a platform that works exactly like ETH where all the nodes validate a single shared execution platform of the smart contracts which is not really scalable and is exactly what we are trying to solve with our approach.
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Navin Ramachandran [IF]어제 오후 3:28
Always easier to criticise than build something yourself. But yet he keeps posting these inflammatory posts.
At this point is there any doubt if he is making these comments constructively?
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Hans Moog [IF]어제 오후 3:43
If he at least would try to understand IOTAs vision ... then maybe he wouldn't have to ask things like "Why don't you just copy a tech that only works with fees"
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Hans Moog [IF]어제 오후 4:35
u/Shaar
I thought this would only be used to 'override' finality, eg if there were network splits. But not in normal consensus
That is not correct. Every single transaction gets booked on arrival using the parallel reality based ledger state. If there are conflicts then we create a "branch" (container in the ledger state) that represents the perception that this particular double spend would be accepted by consensus. After consensus is reached, the container is simply marked as "accepted" and all transactions that are associated with this branch are immediately confirmed as well. This allows us to make the node use all of its computing ressources 24/7 without having to wait for any kind of decision to be made and allows us to scale the throughput to its physical limits. That's the whole idea of the "parallel reality based ledger state" instead of designing a data structure that models the ledger state "after consensus" like everybody else is doing it is tailored to model the ledger state "before consensus" and then you just flip a flag to persist your decision. The "resync mechanism" also uses the branches to measure the amount of approval a certain perception of the ledger state receives. So if my own opinion is not in line with what the rest of the network has accepted (i.e. because I was eclipsed or because there was a network split), then I can use the weight of these branches to detect this "being out of sync" and can do another larger query to re-evaluate my decision.(수정됨)
Also what happens in IOTA if DRNG notes would fall out, does the network continue if no new RNGs appear for a while? Or will new nodes be added sufficiently fast to the DRNG committee that no one notices?
Its a comittee and not just a single DRNG provider. If a few nodes fail then it will still produce random numbers. And even if the whole comittee fails there are fallback RNG's that would be used instead
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Hans Moog [IF]어제 오후 4:58
And multiverse doesn't use FPC but only the weight of these branches in the same way as blockchain uses the longest chain wins consensus to choose between conflicts. So nodes simply attach their transactions to the transactions that they have seen first and if there are conflicts then you simply monitor which version received more approval and adjust your opinion accordingly.
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Hans Moog [IF]어제 오후 5:07
We started integrating some of the non-controversial concepts (like the approval reset switch) into FPC and are currently refactoring goshimmer to support this
We are also planning to make the big mana holders publish their opinion in the tangle as a public statement, which allows us to measure the rate of approval in a similar way as multiverse would do it
So its starting to converge a bit but we are still using FPC as a metastability breaking mechanism
Once the changes are implemented it should be pretty easy to simulate and test both approaches in parallel
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Serguei Popov [IF]어제 오후 5:53
So the ask is that we ditch all our work and fork Avalanche because it has not been attacked in the month or so it has been up?
u/Navin Ramachandran [IF] yeah, that's hilarious. Avalanche consensus (at least their WP version) is clearly scientifically unsound.
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Hans Moog [IF]어제 오후 9:43
u/wtf maybe you should research avalanche before proposing such a stupid idea
and you will see that what I wrote is actually true
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Hans Moog [IF]어제 오후 9:44
paying fees is what "protects" them atm
and simply the fact that nobody uses the network for anything of value yet
we cant rely on fees making attack vectors "inattractive"
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Serguei Popov [IF]어제 오후 10:17
well (1.) very obviously the metastability problems are not a problem in practice,
putting "very obviously" before questionable statements very obviously shows that you are seeking a constructive dialogue 📷 (to make metastability work, the adversary needs to more-or-less know the current opinion vectors of most of the honest participants; I don't see why a sufficiently well-connected adversary cannot query enough honest nodes frequently enough to achieve that)
(2.) .... you'd need an unpredictable number every few tens/hundreds milliseconds, but your DRNG can only produce one every O(seconds).
the above assumption (about "every few tens/hundreds milliseconds") is wrong
We've had this discussion before, where you argued that the assumptions in the FPC-BI paper (incl. "all nodes must be known") are not to be taken 100% strictly, and that the results are to be seen more of an indication of overall performance.
Aham, I see. So, unfortunately, all that time that I invested into explaining that stuff during our last conversation was for nothing. Again, very briefly. The contents of the FPC-BI paper is not "an indication of overall performance". It rather shows (to someone who actually read and understood the paper) why the approach is sound and robust, as it makes one understand what is the mechanism that causes the consensus phenomenon occur.
Yet you don't allow for that same argument to be valid for the "metastability" problem in avalanche,
Incorrect. It's not "that same argument". FPC-BI is a decent academic paper that has precisely formulated results and proofs. The Ava WP (the probabilistic part of it), on the other hand, does not contain proofs of what they call results. More importantly, they don't even show a clear path to those proofs. That's why their system is scientifically unsound.
even when there's a live network that shows that it doesn't matter.
No, it doesn't show that it doesn't matter. It only shows that it works when not properly attacked. Their WP doesn't contain any insight on why those attacks would be difficult/impossible.
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Hans Moog [IF]어제 오후 10:56
That proposal was so stupid - Avalanche does several things completely different and we are putting quite a bit og effort into our solution to pretty much fix all of Avalanches shortcomings
If we just wanted to have a working product and dont care about security or performance then we could have just forked a blockchaib
I am pretty confident that once we are done - its going to be extremely close to the besttheoretical thresholds that DLTs will ever be able to achieve for an unsharded baselayer
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Bas어제 오전 2:43
Yesterday I was asked how a reasonably big company no one has heard of could best move forward implementing Access for thousands of locations worldwide. (Sorry for the vagueness, it’s all confidential.) They read the article and want to implement it because it seems to fit a problem they’re currently trying to solve. Such moves will vastly increase the utility of protocols like IOTA, and is what the speculation is built on. I do not think you can overestimate what impact Access is going to have. It’s cutting out the middleman for simple things; no server or service needed. That’s huge.
So yes, I think this space will continue to grow u/Coinnave

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Angelo Capossele [IF]2020.10.02.
In short: we are planning a new v0.3.0 release that should happen very soon. This version will bring fundamental changes to the structure of the entire codebase (but without additional features) so that progressing with the development will be easier and more consistent. We have also obtained outstanding results with the dRNG committee managed by the GoShimmer X-Team, so that will also be integral part of v0.3.0. After that, we will merge the Value Tangle with the Message Tangle, so to have only one Tangle and make the TSA and the orphanage easier to manage. And we are also progressing really well with Mana, that will be the focus after the merge. More or less this is what is going to happen this month.
We will release further details with the upcoming Research Status Update 📷

submitted by btlkhs to Iota [link] [comments]

Bitcoin (BTC)A Peer-to-Peer Electronic Cash System.

Bitcoin (BTC)A Peer-to-Peer Electronic Cash System.
  • Bitcoin (BTC) is a peer-to-peer cryptocurrency that aims to function as a means of exchange that is independent of any central authority. BTC can be transferred electronically in a secure, verifiable, and immutable way.
  • Launched in 2009, BTC is the first virtual currency to solve the double-spending issue by timestamping transactions before broadcasting them to all of the nodes in the Bitcoin network. The Bitcoin Protocol offered a solution to the Byzantine Generals’ Problem with a blockchain network structure, a notion first created by Stuart Haber and W. Scott Stornetta in 1991.
  • Bitcoin’s whitepaper was published pseudonymously in 2008 by an individual, or a group, with the pseudonym “Satoshi Nakamoto”, whose underlying identity has still not been verified.
  • The Bitcoin protocol uses an SHA-256d-based Proof-of-Work (PoW) algorithm to reach network consensus. Its network has a target block time of 10 minutes and a maximum supply of 21 million tokens, with a decaying token emission rate. To prevent fluctuation of the block time, the network’s block difficulty is re-adjusted through an algorithm based on the past 2016 block times.
  • With a block size limit capped at 1 megabyte, the Bitcoin Protocol has supported both the Lightning Network, a second-layer infrastructure for payment channels, and Segregated Witness, a soft-fork to increase the number of transactions on a block, as solutions to network scalability.

https://preview.redd.it/s2gmpmeze3151.png?width=256&format=png&auto=webp&s=9759910dd3c4a15b83f55b827d1899fb2fdd3de1

1. What is Bitcoin (BTC)?

  • Bitcoin is a peer-to-peer cryptocurrency that aims to function as a means of exchange and is independent of any central authority. Bitcoins are transferred electronically in a secure, verifiable, and immutable way.
  • Network validators, whom are often referred to as miners, participate in the SHA-256d-based Proof-of-Work consensus mechanism to determine the next global state of the blockchain.
  • The Bitcoin protocol has a target block time of 10 minutes, and a maximum supply of 21 million tokens. The only way new bitcoins can be produced is when a block producer generates a new valid block.
  • The protocol has a token emission rate that halves every 210,000 blocks, or approximately every 4 years.
  • Unlike public blockchain infrastructures supporting the development of decentralized applications (Ethereum), the Bitcoin protocol is primarily used only for payments, and has only very limited support for smart contract-like functionalities (Bitcoin “Script” is mostly used to create certain conditions before bitcoins are used to be spent).

2. Bitcoin’s core features

For a more beginner’s introduction to Bitcoin, please visit Binance Academy’s guide to Bitcoin.

Unspent Transaction Output (UTXO) model

A UTXO transaction works like cash payment between two parties: Alice gives money to Bob and receives change (i.e., unspent amount). In comparison, blockchains like Ethereum rely on the account model.
https://preview.redd.it/t1j6anf8f3151.png?width=1601&format=png&auto=webp&s=33bd141d8f2136a6f32739c8cdc7aae2e04cbc47

Nakamoto consensus

In the Bitcoin network, anyone can join the network and become a bookkeeping service provider i.e., a validator. All validators are allowed in the race to become the block producer for the next block, yet only the first to complete a computationally heavy task will win. This feature is called Proof of Work (PoW).
The probability of any single validator to finish the task first is equal to the percentage of the total network computation power, or hash power, the validator has. For instance, a validator with 5% of the total network computation power will have a 5% chance of completing the task first, and therefore becoming the next block producer.
Since anyone can join the race, competition is prone to increase. In the early days, Bitcoin mining was mostly done by personal computer CPUs.
As of today, Bitcoin validators, or miners, have opted for dedicated and more powerful devices such as machines based on Application-Specific Integrated Circuit (“ASIC”).
Proof of Work secures the network as block producers must have spent resources external to the network (i.e., money to pay electricity), and can provide proof to other participants that they did so.
With various miners competing for block rewards, it becomes difficult for one single malicious party to gain network majority (defined as more than 51% of the network’s hash power in the Nakamoto consensus mechanism). The ability to rearrange transactions via 51% attacks indicates another feature of the Nakamoto consensus: the finality of transactions is only probabilistic.
Once a block is produced, it is then propagated by the block producer to all other validators to check on the validity of all transactions in that block. The block producer will receive rewards in the network’s native currency (i.e., bitcoin) as all validators approve the block and update their ledgers.

The blockchain

Block production

The Bitcoin protocol utilizes the Merkle tree data structure in order to organize hashes of numerous individual transactions into each block. This concept is named after Ralph Merkle, who patented it in 1979.
With the use of a Merkle tree, though each block might contain thousands of transactions, it will have the ability to combine all of their hashes and condense them into one, allowing efficient and secure verification of this group of transactions. This single hash called is a Merkle root, which is stored in the Block Header of a block. The Block Header also stores other meta information of a block, such as a hash of the previous Block Header, which enables blocks to be associated in a chain-like structure (hence the name “blockchain”).
An illustration of block production in the Bitcoin Protocol is demonstrated below.

https://preview.redd.it/m6texxicf3151.png?width=1591&format=png&auto=webp&s=f4253304912ed8370948b9c524e08fef28f1c78d

Block time and mining difficulty

Block time is the period required to create the next block in a network. As mentioned above, the node who solves the computationally intensive task will be allowed to produce the next block. Therefore, block time is directly correlated to the amount of time it takes for a node to find a solution to the task. The Bitcoin protocol sets a target block time of 10 minutes, and attempts to achieve this by introducing a variable named mining difficulty.
Mining difficulty refers to how difficult it is for the node to solve the computationally intensive task. If the network sets a high difficulty for the task, while miners have low computational power, which is often referred to as “hashrate”, it would statistically take longer for the nodes to get an answer for the task. If the difficulty is low, but miners have rather strong computational power, statistically, some nodes will be able to solve the task quickly.
Therefore, the 10 minute target block time is achieved by constantly and automatically adjusting the mining difficulty according to how much computational power there is amongst the nodes. The average block time of the network is evaluated after a certain number of blocks, and if it is greater than the expected block time, the difficulty level will decrease; if it is less than the expected block time, the difficulty level will increase.

What are orphan blocks?

In a PoW blockchain network, if the block time is too low, it would increase the likelihood of nodes producingorphan blocks, for which they would receive no reward. Orphan blocks are produced by nodes who solved the task but did not broadcast their results to the whole network the quickest due to network latency.
It takes time for a message to travel through a network, and it is entirely possible for 2 nodes to complete the task and start to broadcast their results to the network at roughly the same time, while one’s messages are received by all other nodes earlier as the node has low latency.
Imagine there is a network latency of 1 minute and a target block time of 2 minutes. A node could solve the task in around 1 minute but his message would take 1 minute to reach the rest of the nodes that are still working on the solution. While his message travels through the network, all the work done by all other nodes during that 1 minute, even if these nodes also complete the task, would go to waste. In this case, 50% of the computational power contributed to the network is wasted.
The percentage of wasted computational power would proportionally decrease if the mining difficulty were higher, as it would statistically take longer for miners to complete the task. In other words, if the mining difficulty, and therefore targeted block time is low, miners with powerful and often centralized mining facilities would get a higher chance of becoming the block producer, while the participation of weaker miners would become in vain. This introduces possible centralization and weakens the overall security of the network.
However, given a limited amount of transactions that can be stored in a block, making the block time too longwould decrease the number of transactions the network can process per second, negatively affecting network scalability.

3. Bitcoin’s additional features

Segregated Witness (SegWit)

Segregated Witness, often abbreviated as SegWit, is a protocol upgrade proposal that went live in August 2017.
SegWit separates witness signatures from transaction-related data. Witness signatures in legacy Bitcoin blocks often take more than 50% of the block size. By removing witness signatures from the transaction block, this protocol upgrade effectively increases the number of transactions that can be stored in a single block, enabling the network to handle more transactions per second. As a result, SegWit increases the scalability of Nakamoto consensus-based blockchain networks like Bitcoin and Litecoin.
SegWit also makes transactions cheaper. Since transaction fees are derived from how much data is being processed by the block producer, the more transactions that can be stored in a 1MB block, the cheaper individual transactions become.
https://preview.redd.it/depya70mf3151.png?width=1601&format=png&auto=webp&s=a6499aa2131fbf347f8ffd812930b2f7d66be48e
The legacy Bitcoin block has a block size limit of 1 megabyte, and any change on the block size would require a network hard-fork. On August 1st 2017, the first hard-fork occurred, leading to the creation of Bitcoin Cash (“BCH”), which introduced an 8 megabyte block size limit.
Conversely, Segregated Witness was a soft-fork: it never changed the transaction block size limit of the network. Instead, it added an extended block with an upper limit of 3 megabytes, which contains solely witness signatures, to the 1 megabyte block that contains only transaction data. This new block type can be processed even by nodes that have not completed the SegWit protocol upgrade.
Furthermore, the separation of witness signatures from transaction data solves the malleability issue with the original Bitcoin protocol. Without Segregated Witness, these signatures could be altered before the block is validated by miners. Indeed, alterations can be done in such a way that if the system does a mathematical check, the signature would still be valid. However, since the values in the signature are changed, the two signatures would create vastly different hash values.
For instance, if a witness signature states “6,” it has a mathematical value of 6, and would create a hash value of 12345. However, if the witness signature were changed to “06”, it would maintain a mathematical value of 6 while creating a (faulty) hash value of 67890.
Since the mathematical values are the same, the altered signature remains a valid signature. This would create a bookkeeping issue, as transactions in Nakamoto consensus-based blockchain networks are documented with these hash values, or transaction IDs. Effectively, one can alter a transaction ID to a new one, and the new ID can still be valid.
This can create many issues, as illustrated in the below example:
  1. Alice sends Bob 1 BTC, and Bob sends Merchant Carol this 1 BTC for some goods.
  2. Bob sends Carols this 1 BTC, while the transaction from Alice to Bob is not yet validated. Carol sees this incoming transaction of 1 BTC to him, and immediately ships goods to B.
  3. At the moment, the transaction from Alice to Bob is still not confirmed by the network, and Bob can change the witness signature, therefore changing this transaction ID from 12345 to 67890.
  4. Now Carol will not receive his 1 BTC, as the network looks for transaction 12345 to ensure that Bob’s wallet balance is valid.
  5. As this particular transaction ID changed from 12345 to 67890, the transaction from Bob to Carol will fail, and Bob will get his goods while still holding his BTC.
With the Segregated Witness upgrade, such instances can not happen again. This is because the witness signatures are moved outside of the transaction block into an extended block, and altering the witness signature won’t affect the transaction ID.
Since the transaction malleability issue is fixed, Segregated Witness also enables the proper functioning of second-layer scalability solutions on the Bitcoin protocol, such as the Lightning Network.

Lightning Network

Lightning Network is a second-layer micropayment solution for scalability.
Specifically, Lightning Network aims to enable near-instant and low-cost payments between merchants and customers that wish to use bitcoins.
Lightning Network was conceptualized in a whitepaper by Joseph Poon and Thaddeus Dryja in 2015. Since then, it has been implemented by multiple companies. The most prominent of them include Blockstream, Lightning Labs, and ACINQ.
A list of curated resources relevant to Lightning Network can be found here.
In the Lightning Network, if a customer wishes to transact with a merchant, both of them need to open a payment channel, which operates off the Bitcoin blockchain (i.e., off-chain vs. on-chain). None of the transaction details from this payment channel are recorded on the blockchain, and only when the channel is closed will the end result of both party’s wallet balances be updated to the blockchain. The blockchain only serves as a settlement layer for Lightning transactions.
Since all transactions done via the payment channel are conducted independently of the Nakamoto consensus, both parties involved in transactions do not need to wait for network confirmation on transactions. Instead, transacting parties would pay transaction fees to Bitcoin miners only when they decide to close the channel.
https://preview.redd.it/cy56icarf3151.png?width=1601&format=png&auto=webp&s=b239a63c6a87ec6cc1b18ce2cbd0355f8831c3a8
One limitation to the Lightning Network is that it requires a person to be online to receive transactions attributing towards him. Another limitation in user experience could be that one needs to lock up some funds every time he wishes to open a payment channel, and is only able to use that fund within the channel.
However, this does not mean he needs to create new channels every time he wishes to transact with a different person on the Lightning Network. If Alice wants to send money to Carol, but they do not have a payment channel open, they can ask Bob, who has payment channels open to both Alice and Carol, to help make that transaction. Alice will be able to send funds to Bob, and Bob to Carol. Hence, the number of “payment hubs” (i.e., Bob in the previous example) correlates with both the convenience and the usability of the Lightning Network for real-world applications.

Schnorr Signature upgrade proposal

Elliptic Curve Digital Signature Algorithm (“ECDSA”) signatures are used to sign transactions on the Bitcoin blockchain.
https://preview.redd.it/hjeqe4l7g3151.png?width=1601&format=png&auto=webp&s=8014fb08fe62ac4d91645499bc0c7e1c04c5d7c4
However, many developers now advocate for replacing ECDSA with Schnorr Signature. Once Schnorr Signatures are implemented, multiple parties can collaborate in producing a signature that is valid for the sum of their public keys.
This would primarily be beneficial for network scalability. When multiple addresses were to conduct transactions to a single address, each transaction would require their own signature. With Schnorr Signature, all these signatures would be combined into one. As a result, the network would be able to store more transactions in a single block.
https://preview.redd.it/axg3wayag3151.png?width=1601&format=png&auto=webp&s=93d958fa6b0e623caa82ca71fe457b4daa88c71e
The reduced size in signatures implies a reduced cost on transaction fees. The group of senders can split the transaction fees for that one group signature, instead of paying for one personal signature individually.
Schnorr Signature also improves network privacy and token fungibility. A third-party observer will not be able to detect if a user is sending a multi-signature transaction, since the signature will be in the same format as a single-signature transaction.

4. Economics and supply distribution

The Bitcoin protocol utilizes the Nakamoto consensus, and nodes validate blocks via Proof-of-Work mining. The bitcoin token was not pre-mined, and has a maximum supply of 21 million. The initial reward for a block was 50 BTC per block. Block mining rewards halve every 210,000 blocks. Since the average time for block production on the blockchain is 10 minutes, it implies that the block reward halving events will approximately take place every 4 years.
As of May 12th 2020, the block mining rewards are 6.25 BTC per block. Transaction fees also represent a minor revenue stream for miners.
submitted by D-platform to u/D-platform [link] [comments]

What are some Problems with Bitcoin?

Bitcoin is a revolutionary technology that is already changing the world — but it is not perfect. Most notable are its ease-of-use issues that may make mainstream adoption difficult, if not impossible. Listed below are some of the existing faults with Bitcoin and its practical usage.
submitted by Boomah422 to bitcointhetrilema [link] [comments]

Proposed method to email crypto-coins directly.

Below are some ideas I have been working on to allow direct off-blockchain transfer of Bitcoin Private Keys while preventing Double-Spend and Counterfeiting . There is a reference to tamper-proof Physical Bitcoin as DA BOMB- Directly Available Bitcoin On Metal Banknotes. These Physical Bitcoins and their digitally encrypted representations are the basis for off-blockchain exchange of value. Off-Blockchain exchanges are completely private and as fast as sending an email.

FAST BITCOIN

Daily settlement between corporations, instant settlement on trading or funded shopping channels, physical bitcoin possession for investors .
Each platform which offers FAST BITCOIN will purchase a large amount of DA BOMB to power their digital envelope re-sale network. All networks will be compatible and fungible assets composed of.
When a customer places an order for DA BOMB I load a certain amount of BTC in various denominations onto a selection of bitcoin wallets, which are then manufactured as physical bitcoin.
This amount of BTC is the amount this customer can spend on the FAST BITCOIN network.
The Bitcoin the customer spends never moves on the BTC Blockchain.
The envelope containing the customer’s BTC is credited or debited a certain combination of addresses that contain a known amount of BTC, adding up to the exact amount of the transaction.
Transactions can only be made in ROUND NUMBERS of a certain resolution, such as 0.0001 BTC , and the resolution will be finer at a later date to account for the rise of value of BTC in the future.
The contents of a customer’s envelope will be maintained to allow for making change and to account for his spending or funding of his account.
The main issuer of FAST BITCOIN will be Satoshi Bitcoin Incorporated, with other platforms buying enough DA BOMB to issue their own FAST BITCOIN on their own shopping platforms.
Customers can always write to the platform and request that their remaining envelope balance be mailed to their physical address.
The envelope contents are tracked on a separate blockchain, the FAST BITCOIN blockchain.
Customers can use their physical bitcoin like paper money, or break the hologram seal and view the private key to use as regular bitcoin on the bitcoin blockchain.
Only TRUSTED NODES are on the FAST BITCOIN Blockchain. The Network is composed of the corporate members who offer FAST BITCOIN shopping at their websites, and join by invitation only. Large networks can fuel their own branded shopping tokens with FAST BITCOIN after paying a co-branding fee, or simply use FAST BITCOIN without re-branding to their own token name.
Software can equate all prices at a website to the token value of choice on the platform, so that the shopper may make purchases via FAST BITCOIN while referring to prices in stable fiat equivalent tokens, or re-branded token values.
The customer’s purchasing power varies with the price of Bitcoin, but the visible prices remain stable.
The customer may buy a StableCoin (not Tethers) to fund all or part of their account, or switch from BTC to StableCoin at will; or let the system do this for him. BTC going up, funding remains in BTC, BTC going down, Funding switches too StableCoin.
A purely electronic version of FAST BITCOIN will rely on a hardware device to store the private keys offline and always in encrypted form when connected to the internet.
There is object “A” : the FAST BITCOIN Wallet
There is object “B” : the individual private keys
The system works with a combination of Master System Key Encryption and Asymmetrical Key Encryption.
The Hardware device is called a SPLIT WALLET. It is a combination of a HOT WALLET and a COLD WALLET. The two halves of the split wallet can only communicate with each other when the device is unplugged from the device being used to access the Internet.
The Master System Key resides on the Cold Wallet and can’t be viewed without destroying the function of the Hardware Wallet.
To send bitcoin to a person on the network, the hardware wallet takes the addresses needed to add up to the desired amount and encrypts them with the PUBLIC KEY of the receiving device.
The BITCOIN CASH BLOCKCHAIN is used as a KEY SERVER to store the PUBLIC KEY of every device manufactured, linked to its registration number and owner identity. The OWNER IDENTITY is an EMAIL ADDRESS which is [[email protected]_BITCOIN.COM](mailto:[email protected]_bitcoin.com) .
The addresses are encrypted by the SYSTEM MASTER KEY , then by the RECIPIENT PUBLIC KEY and emailed to the above email address.
The whole network is sustained by a peer-to-peer email remailer network. Software on the machine used by the hardware device to connect to the INTERNET is designed to run a peer-to-peer email remailer node.
As well as sending the recipient an email via the re-mailer network, an entry is made on the BITCOIN CASH BLOCKCHAIN containing the double encrypted bitcoin private keys, recipient email address, and transaction identifier . This also contains the device registration number as part of the owner email address.
Thus even if the domain is blocked from sending email the information needed to use the bitcoin is available from the data stored on the BITCOIN CASH BLOCKCHAIN.
The value of Bitcoin Cash does not impact the cost of sending bitcoin, since the transaction sizes to record data on its blockchain are very small.

When FAST BITCOIN is sent to a recipient, he must plug his hardware device into a laptop, phone, or other internet device to download the keys to the device. At this time while the hardware device is still connected to the internet the just received FAST BITCOIN will not yet be available to spend. It will show on the device as STILL ENCRYPTED. The user unplugs the device from the internet and then transfers the amount from the COLD SIDE to the HOT SIDE of his wallet while offline. If he wishes he may leave this amount on the COLD SIDE or transfer up to the entire contents of the SPLIT WALLET to the HOT SIDE to enable immediate spending as soon as connected to the internet.
The COLD SIDE contains the SYSTEM MASTER KEY and decrypts the PRIVATE BITCOIN KEYS in order to enable spending.
The hardware device checks the bitcoin blockchain to verify the amount of bitcoin held by each bitcoin private key, and also checks that the private keys it contains map properly to the public bitcoin keys used to view the balance on the device when it is connected to the internet.

DA Bomb

Directly Available Bitcoin On Metal Banknote (Da Bomb)
Bitcoin Metal Wallet Cold Storage on BTC Blockchain. A Crypto-Currency version of money, which may be exchanged for fiat currency.
Other major cryptos such as Ethereum , LiteCoin, and Bitcoin Cash may be substituted for bitcoin without affecting the usefulness of this offering. These versions will come out later, using the same physical format. (hopefully patented)
The design of the card should be modified enough from any existing patents to be patentable itself. The manufacturing, loading and documenting of the card should be done by proprietary and open-source software. This process should be patented as well or be part of the same patent.
These are physical BTC coins, in the form of a metal card the size and shape of a credit card. The Bitcoin Wallet is composed of two sets of engraved alpha-numeric and QR codes highlighted by black ink. One set is public and is on the outside of the card. A pull-tab almost exactly like the kind on a soup can is removed from the front of the card to reveal the inner contents . This is the engraving of the private key which is required to spend the BTC. Viewing it or detecting the exact nature of this code is equivalent to ownership of the associated BTC.
The public key on the outside of the card is used to deposit to or send to the card. In normal operations the card would come loaded with a certain amount of BTC.
The cards will be protected by security features and the quality control process during their manufacture.
The cards will be dipped in a coating of compounds to indicate a unique identity for each card, with short lengths of coloured fibres and paint floating on the surface of the clear lacquer compound and creating a unique visual identity. Each card is photographed and the image file uploaded to a database with the blockchain address and item id from manufacture all associated together.
A label is created and affixed to the outside of the card. On it are the blockchain address, photo of the untampered card, and amount of BTC deposited to card.
The private keys are not retained in file form at the manufacturer’s facility, or recorded in any way.
Before the key is deleted from memory and fully erased from all data storage devices, the photo of the engraving of it is compared to the key via character recognition software. When photo verifies as true then key is deleted from memory. Now the card is tracked by my own “in-house” item id, linked in the database to the blockchain address which displays the public key, and the photo file of the card. The card is photographed twice, the photo of the private key is deleted just after verifying the engraving matches the private key. The photo of the exterior of the card showing the paint lines and fibre positions on the card is kept on file. The offline computer takes the photo of the private key, the online computer takes the photo of the card after dipping.
The card is meant to circumvent the horribly high fees associated with using BTC as a payment method. Possession of the card is deemed to be legally equivalent to the ability to spend the associated BTC available via the private key. The nature of the tamper proof and hack proof aspects of the card manufacture lends credence to the continued value of the card as it is passed through consecutive transactions. The fees which would have been normally paid to enable these transactions on the Blockchain, will now have been saved by the people utilizing the physical Bitcoin cards. The Bitcoin transactions on the Blockchain are enabled by paying fees to “bitcoin miners”, who use large amounts of energy and computing power to solve complicated mathematical problems in order to process transactions and also to earn newly created bitcoins, of which there will only ever be 21,000,000. The fees for bitcoin transactions have become so high that paying for an item with bitcoin wouldn’t make sense for anything under $280 or so; and you had better be rich enough not to care about the $30 to $75 fee to buy just about any size purchase.
Instead of this, cold wallets containing small denominations of BTC can be exchanged via strong encryption and sending password and wallet via different delivery modes; or by physical bitcoin wallets.
At any time one may pull the tab on the metal card and reveal the private key, in order to obtain control of the BTC for use in a different cold wallet, or an online wallet. You will now have to pay transaction fees as per your new wallet details.
There is an instant financial advantage as soon as a group of people trust the value of physical bitcoin in transactions. All the miner fees for each transaction done with physical bitcoin are saved by the group. These transactions are valued in BTC, worth real dollars if exchanged for dollars; but with the dollar value always changing.
Volatility is a fact of life with Bitcoin (BTC), but the market has always trended upwards if you wait long enough. And the value has often nose-dived as well, in an unpredictable manner. A lot of people are holding (or “hodling”) BTC as a very risky and speculative investment, hoping the price will go up.
There is a great demand for bitcoin and that demand is going to increase in the near future.
How will I pay to load the BTC on to the cards? The cards will be loaded on an “on-demand” order process. The cards can be made up to a certain stage, where they have been dipped in tamper-proofing but not yet labeled. Up to this point they can be any denomination (amount) of BTC. When the payment for the order is taken at the online website then the card is loaded, labeled and shipped to the customer.
Besides the metal coin wallets denominated in various amounts of BTC; there will be “piggy-bank” versions of the card available. The BTC is loaded onto the card via the visible wallet public key engraved on the front of the card. The card owner can be paid debts owed to him via the public key. The card owner can send any amount of BTC to this receive address and it will become associated via the blockchain with the private key hidden inside the card. To spend the BTC loaded onto the card he will have to view the private key and send it to the hot wallet he uses online. Technical advice about fees, security, hacking and safety will be available at the company website, as well as many other helpful resources.
The denominated versions of the card are identical to the piggy-bank versions except for the label. The label covers the “receive” address on the denominated versions, as no further deposits to the blockchain are needed. The label on the piggy-bank version doesn’t cover the public key address, has a photo of the card and the manufacturer’s ID number. It also has a link to the Blockchain.info webpage associated with the public key address. Anyone with this address can see how much BTC is associated with the Public Key shown here.
Thus the intact tamper-proof BTC Card can be used with confidence, as the public key can be viewed on the Blockchain by anyone. As long as the amount on the card label matches the amount shown on the Blockchain.info webpage then the card’s private key can be trusted. This renders the card a form of “trust-less” currency equivalent to legal tender in value and usefulness .
The card format and manufacturing process is tested to obtain a hack proof product. The private key is not detectable by examination or any technical means without opening the pull-tab. This is essential to prevent theft and fraud. The card can not be opened, viewed , and sealed again.
A card without a label would be suspect, a card which had been opened and re-sealed obvious. Checking the blockchain address reveals the status of the BTC in question in any event.
The manufacturing process is outlined below:

The engraving is deep enough to be permanent but still not detected while wallet card is in closed position. The alpha-numeric and QR code versions of the keys are engraved and inked.
After the engraving, the private key is deleted from memory of the engraving controlling computer. This computer is never connected to the internet. Only verified software is used on this computer.
A separate computer controls the camera, label maker, and database connection to the internet.

The same file is used to generate the labels.
Addresses are checked for BTC before coin Cards are offered for sale. A second stamp is placed on label when transaction confirms.
Coin is offered for sale at Amazon.com if allowed.
Coins can be exchanged as if fiat currency, with full confidence in BTC amount displayed on seal.
Sale price on Amazon will reflect BTC amount cost when loaded- possibly a great deal if BTC has gone up since loading, or actual cost of production plus 2%, plus miner fee and distribution fee.
Savings could be significant if BTC surges in value after coins are minted. coins are bought at time of minting by purchases of BTC at market price.
“Would you like to buy some free money?”
Demand for product is assured, as the value once for sale at Amazon increases over time. You will not be able to find cheaper bitcoin anywhere, sometimes. A small portion of my stock at Amazon will remain on sale at a very low price when the Bitcoin price rises. I plan on adjusting the price of my stock to reflect the current price of Bitcoin at the time; but not all of it, and not immediately. Every time the price of BTC increases by 10%, I will reset the price of my cards to initial values.
The initial values are the current price of BTC plus 2% , miner fees and distribution costs. As the market price increases after loading the cards, they are more and more of a deal for the customer.
This forms the basis of a great promotional value to sell the metal card coin wallets.
The profit.
Profit is calculated to be 2% of the BTC value when minted. Values from 0.001 BTC to 1 BTC are minted. This generates from $0.18 Cad to $180 CAD per card depending on value. I will focus on minting in the 0.01 to 0.11 BTC range, with profits of $1.80 to $19.80 a card.
customer pays: Cost of BTC when minted
miner fees, distribution fees, 2% over cost fee, Cost of manufacture. I estimate all costs not BTC or profit to be about $11 Cad per card.
Price of card is: BTC cost + 2% + $11.00 .
After purchase the card can be traded for cash, items or value of services. Miner fees are saved by every person after the initial purchaser of the card.
I want to mint around 1000 cards a day. This averages out to $18,000 profit per day.
The plan is to produce only lower value coin wallets until cash reserves are big enough to pay for larger denominations.
Customers can order from the lower denominations in stock or special order cards of any amount that they pay for at the time, shipped after production on demand.
This involves simply loading the customer’s purchase of BTC onto the card address and attaching the label.
As the price of BTC rises then stock available and loaded previously will be a special discount offer until the price resets after a ten percent increase in the BTC market value.
When selling the BTC coin metal cards at Amazon.com :

Card is dipped in clear sealer with paint filaments floating in dip tank. Also small lengths of coloured fibre are floating in the resin coating. The unique pattern formed is photographed and printed on label stored in database with item number. Private key is not stored.
Sell in vending machines in Japan, Airports,New York Subway System, Pizza Hut, etc.
On the Directly Available Bitcoin On Metal Banknote (Da Bomb), the blockchain webpage address of the public key is displayed. To check that BTC are in the account, just go to that page. Unless tampered with, BTC amount will match that shown on label.
Full label is artwork, denomination in BTC, photo and blockchain.info webpage address associated with public key.
This idea is patentable due to the unique packaging of the cold bitcoin wallet in a pull-tab metal card. In this writing read “coin” as “card” as well. The card is evolved out of a sardine can with a pull tab lid closure, with very short sides and pressed flat all around the edge.
The goal is to have a design where the pull tab can easily be removed by an adult. It should be hard for a child to open without being shown how. The card should be only slightly thicker than a regular credit card, and not open while in a leather wallet’s card holder.The pull tab should not open accidentally while being carried in a wallet. The pull tab will be manufactured so that it must be rotated by 180 degrees before opening. A small screwdriver, nail file or fingernail must be placed into a small slot to twist the pull tab into the correct position to open, before this it is restrained by a shallow metal lip on the top of the card.
Research and development are required for this idea to be a success. The manufacturing process, security features and bitcoin loading and labeling must all be tested and verified as hack and tamper-proof. The customer must never receive a hacked or empty or unloaded card after purchase and delivery.
Attempts at fraud by the customer will be obvious. Only Intact cards will be accepted for refund. Product must always ship in perfect condition, as customer can only return intact card for full refund, no opened, missing or tampered with cards will be credited to customer for refund, and this will be part of the agreement with the customer at time of purchase. Before refund the balance of the card must match the denomination on the label.
Notes on manufacturing process:



In the above I refer to not recording the private keys and deleting the server records as soon as the cards have been manufactured and checked for accuracy. please note that the recording of the private key for a certain amount of DA BOMB is required to power the FAST BITCOIN encrypted private key network.

thank-you
submitted by bubbleHead3 to emailcoin [link] [comments]

What I Learned Burning $13,867 on YouTube Ads

This is also available as a blog post with images.

What I Learned Burning $13,867 on YouTube Ads

YouTube allows you to pay to show an ad before a video plays.
Since Candy Japan is a service aimed at people with some interest in Japan, and there is an endless supply of videos aimed at the same audience, it seemed that it was worth a shot to try to advertise there. After all even a small chance at finding a new major source of conversions makes it worth a try.
Here's what I learned along the way from creating the video all the way to tweaking the ad campaign and finally looking at the results.

Creating an ad for YouTube

With AdWords you just need three lines of text, but to advertise on YouTube you need a video to show. It doesn't need to be long though. Even 30 seconds will do. But when it comes to creating video, that's actually a pretty long time.
The major types of videos are screencasts, live action or an animation. Screencasts might work well if you were trying to sell an app or a game, but wasn't really applicable for a candy subscription service. I considered a live video showing the candy boxes being delivered, or an animated explainer video. Since the people viewing my ad had a high likelihood of also liking anime, I figured an ad in a similar style might be a good match.

Process & cost of creating an animated ad

I found some examples indicating that an animation would cost about $100 - $150 per second to make. Given that a typical YouTube ad is 30 seconds, you can see this gets expensive fast.
I found two options: either hire an animation studio, or work with a freelancer. Since I had already worked with an artist to create the manga illustration for the site, I asked him if he might be able to create an animation too.
Me and my wife came up with a quick storyboard, just using stick figures. I compiled them into a slideshow, wrote the voiceover dialog and mumbled it out while flipping the slides to create the timings.
Based on our stick figure slides, the artist drew up keyframes. That moved things forward, as we could now discuss particular changes we wanted.
Based on my mumblings I ordered a voiceover with a professional actress reading out the lines properly. The voiceover cost was about $100, which seemed relatively cheap now, as I was already paying about $3000 for the animation.
With rough sketches and a voice track timed to them, work could start to turn them into final animation assets.
The whole process from finding someone able to do this to actually having an uploadable video took 4 months. I imagine that going with a studio might have been a better choice, as the cost would have been similar but the turnaround time would likely have been much faster.
Here's the end result. If the video tingles your weeaboo senses, that's intentional, as I want clearly uninterested people to skip the video as fast as possible. I'll explain why next.

You've got to spend money to spend money

Now after spending a lot of money to create an ad, you can finally get started spending even more money showing the ad to people.
YouTube itself is used to upload the video. You can make it unlisted if you want. Then to get the ad to appear before videos ("In-stream ad"), you use AdWords to create a campaign. The YouTube video ID is used to link the AdWords ad with the video.

How YouTube ads are priced

Just like AdWords, the cost of an ad view is based on an auction between advertisers. However the auction is not based on clicks, but on views. To enter this auction the minimum bid is $0.01 per view, which might sound low, but isn't really.
Internet advertising is usually priced in terms of 1000 views, called the CPM rate. The low end starts at much less than a dollar, for example advertising on Explain XKCD costs about $0.20 per 1000 views. Mid range would be single digits, say $3 for showing an ad on Cult of Mac. The upper range is low double digits, for instance a banner on bitcoin.com costs $30 per 1000 views.
Translating the YouTube ads "per view" thinking into CPM: $0.01 per view would be $10 CPM. And this is just the minimum bid that it is possible to pay. Bidding this low probably wouldn't get you many views, and I found myself bidding much higher (equivalent to actual TV ad prices) to get just enough views to determine whether my campaigns were working at all.
Now the good news: you don't have to pay if someone quickly skips your video! So if you manage to come up with an ad that is completely uninteresting to people outside of your target audience such that they skip it immediately, you don't have to pay for those views.
I found that 30% of people would actually watch our ad (70% skip). When you take into account that only 30% of people will watch the ad, a more accurate comparison with banner ads would be an interstitial ad with a $3 CPM minimum (1000 impressions * 30% view ad * $0.01).
Now you might understand why I want to get people not in my target audience to skip – it's cheaper because you don't pay when people skip your ad!

Targeting options

Compared to TV advertising, YouTube really shines with all the options you have for showing your ad to only your desired audience. The main targeting options are topics, placements and audiences. Topics and placements control which videos your ad is shown against, while audiences allow you to show ads based on who is viewing the ad.

Topics

It would be a huge pain to have to individually select thousands of videos to show your ad against. That's where topics come in, as they are pre-made groups of videos relating to a certain subject.
For example if you are trying to market a strategy game, you are in luck, because there is a topic just for that.

Placements

With placements you can show your ad before a certain video, or before all the videos of your chosen YouTube channels (example screenshot). For instance if you were selling an app for creating bingo cards, you could find all the "how to make bingo cards"-type videos and show your ad before those.
Sadly in practice I found that it was difficult to get views this way, at least for any price I was willing to test. Even when listing thousands of videos, I wasn't able to get any meaningful amount of views for my ad. It could be that a lot of the videos I tried were either unpopular, had monetization disabled or my bids were just way too low.

Audiences

With audience matching Google tries to figure out what type of a person is viewing a video, and if that matches your selection then your ad can be shown.
There are a lot of options here. You can target investors, cooking enthusiasts, people into DIY, pet lovers, gamers and more (example screenshot).
Audience matching finally gave me enough clicks to find out whether anyone ever buys anything through YouTube ads.

Keywords

In the beginning I said there are topics, placements and audiences, but actually there is another targeting method. One where I still have no idea how it is supposed to work: keywords.
I assumed to trigger a keyword match, the video title or description would have to match it. This turned out not to be the case.
For example when I tried the keyword "anime", my ad got shown before these videos: some Lithuanian song, a tutorial on how to make gnomes and some german rap video. Not exactly anime.
"Keywords can trigger your ad to show when people view related content on YouTube, websites or apps".
Apparently this "related content" is defined more broadly than I had assumed.

I know what video you saw last summer

Oh yeah, I wanted to mention a cool tracking thing YouTube provides. As you might assume, you can easily track when a click on the ad results in a sale. But the cool part is that you can also track when someone views your ad, and then a bit later types in your web address to make the purchase without ever clicking the link.
In other words you can track both people who click through an ad directly, or who see your ad and then visit your site a bit later (this is known as a "view-through conversion"). It's magic. Magical enough that you'll have to take Google's word on it that these customers actually did view the ad, since you won't be able to detect it yourself.
Besides purely trusting the reports given to me, I also added a field to my order form where I asked people "where did you hear about Candy Japan?". This confirmed that YouTube really was sending these new customers.

Tweaking the campaign: exclude!

AdWords gives you a lot of interesting data about which of your targeting options converted and which did not. Looking carefully at the data AdWords gave me, I did find a few simple ways for lowering the cost of a sale.
The key realization here is that advertising is as much about showing your ad to people, as it is about NOT showing it to those less likely to buy. An easy start is to just stop all topics or audiences that don't seem to be working.
If that still doesn't make your campaign profitable, there are broader exclusions and bid adjustments you can make based on age, gender, device, location, parental status and household income. For instance you might find that people in certain locations or age groups are less likely to buy than others.
With these adjustments I was able to significantly lower the cost per conversion for the campaign.

In conclusion, did you break even?

Nope. I lost money.
Many viewers did place an order after seeing the ad, but not enough to justify continuing the campaign. This was true even taking into account the full lifetime value of a customer. While I was not able to make the campaign break even, by tweaking the targeting options I was able to get pretty close.
For now I have stopped the campaign and will reflect a bit on what went wrong before possibly trying again.
As advice for someone else who wants to try advertising on YouTube, I'd say your product or service should make at least tens of dollars in profit to at least have a shot at making the numbers work. Advertising an app with a flat cost of only a few dollars would be unlikely to work even at the lowest bid levels.
If you do have a suitable product, be prepared to spend thousands while you tweak your campaign towards profitability! Good luck.
Hope this was helpful. If you are in the mood to try some Japanese candy, do take a look at Candy Japan.
submitted by bemmu to Entrepreneur [link] [comments]

Groestlcoin September 2019 Development Release/Update!

For a more interactive view of changes, click here
In our current world; bordering on financial chaos, with tariff wars, Brexit and hyperinflation rife, you can count on Groestlcoin to consistently produce innovation that strikes to take the power away from the few and into the many, even after a full five and a half years of solid development.
Here is what the team has already announced in the last 3 months since the last development update:

What's Being Released Today?

Groestl Nodes

What am I?

Groestl Nodes aims to map out and compare the status of the Groestlcoin mainnet and testnet networks. Even though these networks share the same protocol, there is currently no way to directly compare these coins in a single location. These statistics are essential to evaluate the relative health of both networks.

Features

Source - Website

Groestlcoin Transaction Tool

What am I?

This is a tool for creating unsigned raw Groestlcoin transactions and also to verify existing transactions by entering in the transaction hex and converting this to a human-readable format to verify that a transaction is correct before it is signed.

Features

SourceDownload

Groestlcoin AGCore

What am I?

AGCore is an Android app designed to make it easier to run a Groestlcoin Core node on always-on Android appliances such as set-top boxes, Android TVs and repurposed tablets/phones. If you are a non-technical user of Groestlcoin and want an Android app that makes it easy to run a Groestlcoin Core node by acting as a wrapper, then AG Core is the right choice for you.

What's Changed?

Source - Download

Groestlcoin Electrum

What's Changed?

Android Electrum-Specific

OSXWindowsWindows StandaloneWindows PortableLinux - Android
Server SourceServer Installer SourceClient SourceIcon SourceLocale Source

Android Wallet – Including Android Wallet Testnet

What am I?

Android Wallet is a BIP-0032 compatible hierarchial deterministic Groestlcoin Wallet, allowing you to send and receive Groestlcoin via QR codes and URI links.

V7.11.1 Changes

Groestlcoin Java Library SourceSource - DownloadTestnet Download

Groestlwallet

What am I?

Groestlwallet is designed to protect you from malware, browser security holes, even physical theft. With AES hardware encryption, app sandboxing, keychain and code signatures, groestlwallet represents a significant security advance over web and desktop wallets, and other mobile platforms.
Simplicity is groestlwallet's core design principle. Because groestlwallet is "deterministic", your balance and entire transaction history can be restored from just your recovery phrase.

iOS 0.7.3 Changes

Android v89 Changes

iOS SourceAndroid Source - Android DownloadiOS Download

Groestlcoinomi Released

What am I?

Groestlcoinomi is a lightweight thin-client Groestlcoin wallet based on a client-server protocol.

Groestlcoinomi v1.1 Desktop Changes

Groestlcoinomi Android v1.6 Changes

Groestlcoin Java Library SourceAndroid Source
Android DownloadWindows DownloadMac OS DownloadLinux Download

Groestlcoin BIP39 Tool

What's Changed?

Source - Download
submitted by Yokomoko_Saleen to groestlcoin [link] [comments]

Groestlcoin Release September 2018

Introduction

As always, the past 3 months since 22nd June have been crazy busy. The bears might still be around, but the show must go on and of course has not slowed the Groestlcoin development team in the slightest. Here’s a quick overview of what has already happened since the last release: - Integrated into the bitbns exchange, with the ability to buy Groestlcoin directly with the Indian Rupee. - Groestlcoin Rebrand Vote – Whilst there was much talk and push for a rebrand vote, the overall result was almost unanimously in favour of keeping our unique and conversation-starting name. With just 83 votes to Rebrand, and 2577 votes to No Rebrand. Thank you for all who voted, the funds raised are being used to fund ongoing hosting and development costs. - Integrated into the Cryptobridge exchange. Cryptobridge is a popular decentralised exchange where you always hold the private keys to your funds, only YOU have access to them. - Groestlcoin has been added to SimpleSwap – Groestlcoin can now be swapped with over 100 other cryptocurrencies, without signing up! - Groestlcoin has been added to UnoDax, one of the leading cryptocurrency exchanges in India, with TUSD, BTC and INR trading pairs. - Groestlcoin has been added to SwapLab.cc, where you can buy Groestlcoin using Bitcoin and over 50 other altcoins. Purchasing with VISA/Mastercard is coming VERY SOON. Discussed later: - Groestlcoin has been listed on #3 largest exchange in the world on volume, Huobi Global! More on this to come further on in the announcements. - Groestlcoin has been added to the Guarda Multi-Currency Wallet. - Groestlcoin has been added to Melis Multi-Device, Multi-Account, Multi-Platform, Multi-Signature advanced wallet! Already this list is far more than most other cryptocurrencies have achieved in the past 3 months. But this is just the tip of the iceberg of what has been developed.

What's been Happening?

GRSPay Released

We are so excited for this, that it has it's own separate reddit thread. Head over there now at https://www.reddit.com/groestlcoin/comments/9ikr5m/groestlcoin_releases_grspay/? to see more on this!
https://www.melis.io/assets/logo-navbar-4b6f0d372f15b2446d3fa4c68f346e4fb08ee113941186cee58fd6135f3f8b7d.svg

Melis Wallet

The the most advanced wallet for Bitcoin, Bitcoin Cash, Litecoin and now Groestlcoin.
With Melis you have the complete control of your bitcoins and private keys, you can define spending limits policies and make use of two or more factors authentication. Melis is open source, published on GitHub.

How Melis Works?

You can create as many accounts as you want. An account is a part of your wallet that can be customised to your requirements. You can choose how many co-signers are required to spend funds. The accounts are completely independent and act like separate wallets from each other but can be accessed via the same details. A core feature of Melis is the ability to set a ‘primary’ device. With this you can set an account as ‘Secure’ so it is only viewable (and accessible at all) from the Primary device. You can have a savings account hidden from the outside world whilst also having your ‘spending’ funds available on the go. With Melis you can create a multi-signature account between N people, where up to N signatures are required to sign a transaction, choosing if any of those should be mandatory.
Core Features:
https://guarda.co/assets/images/1PGo4ID.svg?1537791124643

Guarda Wallet

Safer than ever! Desktop Light Wallet - Anonymous and fast!
With Guarda Multi-currency Desktop Light Wallet you don’t need to register. Guarda has no access to your private keys or funds. You can receive, send, store, buy and exchange cryptocurrencies in complete anonymity and safety. All these features are available on Linux, Windows or MacOS. Choose the one that suits you!
More info about Guarda wallet on www.guarda.co
https://holytransaction.com/images/logo.png

Integrated into HolyTransaction

What is HolyTransaction?

HolyTransaction gives users access to the crypto world with a universal cryptocurrency wallet and instant exchange.

Features

For more information, visit Holy Transaction here.
https://www.groestlcoin.org/wp-content/uploads/2018/09/next-grs-groestlcoin.jpg

Integrated into NEXT Wallet

What is NEXT?

NEXT is a modern, next-generation stylish open-source Desktop wallet.

Features

For more information, visit NextWallet here.
https://blockchainfinancial.com/mediaserve2018/09/admin-06143647-bcf_logo_vec_256x256.png

Integrated into Blockchain Financial

What is Blockchain Financial?

Blockchain Financial is a set of web based services for individuals and companies that want to make things happen with the Cryptocurrencies Ecosystem. - For those that don't know anything about cryptocurrencies, we offer tools that will let them receive, send and operate with an assortment of coins. - For those that are already riding the wave, we offer tools that will let them do all those things that they weren't able to do.

Blockchain Financials mission

We're not here to reinvent the wheel. We're here to make it run smoother for you, and we provide some of the most useful services you'll find on the internet, made in a way that is easy to understand and use on a daily basis. In short, we're a bunch of people that claim to be Crypto Evangelists. We strongly believe in cryptocurrencies, and our main promise is to push them up so more people get involved and take all the advantages they offer.

More information from Blockchain Financial

Back in 2014, the world was taken by storm when Facebook approved the first cryptocurrencies tipping apps. The first was for Dogecoin, and the second was for multiple coins.
The project was hosted on whitepuma.net, and persisted for almost two years, built up a massive user community and gave a home to Bitcoin, Litecoin, Dogecoin and dozens of other bitcoin-based altcoins.
After very active months, the tipping hype started to fade away. Then, the developers decided to jump into the next stage: bringing not only tipping, but also mining and a widget that could be embedded on websites to allow everyone to accept payments. Sadly, the work was never completed because the project started to require an unsustainable amount of resources. Then, in a painful decision, a shutdown was announced by December 2015.
A couple of months after whitepuma.net was closed, the source code was released by its creator as Open Source on GitHub. But it wasn't maintained.
Now, some of the original members of the dev and admin teams gathered up with a handful of the WhitePuma's elite users, and decided to make something good with the best pieces of the old source code. That, with fresh new ideas and the power of the BardCanvas engine, synthesized the core of Blockchain Financial.
More info about Blockchain Financial wallet on .
For more information, visit [Blockchain Financial](www.blockchainfinancial.com)
https://www.huobi.com/image/logo.aeb4723.svg

Groestlcoin Listed on Huobi

Who are Huobi?

Huobi was founded in China and is now based in Singapore, with offices in Hong Kong, South Korea, Japan and the North America, currently sitting #3 in volume on Coinmarketcap. Huobi is a great leap forward for our growing presence in Asia and we are very excited to be listed here!
You can find the official Huobi announcement here.

Groestlcoin Core v2.16.3 - Please Update ASAP

A new major Groestlcoin Core version 2.16.3 is now available for download which includes both a Denial of Service component and a critical inflation vulnerability, so it is recommended to upgrade to it if you are running a full Groestlcoin node or a local Groestlcoin Core wallet.
v2.16.3 is now the official release version of Groestlcoin Core. This is a new major version release with a very important security updates. It is recommended to upgrade to this version as soon as possible. Please stop running versions of Groestlcoin Core affected by CVE-2018-17144 ASAP: These are 2.13.3 and 2.16.0.
As a result in this, all exchanges and services have been asked to upgrade to this version, so please be patient if wallets go in to maintenance mode on these services.

What's new in version v2.16.3?

This is a major release of Groestlcoin Core fixing a Denial of Service component and a critical inflation vulnerability (https://nvd.nist.gov/vuln/detail/CVE-2018-17144) exploitable by miners that has been discovered in Groestlcoin Core version 2.13.3 and 2.16.0. It is recommended to upgrade to 2.16.3 as soon as possible. If you only occasionally run Groestlcoin Core, then it's not necessary to run out and upgrade it right this second. However, you should upgrade it before you next run it. If you know anyone who is running an older version, tell them to upgrade it ASAP. Stored funds are not at risk, and never were at risk. At this time we believe over half of the Groestlcoin hashrate has upgraded to patched nodes. We are unaware of any attempts to exploit this vulnerability. However, it still remains critical that affected users upgrade and apply the latest patches to ensure no possibility of large reorganizations, mining of invalid blocks, or acceptance of invalid transactions occurs.

The Technicals

In Groestlcoin Core 2.13.3, an optimization was added (Bitcoin Core PR #9049) which avoided a costly check during initial pre-relay block validation that multiple inputs within a single transaction did not spend the same input twice which was added in 2012 (Bitcoin Core PR #443). While the UTXO-updating logic has sufficient knowledge to check that such a condition is not violated in 2.13.3 it only did so in a sanity check assertion and not with full error handling (it did, however, fully handle this case twice in prior to 2.1.0.6). Thus, in Groestlcoin Core 2.13.3, any attempts to double-spend a transaction output within a single transaction inside of a block will result in an assertion failure and a crash, as was originally reported. In Groestlcoin Core 2.16.0, as a part of a larger redesign to simplify unspent transaction output tracking and correct a resource exhaustion attack the assertion was changed subtly. Instead of asserting that the output being marked spent was previously unspent, it only asserts that it exists. Thus, in Groestlcoin Core 2.16.0, any attempts to double-spend a transaction output within a single transaction inside of a block where the output being spent was created in the same block, the same assertion failure will occur. However, if the output being double-spent was created in a previous block, an entry will still remain in the CCoin map with the DIRTY flag set and having been marked as spent, resulting in no such assertion. This could allow a miner to inflate the supply of Groestlcoin as they would be then able to claim the value being spent twice.
Groestlcoin would like to publicly thank Reddit user u/Awemany for finding CVE-2018-17144 and reporting it (https://lists.linuxfoundation.org/pipermail/bitcoin-core-dev/2018-Septembe000064.html). You deserve gratitude and appreciation from cryptoworld, and you have ours. If you want to support him for his work, please consider donating to him on his bitcoin cash address: bitcoincash:qr5yuq3q40u7mxwqz6xvamkfj8tg45wyus7fhqzug5
http://i.imgur.com/3YhyNZK.png

Groestlcoin Electrum-GRS 3.2.2 - Ledger & Trezor Edition

What is Electrum-GRS?
Electrum-GRS is a lightweight "thin client" groestlcoin wallet Windows, MacOS and Linux based on a client-server protocol. Its main advantages over the original Groestlcoin client include support for multi-signature wallets and not requiring the download of the entire block chain.

Changes:

http://i.imgur.com/3YhyNZK.png

Electrum-GRS Mobile Android

What is Electrum-GRS Mobile?

Electrum-grs is a lightweight "thin client" groestlcoin wallet Android based on a client-server protocol. Its main advantages over the original Groestlcoin client include support for multi-signature wallets and not requiring the download of the entire block chain.

Changes

Groestlcoin EasyVanity Released

Groestlcoin EasyVanity is a Windows app is built from the ground-up in C# and makes it easier than ever before to create your very own bespoke Groestlcoin address(es), even whilst not connected to the internet! You can even generate multiple keys with the same prefix and leave it on overnight whilst your CPU or GPU collects and stores these addresses locally.
If you're tired of the random, cryptic addresses generated by regular groestlcoin clients, then Groestlcoin EasyVanity is the right choice for you to create a more personalized address.

Features

• Ability to continue finding keys after first one is found • Includes warning on startup if connected to the internet • Ability to output keys to a text file (And shows button to open that directory) • Ability to make your match case sensitive (Where possible) • Show and hide the private key with a simple toggle switch, and copy the private key straight to your clipboard • Show full output of commands • Includes statistics whilst the application is running • Ability to choose between Processor (CPU) and Graphics Card (GPU) • Automatically detects 32 or 64 bit systems • Features both a Light and Dark Material Design inspired Themes • EasyVanity's search is probabilistic, and the amount of time required to find a given pattern depends on how complex the pattern is, the speed of your computer, and whether you get lucky. • EasyVanity includes components to perform address searching on your CPU (vanitygen) and your OpenCL-compatible GPU (oclvanitygen). Both can be built from source, and both are included in the Windows binary package. • Prefixes are exact strings that must appear at the beginning of the address. When searching for prefixes, Easyvanity will ensure that the prefix is possible, and will provide a difficulty estimate. • The percentage displayed just shows how probable it is that a match would be found in the session so far. If it finds your address with 5% on the display, you are extremely lucky. If it finds your address with 92% on the display, you are unlucky. If you stop EasyVanity with 90% on the display, restart it, and it finds your address with 2% on the display, your first session was unlucky, but your second session was lucky. • EasyVanity uses the OpenSSL random number generator. This is the same RNG used by groestlcoin and a good number of HTTPS servers. It is regarded as well-scrutinized. Guessing the private key of an address found by EasyVanity will be no easier than guessing a private key created by groestlcoin itself. • To speed up address generation, EasyVanity uses the RNG to choose a private key, and literally increments the private key in a loop searching for a match. As long as the starting point is not disclosed, if a match is found, the private key will not be any easier to guess than if every private key tested were taken from the RNG. EasyVanity will also reload the private key from the RNG after 10,000,000 unsuccessful searches (100M for oclvanitygen), or when a match is found and multiple patterns are being searched for. • Free software - MIT. Anyone can audit the code. • Written in C# - The code is short, and easy to review.

Groestlcoin Sentinel (Android & Blackberry) – Mainnet + Testnet

What is Sentinel?

Groestlcoin Sentinel is the easiest and fastest way to track/receive/watch payments in your offline Groestlcoin Wallets. Groestlcoin Sentinel is compatible with any standard Groestlcoin address, BIP44 XPUB (Extended Public Key) BIP49 YPUB and BIP84 ZPUB
Groestlcoin Sentinel is a great solution for anyone who wants the convenience and utility of a hot wallet for receiving payments directly into their cold storage (or hardware wallets). Sentinel accepts XPUB's, YPUB'S, ZPUB's and individual Groestlcoin address. Once added you will be able to view balances, view transactions, and (in the case of XPUB's, YPUB's and ZPUB's) deterministically generate addresses for that particular wallet.

What's New?

The P2SH paperwallet supports creating P2SH paperwallets in bulk, keypair generation with QR codes and sweeping tool. Groestlcoin believes strongly in privacy, the live version does not collect and store IP or transaction data.
Changes
Features
The BECH32 paperwallet supports creating BECH32 paperwallets in bulk, keypair generation with QR codes and sweeping tool. Groestlcoin believes strongly in privacy, the live version does not collect and store IP or transaction data.
Features
![WebWallet](https://i.imgur.com/Z2oj7bj.png)

Groestlcoin Web Wallet Update 1.4

What is Groestlcoin Web Wallet?
Groestlcoin Webwallet is an open source, multisignature, HD Wallet and more! Webwallet is a a open source browser based Groestlcoin webwallet.
Webwallet is a playground for Groestlcoin in javascript to experiment with. It supports multisig, OP_HODL, RBF and many more. Groestlcoin believes strongly in privacy, the live version does not collect and store IP or transaction data.
Changes:
submitted by Yokomoko_Saleen to groestlcoin [link] [comments]

Decred Journal – August 2018

Note: you can read this on GitHub (link), Medium (link) or old Reddit (link) to see all the links.

Development

dcrd: Version 1.3.0 RC1 (Release Candidate 1) is out! The main features of this release are significant performance improvements, including some that benefit SPV clients. Full release notes and downloads are on GitHub.
The default minimum transaction fee rate was reduced from 0.001 to 0.0001 DCkB. Do not try to send such small fee transactions just yet, until the majority of the network upgrades.
Release process was changed to use release branches and bump version on the master branch at the beginning of a release cycle. Discussed in this chat.
The codebase is ready for the new Go 1.11 version. Migration to vgo module system is complete and the 1.4.0 release will be built using modules. The list of versioned modules and a hierarchy diagram are available here.
The testnet was reset and bumped to version 3.
Comments are welcome for the proposal to implement smart fee estimation, which is important for Lightning Network.
@matheusd recorded a code review video for new Decred developers that explains how tickets are selected for voting.
dcrwallet: Version 1.3.0 RC1 features new SPV sync mode, new ticket buyer, new APIs for Decrediton and a host of bug fixes. On the dev side, dcrwallet also migrated to the new module system.
Decrediton: Version 1.3.0 RC1 adds the new SPV sync mode that syncs roughly 5x faster. The feature is off by default while it receives more testing from experienced users. Other notable changes include a design polish and experimental Politeia integration.
Politeia: Proposal editing is being developed and has a short demo. This will allow proposal owners to edit their proposal in response to community feedback before voting begins. The challenges associated with this feature relate to updating censorship tokens and maintaining a clear history of which version comments were made on. @fernandoabolafio produced this architecture diagram which may be of interest to developers.
@degeri joined to perform security testing of Politeia and found several issues.
dcrdata: mainnet explorer upgraded to v2.1 with several new features. For users: credit/debit tx filter on address page, showing miner fees on coinbase transaction page, estimate yearly ticket rewards on main page, cool new hamburger menu and keyboard navigation. For developers: new chain parameters page, experimental Insight API support, endpoints for coin supply and block rewards, testnet3 support. Lots of minor API changes and frontend tweaks, many bug fixes and robustness improvements.
The upcoming v3.0 entered beta and is deployed on beta.dcrdata.org. Check out the new charts page. Feedback and bug reports are appreciated. Finally, the development version v3.1.0-pre is on alpha.dcrdata.org.
Android: updated to be compatible with the latest SPV code and is syncing, several performance issues are worked on. Details were posted in chat. Alpha testing has started, to participate please join #dev and ask for the APK.
iOS: backend is mostly complete, as well as the front end. Support for devices with smaller screens was improved. What works now: creating and recovering wallets, listing of transactions, receiving DCR, displaying and scanning QR codes, browsing account information, SPV connection to peers, downloading headers. Some bugs need fixing before making testable builds.
Ticket splitting: v0.6.0 beta released with improved fee calculation and multiple bug fixes.
docs: introduced new Governance section that grouped some old articles as well as the new Politeia page.
@Richard-Red created a concept repository sandbox with policy documents, to illustrate the kind of policies that could be approved and amended by Politeia proposals.
decred.org: 8 contributors added and 4 removed, including 2 advisors (discussion here).
decredmarketcap.com is a brand new website that shows the most accurate DCR market data. Clean design, mobile friendly, no javascript required.
Dev activity stats for August: 239 active PRs, 219 commits, 25k added and 11k deleted lines spread across 8 repositories. Contributions came from 2-10 developers per repository. (chart)

Network

Hashrate: went from 54 to 76 PH/s, the low was 50 and the new all-time high is 100 PH/s. BeePool share rose to ~50% while F2Pool shrank to 30%, followed by coinmine.pl at 5% and Luxor at 3%.
Staking: 30-day average ticket price is 95.6 DCR (+3.0) as of Sep 3. During the month, ticket price fluctuated between a low of 92.2 and high of 100.5 DCR. Locked DCR represented between 3.8 and 3.9 million or 46.3-46.9% of the supply.
Nodes: there are 217 public listening and 281 normal nodes per dcred.eu. Version distribution: 2% at v1.4.0(pre) (dev builds), 5% on v1.3.0 (RC1), 62% on v1.2.0 (-5%), 22% on v1.1.2 (-2%), 6% on v1.1.0 (-1%). Almost 69% of nodes are v.1.2.0 and higher and support client filters. Data snapshot of Aug 31.

ASICs

Obelisk posted 3 email updates in August. DCR1 units are reportedly shipping with 1 TH/s hashrate and will be upgraded with firmware to 1.5 TH/s. Batch 1 customers will receive compensation for missed shipment dates, but only after Batch 5 ships. Batch 2-5 customers will be receiving the updated slim design.
Innosilicon announced the new D9+ DecredMaster: 2.8 TH/s at 1,230 W priced $1,499. Specified shipping date was Aug 10-15.
FFMiner DS19 claims 3.1 TH/s for Blake256R14 at 680 W and simultaneously 1.55 TH/s for Blake2B at 410 W, the price is $1,299. Shipping Aug 20-25.
Another newly noticed miner offer is this unit that does 46 TH/s at 2,150 W at the price of $4,720. It is shipping Nov 2018 and the stats look very close to Pangolin Whatsminer DCR (which has now a page on asicminervalue).

Integrations

www.d1pool.com joined the list of stakepools for a total of 16.
Australian CoinTree added DCR trading. The platform supports fiat, there are some limitations during the upgrade to a new system but also no fees in the "Early access mode". On a related note, CoinTree is working on a feature to pay household bills with cryptocurrencies it supports.
Three new OTC desks were added to exchanges page at decred.org.
Two mobile wallets integrated Decred:
Reminder: do your best to understand the security and privacy model before using any wallet software. Points to consider: who controls the seed, does the wallet talk to the nodes directly or via middlemen, is it open source or not?

Adoption

Merchants:

Marketing

Targeted advertising report for August was posted by @timhebel. Facebook appeal is pending, some Google and Twitter campaigns were paused and some updated. Read more here.
Contribution to the @decredproject Twitter account has evolved over the past few months. A #twitter_ops channel is being used on Matrix to collaboratively draft and execute project account tweets (including retweets). Anyone with an interest in contributing to the Twitter account can ask for an invitation to the channel and can start contributing content and ideas there for evaluation by the Twitter group. As a result, no minority or unilateral veto over tweets is possible. (from GitHub)

Events

Attended:
For those willing to help with the events:
BAB: Hey all, we are gearing up for conference season. I have a list of places we hope to attend but need to know who besides @joshuam and @Haon are willing to do public speaking, willing to work booths, or help out at them? You will need to be well versed on not just what is Decred, but the history of Decred etc... DM me if you are interested. (#event_planning)
The Decred project is looking for ambassadors. If you are looking for a fun cryptocurrency to get involved in send me a DM or come talk to me on Decred slack. (@marco_peereboom, longer version here)

Media

Decred Assembly episode 21 is available. @jy-p and lead dcrwallet developer @jrick discussed SPV from Satoshi's whitepaper, how it can be improved upon and what's coming in Decred.
Decred Assembly episodes 1-21 are available in audio only format here.
New instructional articles on stakey.club: Decrediton setup, Deleting the wallet, Installing Go, Installing dcrd, dcrd as a Linux service. Available in both English and Portuguese.
Decred scored #32 in the August issue of Chinese CCID ratings. The evaluation model was explained in this interview.
Satis Group rated Decred highly in their cryptoasset valuation research report (PDF). This was featured by several large media outlets, but some did not link to or omitted Decred entirely, citing low market cap.
Featured articles:
Articles:
Videos:

Community Discussions

Community stats:
Comm systems news:
After another debate about chat systems more people began testing and using Matrix, leading to some gardening on that platform:
Highlights:
Reddit: substantive discussion about Decred cons; ecosystem fund; a thread about voter engagement, Politeia UX and trolling; idea of a social media system for Decred by @michae2xl; how profitable is the Obelisk DCR1.
Chats: cross-chain trading via LN; plans for contractor management system, lower-level decision making and contractor privacy vs transparency for stakeholders; measuring dev activity; what if the network stalls, multiple implementations of Decred for more resilience, long term vision behind those extensive tests and accurate comments in the codebase; ideas for process for policy documents, hosting them in Pi and approving with ticket voting; about SPV wallet disk size, how compact filters work; odds of a wallet fetching a wrong block in SPV; new module system in Go; security of allowing Android app backups; why PoW algo change proposal must be specified in great detail; thoughts about NIPoPoWs and SPV; prerequisites for shipping SPV by default (continued); Decred vs Dash treasury and marketing expenses, spending other people's money; why Decred should not invade a country, DAO and nation states, entangling with nation state is poor resource allocation; how winning tickets are determined and attack vectors; Politeia proposal moderation, contractor clearance, the scale of proposals and decision delegation, initial Politeia vote to approve Politeia itself; chat systems, Matrix/Slack/Discord/RocketChat/Keybase (continued); overview of Korean exchanges; no breaking changes in vgo; why project fund burn rate must keep low; asymptotic behavior of Decred and other ccs, tail emission; count of full nodes and incentives to run them; Politeia proposal translations and multilingual environment.
An unusual event was the chat about double negatives and other oddities in languages in #trading.

Markets

DCR started the month at USD 56 / BTC 0.0073 and had a two week decline. On Aug 14 the whole market took a huge drop and briefly went below USD 200 billion. Bitcoin went below USD 6,000 and top 100 cryptos lost 5-30%. The lowest point coincided with Bitcoin dominance peak at 54.5%. On that day Decred dived -17% and reached the bottom of USD 32 / BTC 0.00537. Since then it went sideways in the USD 35-45 / BTC 0.0054-0.0064 range. Around Aug 24, Huobi showed DCR trading volume above USD 5M and this coincided with a minor recovery.
@ImacallyouJawdy posted some creative analysis based on ticket data.

Relevant External

StopAndDecrypt published an extensive article "ASIC Resistance is Nothing but a Blockchain Buzzword" that is much in line with Decred's stance on ASICs.
The ongoing debates about the possible Sia fork yet again demonstrate the importance of a robust dispute resolution mechanism. Also, we are lucky to have the treasury.
Mark B Lundeberg, who found a vulnerability in atomicswap earlier, published a concept of more private peer-to-peer atomic swaps. (missed in July issue)
Medium took a cautious stance on cryptocurrencies and triggered at least one project to migrate to Ghost (that same project previously migrated away from Slack).
Regulation: Vietnam bans mining equipment imports, China halts crypto events and tightens control of crypto chat groups.
Reddit was hacked by intercepting 2FA codes sent via SMS. The announcement explains the impact. Yet another data breach suggests to think twice before sharing any data with any company and shift to more secure authentication systems.
Intel and x86 dumpsterfire keeps burning brighter. Seek more secure hardware and operating systems for your coins.
Finally, unrelated to Decred but good for a laugh: yetanotherico.com.

About This Issue

This is the 5th issue of Decred Journal. It is mirrored on GitHub, Medium and Reddit. Past issues are available here.
Most information from third parties is relayed directly from source after a minimal sanity check. The authors of Decred Journal have no ability to verify all claims. Please beware of scams and do your own research.
Feedback is appreciated: please comment on Reddit, GitHub or #writers_room on Matrix or Slack.
Contributions are welcome too. Some areas are collecting content, pre-release review or translations to other languages. Check out @Richard-Red's guide how to contribute to Decred using GitHub without writing code.
Credits (Slack names, alphabetical order): bee, Haon, jazzah, Richard-Red and thedecreddigest.
submitted by jet_user to decred [link] [comments]

"Satoshi Nakamoto" the mysterious creator of Bitcoin is no other than the CIA

Bitcoin has surged to all time highs, Who created Bitcoin, and why?
The creator of Bitcoin is officially a name, “Satoshi Nakamoto” – very few people believe that it was a single male from Japan. In the early days of Bitcoin development this name is associated with original key-creation and communications on message boards, and then the project was officially handed over to others at which point this Satoshi character never appeared again (Although from time to time someone will come forward saying they are the real Satoshi Nakamoto, and then have their posts deleted).
Bitcoin could very well be the ‘one world currency’ that conspiracy theorists have been talking about for some time. It’s a kill five birds with one stone solution – not only is Bitcoin an ideal one world currency, it allows law enforcement a perfect record of all transactions on the network. It states very clearly on bitcoin.org (the official site) in big letters “Bitcoin is not anonymous” :
Some effort is required to protect your privacy with Bitcoin. All Bitcoin transactions are stored publicly and permanently on the network, which means anyone can see the balance and transactions of any Bitcoin address. However, the identity of the user behind an address remains unknown until information is revealed during a purchase or in other circumstances. This is one reason why Bitcoin addresses should only be used once.
Another advantage of Bitcoin is the problem of Quantitative Easing – the Fed (and thus, nearly all central banks in the world) have painted themselves in a corner, metaphorically speaking. QE ‘solved’ the credit crisis, but QE itself does not have a solution. Currently all currencies are in a race to zero – competing with who can print more money faster. Central Bankers who are in systemic analysis, their economic advisors, know this. They know that the Fiat money system is doomed, all what you can read online is true (just sensationalized) – it’s a debt based system based on nothing. That system was created, originally in the early 1900’s and refined during Breton Woods followed by the Nixon shock (This is all explained well in Splitting Pennies). In the early 1900’s – there was no internet! It is a very archaic system that needs to be replaced, by something modern, electronic, based on encryption. Bitcoin! It’s a currency based on ‘bits’ – but most importantly, Bitcoin is not the ‘one world currency’ per se, but laying the framework for larger cryptocurrency projects. In the case of central banks, who control the global monetary system, that would manifest in ‘Settlement Coin’ :
Two resources available almost exclusively to central banks could soon be opened up to additional users as a result of a new digital currency project designed by a little-known startup and Swiss bank UBS. One of those resources is the real-time gross settlement (RTGS) system used by central banks (it’s typically reserved for high-value transactions that need to be settled instantly), and the other is central bank-issued cash. Using the Utility Settlement Coin (USC) unveiled today, the five-member consortium that has sprung up around the project aims to help central banks open-up access to these tools to more customers. If successful, USC has the potential to create entirely new business models built on instant settling and easy cash transfers. In interview, Robert Sams, founder of London-based Clearmatics, said his firm initially worked with UBS to build the network, and that BNY Mellon, Deutsche Bank, ICAP and Santander are only just the first of many future members.
the NSA/CIA often works for big corporate clients, just as it has become a cliche that the Iraq war was about big oil, the lesser known hand in global politics is the banking sector. In other words, Bitcoin may have very well been ‘suggested’ or ‘sponsored’ by a banker, group of banks, or financial services firm. But the NSA (as we surmise) was the company that got the job done. And probably, if it was in fact ‘suggested’ or ‘sponsored’ by a private bank, they would have been waiting in the wings to develop their own Bitcoin related systems or as in the above “Settlement Coin.” So the NSA made Bitcoin – so what?
The FX markets currently represent the exchange between ‘major’ and ‘minor’ currencies. In the future, why not too they will include ‘cryptocurrencies’ – we’re already seeing the BTC/EUR pair popup on obscure brokers. When BTC/USD and BTC/EUR are available at major FX banks and brokers, we can say – from a global FX perspective, that Bitcoin has ‘arrived.’ Many of us remember the days when the synthetic “Euro” currency was a new artificial creation that was being adopted, although the Euro project is thousands of degrees larger than the Bitcoin project. But unlike the Euro, Bitcoin is being adopted at a near exponential rate by demand (Many merchants resisted the switch to Euros claiming it was eating into their profit margins and they were right!).
And to answer the question as to why Elite E Services is not actively involved in Bitcoin the answer is that previously, you can’t trade Bitcoin. Now we’re starting to see obscure brokers offering BTC/EUR but the liquidity is sparse and spreads are wacky – that will all change. When we can trade BTC/USD just like EUUSD you can bet that EES and a host of other algorithmic FX traders will be all over it! It will be an interesting trade for sure, especially with all the volatility, the cross ‘pairs’ – and new cryptocurrencies. For the record, for brokers- there’s not much difference adding a new symbol (currency pair) in MT4 they just need liquidity, which has been difficult to find.
So there’s really nothing revolutionary about Bitcoin, it’s just a logical use of technology in finance considering a plethora of problems faced by any central bank who creates currency. And there are some interesting caveats to Bitcoin as compared to major currencies; Bitcoin is a closed system (there are finite Bitcoin) – this alone could make such currencies ‘anti-inflationary’ and at the least, hold their value (the value of the USD continues to deteriorate slowly over time as new M3 introduced into the system.) But we need to pay
Here’s some interesting theories about who or whom is Satoshi:
A corporate conglomerate
Some researchers proposed that the name ‘Satoshi Nakamoto’ was derived from a combination of tech companies consisting of Samsung, Toshiba, Nakayama, and Motorola. The notion that the name was a pseudonym is clearly true and it is doubtful they reside in Japan given the numerous forum posts with a distinctly English dialect.
Craig Steven Wright
This Australian entrepreneur claims to be the Bitcoin creator and provided proof. But soon after, his offices were raided by the tax authorities on ‘an unrelated matter’
Soon after these stories were published, authorities in Australia raided the home of Mr Wright. The Australian Taxation Office said the raid was linked to a long-running investigation into tax payments rather than Bitcoin. Questioned about this raid, Mr Wright said he was cooperating fully with the ATO. “We have lawyers negotiating with them over how much I have to pay,” he said.
Other potential creators
Nick Szabo, and many others, have been suggested as potential Satoshi – but all have denied it:
The New Yorker published a piece pointing at two possible Satoshis, one of whom seemed particularly plausible: a cryptography graduate student from Trinity College, Dublin, who had gone on to work in currency-trading software for a bank and published a paper on peer-to-peer technology. The other was a Research Fellow at the Oxford Internet Institute, Vili Lehdonvirta. Both made denials. Fast Company highlighted an encryption patent application filed by three researchers – Charles Bry, Neal King and Vladimir Oks­man – and a circumstantial link involving textual analysis of it and the Satoshi paper which found the phrase “…computationally impractical to reverse” in both. Again, it was flatly denied.
THE WINNER: It was the NSA
The NSA has the capability, the motive, and the operational capacity – they have teams of cryptographers, the biggest fastest supercomputers in the world, and they see the need. Whether instructed by their friends at the Fed, in cooperation with their owners (i.e. Illuminati banking families), or as part of a DARPA project – is not clear and will never be known (unless a whistleblower comes forward). In fact, the NSA employs some of the best mathematicians and cryptographers in the world. Few know about their work because it’s a secret, and this isn’t the kind of job you leave to start your own cryptography company.
But the real smoking Gun, aside from the huge amount of circumstantial evidence and lack of a credible alternative, is the 1996 paper authored by NSA “HOW TO MAKE A MINT: THE CRYPTOGRAPHY OF ANONYMOUS ELECTRONIC CASH”
The NSA was one of the first organizations to describe a Bitcoin-like system. About twelve years before Satoshi Nakamotopublished his legendary white paper to the Metzdowd.com cryptography mailing list, a group of NSA information security researchers published a paper entitled How to Make a Mint: the Cryptography of Anonymous Electronic Cash in two prominent places, the first being an MIT mailing list and the second being much more prominent, The American Law Review
The paper outlines a system very much like Bitcoin in which secure financial transactions are possible through the use of a decentralized network the researchers refer informally to as a Bank. They list four things as indispensable in their proposed network: privacy, user identification (protection against impersonation), message integrity (protection against tampering/substitution of transaction information – that is, protection against double-spending), and nonrepudiation (protection against later denial of a transaction – a blockchain!).
It is evident that SHA-256, the algorithm Satoshi used to secure Bitcoin, was not available because it came about in 2001. However, SHA-1 would have been available to them, having been published in 1993.
Why would the NSA want to do this? One simple reason: Control.
As we explain in Splitting Pennies – Understanding Forex – the primary means the US dominates the world is through economic policy, although backed by bombs. And the critical support of the US Dollar is primarily, the military. The connection between the military and the US Dollar system is intertwined inextricably. There are thousands of great examples only one of them being how Iraq switched to the Euro right before the Army’s invasion.
In October 2000 Iraq insisted on dumping the US dollar – ‘the currency of the enemy’ – for the more multilateral euro. The changeover was announced on almost exactly the same day that the euro reached its lowest ebb, buying just $0.82, and the G7 Finance Ministers were forced to bail out the currency. On Friday the euro had reached $1.08, up 30 per cent from that time.
Almost all of Iraq’s oil exports under the United Nations oil-for-food programme have been paid in euros since 2001. Around 26 billion euros (£17.4bn) has been paid for 3.3 billion barrels of oil into an escrow account in New York. The Iraqi account, held at BNP Paribas, has also been earning a higher rate of interest in euros than it would have in dollars.
The point here is there are a lot of different types of control. The NSA monitors and collects literally all electronic communications; internet, phone calls, everything. They listen in even to encrypted voice calls with high powered microphones, devices like cellphones equipped with recording devices (See original “Clipper” chip). It’s very difficult to communicate on planet Earth in private, without the NSA listening. So it is only logical that they would also want complete control of the financial system, including records of all electronic transactions, which Bitcoin provides.
Could there be an ‘additional’ security layer baked into the Blockchain that is undetectable, that allows the NSA to see more information about transactions, such as network location data? It wouldn’t be so far fetched, considering their past work, such as Xerox copy machines that kept a record of all copies made (this is going back to the 70’s, now it’s common). Of course security experts will point to the fact that this layer remains invisible, but if this does exist – of course it would be hidden.
More to the point about the success of Bitcoin – its design is very solid, robust, manageable – this is not the work of a student. Of course logically, the NSA employs individuals, and ultimately it is the work of mathematicians, programmers, and cryptographers – but if we deduce the most likely group capable, willing, and motivated to embark on such a project, the NSA is the most likely suspect. Universities, on the other hand, didn’t product white papers like this from 1996.
Another question is that if it was the NSA, why didn’t they go through more trouble concealing their identity? I mean, the internet is rife with theories that it was in fact the NSA/CIA and “Satoshi Nakamoto” means in Japanese “Central Intelligence” – well there are a few answers for this, but to be congruent with our argument, it fits their profile.
Where could this ‘hidden layer’ be? Many think it could be in the public SHA-256, developed by NSA (which ironically, was the encryption algorithm of choice for Bitcoin – they could have chosen hundreds of others, which arguably are more secure):
Claims that the NSA created Bitcoin have actually been flung around for years. People have questioned why it uses the SHA-256 hash function, which was designed by the NSA and published by the National Institute for Standards and Technology (NIST). The fact that the NSA is tied to SHA-256 leads some to assume it’s created a backdoor to the hash function that no one has ever identified, which allows it to spy on Bitcoin users.
“If you assume that the NSA did something to SHA-256, which no outside researcher has detected, what you get is the ability, with credible and detectable action, they would be able to forge transactions. The really scary thing is somebody finds a way to find collisions in SHA-256 really fast without brute-forcing it or using lots of hardware and then they take control of the network,” cryptography researcher Matthew D. Green of Johns Hopkins University said in a previous interview.
Then there’s the question of “Satoshi Nakamoto” – if it was in fact the NSA, why not just claim ownership of it? Why all the cloak and dagger? And most importantly, if Satoshi Nakamoto is a real person, and not a group that wants to remain secret – WHY NOT come forward and claim your nearly $3 Billion worth of Bitcoin (based on current prices).
Did the NSA create Satoshi Nakamoto?
The CIA Project, a group dedicated to unearthing all of the government’s secret projects and making them public, hasreleased a video claiming Bitcoin is actually the brainchild of the US National Security Agency.
The video entitled CIA Project Bitcoin: Is Bitcoin a CIA or NSA project? claims that there is a lot of compelling evidences that proves that the NSA is behind Bitcoin. One of the main pieces of evidence has to do with the name of the mysterious man, woman or group behind the creation of Bitcoin, “Satoshi Nakamoto”.
According to the CIA Project, Satoshi Nakamoto means “Central Intelligence” in Japanese. Doing a quick web search, you’ll find out that Satoshi is usually a name given for baby boys which means “clear thinking, quick witted, wise,” while Nakamoto is a Japanese surname which means ‘central origin’ or ‘(one who lives) in the middle’ as people with this surname are found mostly in the Ryukyu islands which is strongly associated with the Ry?ky? Kingdom, a highly centralized kingdom that originated from the Okinawa Islands. So combining Nakamoto and Satoshi can be loosely interpreted as “Central Intelligence”.
Is it so really hard to believe? This is from an organization that until the Snowden leaks, secretly recorded nearly all internet traffic on the network level by splicing fiber optic cables. They even have a deep-sea splicing mission that will cut undersea cables and install intercept devices. Making Bitcoin wouldn’t even be a big priority at NSA.
Certainly, anonymity is one of the biggest myths about Bitcoin. In fact, there has never been a more easily traceable method of payment. Every single transaction is recorded and retained permanently in the public “blockchain”. The idea that the NSA would create an anarchic, peer-to-peer crypto-currency in the hope that it would be adopted for nefarious industries and become easy to track would have been a lot more difficult to believe before the recent leaks by Edward Snowden and the revelation that billions of phone calls had been intercepted by the US security services. We are now in a world where we now know that the NSA was tracking the pornography habits of Islamic “radicalisers” in order to discredit them and making deals with some of the world’s largest internet firms to insert backdoors into their systems.
And we’re not the only ones who believe this, in Russia they ‘know’ this to be true without sifting through all the evidence.
Nonetheless, Svintsov’s remarks count as some of the more extreme to emanate from the discussion. Svintsov told Russian broadcast news agency REGNUM:“All these cryptocurrencies [were] created by US intelligence agencies just to finance terrorism and revolutions.”Svintsov reportedly went on to explain how cryptocurrencies have started to become a payment method for consumer spending, and cited reports that terrorist organisations are seeking to use the technology for illicit means.
Let’s elaborate on what is ‘control’ as far as the NSA is concerned. Bitcoin is like the prime mover. All future cryptocurrencies, no matter how snazzy or functional – will never have the same original keys as Bitcoin. It created a self-sustained, self-feeding bubble – and all that followed. It enabled law enforcement to collect a host of criminals on a network called “Silk Road” and who knows what other operations that happened behind the scenes. Because of pesky ‘domestic’ laws, the NSA doesn’t control the internet in foreign countries. But by providing a ‘cool’ currency as a tool, they can collect information from around the globe and like Facebook, users provide this information voluntarily. It’s the same strategy they use like putting the listening device in the chips at the manufacturing level, which saves them the trouble of wiretapping, electronic eavesdropping, and other risky methods that can fail or be blocked. It’s impossible to stop a cellphone from listening to you, for example (well not 100%, but you have to physically rewire the device). Bitcoin is the same strategy on a financial level – by using Bitcoin you’re giving up your private transactional information. By itself, it would not identify you per se (as the blockchain is ‘anonymous’ but the transactions are there in the public register, so combined with other information, which the NSA has a LOT OF – they can triangulate their information more precisely.
That’s one problem solved with Bitcoin – another being the economic problem of QE (although with a Bitcoin market cap of $44 Billion, that’s just another day at the Fed buying MBS) – and finally, it squashes the idea of sovereignty although in a very, very, very subtle way. You see, a country IS a currency. Until now, currency has always been tied to national sovereignty (although the Fed is private, USA only has one currency, the US Dollar, which is exclusively American). Bitcoin is a super-national currency, or really – the world’s first one world currency.
Of course, this is all great praise for the DOD which seems to have a 50 year plan – but after tens of trillions spent we’d hope that they’d be able to do something better than catching terrorists (which mostly are artificial terrorists)
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