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Polkadot Launch AMA Recap

Polkadot Launch AMA Recap

The Polkadot Telegram AMA below took place on June 10, 2020

https://preview.redd.it/4ti681okap951.png?width=4920&format=png&auto=webp&s=e21f6a9a276d35bb9cdec59f46744f23c37966ef
AMA featured:
Dieter Fishbein, Ecosystem Development Lead, Web3 Foundation
Logan Saether, Technical Education, Web3 Foundation
Will Pankiewicz, Master of Validators, Parity Technologies
Moderated by Dan Reecer, Community and Growth, Polkadot & Kusama at Web3 Foundation

Transcription compiled by Theresa Boettger, Polkadot Ambassador:

Dieter Fishbein, Ecosystem Development Lead, Web3 Foundation

Dan: Hey everyone, thanks for joining us for the Polkadot Launch AMA. We have Dieter Fishbein (Head of Ecosystem Development, our business development team), Logan Saether (Technical Education), and Will Pankiewicz (Master of Validators) joining us today.
We had some great questions submitted in advance, and we’ll start by answering those and learning a bit about each of our guests. After we go through the pre-submitted questions, then we’ll open up the chat to live Q&A and the hosts will answer as many questions as they can.
We’ll start off with Dieter and ask him a set of some business-related questions.

Dieter could you introduce yourself, your background, and your role within the Polkadot ecosystem?

Dieter: I got my start in the space as a cryptography researcher at the University of Waterloo. This is where I first learned about Bitcoin and started following the space. I spent the next four years or so on the investment team for a large asset manager where I primarily focused on emerging markets. In 2017 I decided to take the plunge and join the space full-time. I worked at a small blockchain-focused VC fund and then joined the Polkadot team just over a year ago. My role at Polkadot is mainly focused on ensuring there is a vibrant community of projects building on our technology.

Q: Adoption of Polkadot of the important factors that all projects need to focus on to become more attractive to the industry. So, what is Polkadot's plan to gain more Adoption? [sic]

A (Dieter): Polkadot is fundamentally a developer-focused product so much of our adoption strategy is focused around making Polkadot an attractive product for developers. This has many elements. Right now the path for most developers to build on Polkadot is by creating a blockchain using the Substrate framework which they will later connect to Polkadot when parachains are enabled. This means that much of our adoption strategy comes down to making Substrate an attractive tool and framework. However, it’s not just enough to make building on Substrate attractive, we must also provide an incentive to these developers to actually connect their Substrate-based chain to Polkadot. Part of this incentive is the security that the Polkadot relay chain provides but another key incentive is becoming interoperable with a rich ecosystem of other projects that connect to Polkadot. This means that a key part of our adoption strategy is outreach focused. We go out there and try to convince the best projects in the space that building on our technology will provide them with significant value-add. This is not a purely technical argument. We provide significant support to projects building in our ecosystem through grants, technical support, incubatoaccelerator programs and other structured support programs such as the Substrate Builders Program (https://www.substrate.io/builders-program). I do think we really stand out in the significant, continued support that we provide to builders in our ecosystem. You can also take a look at the over 100 Grants that we’ve given from the Web3 Foundation: https://medium.com/web3foundation/web3-foundation-grants-program-reaches-100-projects-milestone-8fd2a775fd6b

Q: On moving forward through your roadmap, what are your most important next priorities? Does the Polkadot team have enough fundamentals (Funds, Community, etc.) to achieve those milestones?

A (Dieter): I would say the top priority by far is to ensure a smooth roll-out of key Polkadot features such as parachains, XCMP and other key parts of the protocol. Our recent Proof of Authority network launch was only just the beginning, it’s crucial that we carefully and successfully deploy features that allow builders to build meaningful technology. Second to that, we want to promote adoption by making more teams aware of Polkadot and how they can leverage it to build their product. Part of this comes down to the outreach that I discussed before but a major part of it is much more community-driven and many members of the team focus on this.
We are also blessed to have an awesome community to make this process easier 🙂

Q: Where can a list of Polkadot's application-specific chains can be found?

A (Dieter): The best list right now is http://www.polkaproject.com/. This is a community-led effort and the team behind it has done a terrific job. We’re also working on providing our own resource for this and we’ll share that with the community when it’s ready.

Q: Could you explain the differences and similarities between Kusama and Polkadot?

A (Dieter): Kusama is fundamentally a less robust, faster-moving version of Polkadot with less economic backing by validators. It is less robust since we will be deploying new technology to Kusama before Polkadot so it may break more frequently. It has less economic backing than Polkadot, so a network takeover is easier on Kusama than on Polkadot, lending itself more to use cases without the need for bank-like security.
In exchange for lower security and robustness, we expect the cost of a parachain lease to be lower on Kusama than Polkadot. Polkadot will always be 100% focused on security and robustness and I expect that applications that deal with high-value transactions such as those in the DeFi space will always want a Polkadot deployment, I think there will be a market for applications that are willing to trade cheap, high throughput for lower security and robustness such as those in the gaming, content distribution or social networking sectors. Check out - https://polkadot.network/kusama-polkadot-comparing-the-cousins/ for more detailed info!

Q: and for what reasons would a developer choose one over the other?

A (Dieter): Firstly, I see some earlier stage teams who are still iterating on their technology choosing to deploy to Kusama exclusively because of its lower-stakes, faster moving environment where it will be easier for them to iterate on their technology and build their user base. These will likely encompass the above sectors I identified earlier. To these teams, Polkadot becomes an eventual upgrade path for them if, and when, they are able to perfect their product, build a larger community of users and start to need the increased stability and security that Polkadot will provide.
Secondly, I suspect many teams who have their main deployment on Polkadot will also have an additional deployment on Kusama to allow them to test new features, either their tech or changes to the network, before these are deployed to Polkadot mainnet.

Logan Saether, Technical Education, Web3 Foundation

Q: Sweet, let's move over to Logan. Logan - could you introduce yourself, your background, and your role within the Polkadot ecosystem?

A (Logan): My initial involvement in the industry was as a smart contract engineer. During this time I worked on a few projects, including a reboot of the Ethereum Alarm Clock project originally by Piper Merriam. However, I had some frustrations at the time with the limitations of the EVM environment and began to look at other tools which could help me build the projects that I envisioned. This led to me looking at Substrate and completing a bounty for Web3 Foundation, after which I applied and joined the Technical Education team. My responsibilities at the Technical Education team include maintaining the Polkadot Wiki as a source of truth on the Polkadot ecosystem, creating example applications, writing technical documentation, giving talks and workshops, as well as helping initiatives such as the Thousand Validator Programme.

Q: The first technical question submitted for you was: "When will an official Polkadot mobile wallet appear?"

A (Logan): There is already an “official” wallet from Parity Technologies called the Parity Signer. Parity Signer allows you to keep your private keys on an air-gapped mobile device and to interactively sign messages using web interfaces such as Polkadot JS Apps. If you’re looking for something that is more of an interface to the blockchain as well as a wallet, you might be interested in PolkaWallet which is a community team that is building a full mobile interface for Polkadot.
For more information on Parity Signer check out the website: https://www.parity.io/signe

Q: Great thanks...our next question is: If someone already developed an application to run on Ethereum, but wants the interoperability that Polkadot will offer, are there any advantages to rebuilding with Substrate to run as a parachain on the Polkadot network instead of just keeping it on Ethereum and using the Ethereum bridge for use with Polkadot?

A (Logan): Yes, the advantage you would get from building on Substrate is more control over how your application will interact with the greater Polkadot ecosystem, as well as a larger design canvas for future iterations of your application.
Using an Ethereum bridge will probably have more cross chain latency than using a Polkadot parachain directly. The reason for this is due to the nature of Ethereum’s separate consensus protocol from Polkadot. For parachains, messages can be sent to be included in the next block with guarantees that they will be delivered. On bridged chains, your application will need to go through more routes in order to execute on the desired destination. It must first route from your application on Ethereum to the Ethereum bridge parachain, and afterward dispatch the XCMP message from the Polkadot side of the parachain. In other words, an application on Ethereum would first need to cross the bridge then send a message, while an application as a parachain would only need to send the message without needing to route across an external bridge.

Q: DOT transfers won't go live until Web3 removes the Sudo module and token holders approve the proposal to unlock them. But when will staking rewards start to be distributed? Will it have to after token transfers unlock? Or will accounts be able to accumulate rewards (still locked) once the network transitions to NPoS?

A (Logan): Staking rewards will be distributed starting with the transition to NPoS. Transfers will still be locked during the beginning of this phase, but reward payments are technically different from the normal transfer mechanism. You can read more about the launch process and steps at http://polkadot.network/launch-roadmap

Q: Next question is: I'm interested in how Cumulus/parachain development is going. ETA for when we will see the first parachain registered working on Kusama or some other public testnet like Westend maybe?

A (Logan): Parachains and Cumulus is a current high priority development objective of the Parity team. There have already been PoC parachains running with Cumulus on local testnets for months. The current work now is making the availability and validity subprotocols production ready in the Polkadot client. The best way to stay up to date would be to follow the project boards on GitHub that have delineated all of the tasks that should be done. Ideally, we can start seeing parachains on Westend soon with the first real parachains being deployed on Kusama thereafter.
The projects board can be viewed here: https://github.com/paritytech/polkadot/projects
Dan: Also...check out Basti's tweet from yesterday on the Cumulus topic: https://twitter.com/bkchstatus/1270479898696695808?s=20

Q: In what ways does Polkadot support smart contracts?

A (Logan): The philosophy behind the Polkadot Relay Chain is to be as minimal as possible, but allow arbitrary logic at the edges in the parachains. For this reason, Polkadot does not support smart contracts natively on the Relay Chain. However, it will support smart contracts on parachains. There are already a couple major initiatives out there. One initiative is to allow EVM contracts to be deployed on parachains, this includes the Substrate EVM module, Parity’s Frontier, and projects such as Moonbeam. Another initiative is to create a completely new smart contract stack that is native to Substrate. This includes the Substrate Contracts pallet, and the ink! DSL for writing smart contracts.
Learn more about Substrate's compatibility layer with Ethereum smart contracts here: https://github.com/paritytech/frontier

Will Pankiewicz, Master of Validators, Parity Technologies


Q: (Dan) Thanks for all the answers. Now we’ll start going through some staking questions with Will related to validating and nominating on Polkadot. Will - could you introduce yourself, your background, and your role within the Polkadot ecosystem?

A (Will): Sure thing. Like many others, Bitcoin drew me in back in 2013, but it wasn't until Ethereum came that I took the deep dive into working in the space full time. It was the financial infrastructure aspects of cryptocurrencies I was initially interested in, and first worked on dexes, algorithmic trading, and crypto funds. I really liked the idea of "Generalized Mining" that CoinFund came up with, and started to explore the whacky ways the crypto funds and others can both support ecosystems and be self-sustaining at the same time. This drew me to a lot of interesting experiments in what later became DeFi, as well as running validators on Proof of Stake networks. My role in the Polkadot ecosystem as “Master of Validators” is ensuring the needs of our validator community get met.

Q: Cool thanks. Our first community question was "Is it still more profitable to nominate the validators with lesser stake?"

A (Will): It depends on their commission, but generally yes it is more profitable to nominate validators with lesser stake. When validators have lesser stake, when you nominate them this makes your nomination stake a higher percentage of total stake. This means when rewards get distributed, it will be split more favorably toward you, as rewards are split by total stake percentage. Our entire rewards scheme is that every era (6 hours in Kusama, 24 hours in Polkadot), a certain amount of rewards get distributed, where that amount of rewards is dependent on the total amount of tokens staked for the entire network (50% of all tokens staked is currently optimal). These rewards from the end of an era get distributed roughly equally to all validators active in the validator set. The reward given to each validator is then split between the validators and all their nominators, determined by the total stake that each entity contributes. So if you contribute to a higher percentage of the total stake, you will earn more rewards.

Q: What does priority ranking under nominator addresses mean? For example, what does it mean that nominator A has priority 1 and nominator B has priority 6?

A (Will): Priority ranking is just the index of the nomination that gets stored on chain. It has no effect on how stake gets distributed in Phragmen or how rewards get calculated. This is only the order that the nominator chose their validators. The way that stake from a nominator gets distributed from a nominator to validators is via Phragmen, which is an algorithm that will optimally put stake behind validators so that distribution is roughly equal to those that will get in the validator set. It will try to maximize the total amount at stake in the network and maximize the stake behind minimally staked validators.

Q: On Polkadot.js, what does it mean when there are nodes waiting on Polkadot?

**A (Will):**In Polkadot there is a fixed validator set size that is determined by governance. The way validators get in the active set is by having the highest amount of total stake relative to other validators. So if the validator set size is 100, the top 100 validators by total stake will be in the validator set. Those not active in the validator set will be considered “waiting”.

Q: Another question...Is it necessary to become a waiting validator node right now?

A (Will): It's not necessary, but highly encouraged if you actively want to validate on Polkadot. The longer you are in the waiting tab, the longer you get exposure to nominators that may nominate you.

Q: Will current validators for Kusama also validate for Polkadot? How strongly should I consider their history (with Kusama) when looking to nominate a good validator for DOTs?

A (Will): A lot of Kusama validators will also be validators for Polkadot, as KSM was initially distributed to DOT holders. The early Kusama Validators will also likely be the first Polkadot validators. Being a Kusama validator should be a strong indicator for who to nominate on Polkadot, as the chaos that has ensued with Kusama has allowed validators to battle test their infrastructure. Kusama validators by now are very familiar with tooling, block explorers, terminology, common errors, log formats, upgrades, backups, and other aspects of node operation. This gives them an edge against Polkadot validators that may be new to the ecosystem. You should strongly consider well known Kusama validators when making your choices as a nominator on Polkadot.

Q: Can you go into more details about the process for becoming a DOT validator? Is it similar as the KSM 1000 validators program?

A (Will): The Process for becoming a DOT validators is first to have DOTs. You cannot be a validator without DOTs, as DOTs are used to pay transaction fees, and the minimum amount of DOTs you need is enough to create a validate transaction. After obtaining enough DOTs, you will need to set up your validator infrastructure. Ideally you should have a validator node with specs that match what we call standard hardware, as well as one or more sentry nodes to help isolate the validator node from attacks. After the infrastructure is up and running, you should have your Polkadot accounts set up right with a stash bonded to a controller account, and then submit a validate transaction, which will tell the network your nodes are ready to be a part of the network. You should then try and build a community around your validator to let others know you are trustworthy so that they will nominate you. The 1000 validators programme for Kusama is a programme that gives a certain amount of nominations from the Web3 Foundation and Parity to help bootstrap a community and reputation for validators. There may eventually be a similar type of programme for Polkadot as well.
Dan: Thanks a lot for all the answers, Will. That’s the end of the pre-submitted questions and now we’ll open the chat up to live Q&A, and our three team members will get through as many of your questions as possible.
We will take questions related to business development, technology, validating, and staking. For those wondering about DOT:
DOT tokens do not exist yet. Allocations of Polkadot's native DOT token are technically and legally non-transferable. Hence any publicized sale of DOTs is unsanctioned by Web3 Foundation and possibly fraudulent. Any official public sale of DOTs will be announced on the Web3 Foundation website. Polkadot’s launch process started in May and full network decentralization later this year, holders of DOT allocations will determine issuance and transferability. For those who participated in previous DOT sales, you can learn how to claim your DOTs here (https://wiki.polkadot.network/docs/en/claims).


Telegram Community Follow-up Questions Addressed Below


Q: Polkadot looks good but it confuses me that there are so many other Blockchain projects. What should I pay attention in Polkadot to give it the importance it deserves? What are your planning to achieve with your project?

A (Will): Personally, what I think differentiates it is the governance process. Coordinating forkless upgrades and social coordination helps stand it apart.
A (Dieter): The wiki is awesome - https://wiki.polkadot.network/

Q: Over 10,000 ETH paid as a transaction fee , what if this happens on Polkadot? Is it possible we can go through governance to return it to the owner?

A: Anything is possible with governance including transaction reversals, if a network quorum is reached on a topic.
A (Logan): Polkadot transaction fees work differently than the fees on Ethereum so it's a bit more difficult to shoot yourself in the foot as the whale who sent this unfortunate transaction. See here for details on fees: https://w3f-research.readthedocs.io/en/latest/polkadot/Token%20Economics.html?highlight=transaction%20fees#relay-chain-transaction-fees-and-per-block-transaction-limits
However, there is a tip that the user can input themselves which they could accidentally set to a large amount. In this cases, yes, they could proposition governance to reduce the amount that was paid in the tip.

Q: What is the minimum ideal amount of DOT and KSM to have if you want to become a validator and how much technical knowledge do you need aside from following the docs?

A (Will): It depends on what the other validators in the ecosystem are staking as well as the validator set size. You just need to be in the top staking amount of the validator set size. So if its 100 validators, you need to be in the top 100 validators by stake.

Q: Will Web3 nominate validators? If yes, which criteria to be elected?

A (Will): Web 3 Foundation is running programs like the 1000 validators programme for Kusama. There's a possibility this will continue on for Polkadot as well after transfers are enabled. https://thousand-validators.kusama.network/#/
You will need to be an active validator to earn rewards. Only those active in the validator set earn rewards. I would recommend checking out parts of the wiki: https://wiki.polkadot.network/docs/en/maintain-guides-validator-payout

Q: Is it possible to implement hastables or dag with substrate?

A (Logan): Yes.

Q: Polkadot project looks very futuristic! But, could you tell us the main role of DOT Tokens in the Polkadot Ecosystem?

A (Dan): That's a good question. The short answer is Staking, Governance, Bonding. More here: http://polkadot.network/dot-token

Q: How did you manage to prove that the consensus protocol is safe and unbreakable mathematically?

A (Dieter): We have a research teams of over a dozen scientists with PhDs and post-docs in cryptography and distributed computing who do thorough theoretical analyses on all the protocols used in Polkadot

Q: What are the prospects for NFT?

A: Already being built 🙂

Q: What will be Polkadot next roadmap for 2020 ?

A (Dieter): Building. But seriously - we will continue to add many more features and upgrades to Polkadot as well as continue to strongly focus on adoption from other builders in the ecosystem 🙂
A (Will): https://polkadot.network/launch-roadmap/
This is the launch roadmap. Ideally adding parachains and xcmp towards the end of the year

Q: How Do you stay active in terms of marketing developments during this PANDEMIC? Because I'm sure you're very excited to promote more after this settles down.

A (Dan): The main impact of covid was the impact on in-person events. We have been very active on Crowdcast for webinars since 2019, so it was quite the smooth transition to all-online events. You can see our 40+ past event recordings and follow us on Crowdcast here: https://www.crowdcast.io/polkadot. If you're interested in following our emails for updates (including online events), subscribe here: https://info.polkadot.network/subscribe

Q: Hi, who do you think is your biggest competitor in the space?

A (Dan): Polkadot is a metaprotocol that hasn't been seen in the industry up until this point. We hope to elevate the industry by providing interoperability between all major public networks as well as private blockchains.

Q: Is Polkadot a friend or competitor of Ethereum?

A: Polkadot aims to elevate the whole blockchain space with serious advancements in interoperability, governance and beyond :)

Q: When will there be hardware wallet support?

A (Will): Parity Signer works well for now. Other hardware wallets will be added pretty soon

Q: What are the attractive feature of DOT project that can attract any new users ?

A: https://polkadot.network/what-is-polkadot-a-brief-introduction/
A (Will): Buidling parachains with cross chain messaging + bridges to other chains I think will be a very appealing feature for developers

Q: According to you how much time will it take for Polkadot to get into mainstream adoption and execute all the plans set for this project?

A: We are solving many problems that have held back the blockchain industry up until now. Here is a summary in basic terms:
https://preview.redd.it/ls7i0bpm8p951.png?width=752&format=png&auto=webp&s=a8eb7bf26eac964f6b9056aa91924685ff359536

Q: When will bitpie or imtoken support DOT?

A: We are working on integrations on all the biggest and best wallet providers. ;)

Q: What event/call can we track to catch a switch to nPOS? Is it only force_new_era call? Thanks.

A (Will): If you're on riot, useful channels to follow for updates like this are #polkabot:matrix.org and #polkadot-announcements:matrix.parity.io
A (Logan): Yes this is the trigger for initiating the switch to NPoS. You can also poll the ForceEra storage for when it changes to ForceNew.

Q: What strategy will the Polkadot Team use to make new users trust its platform and be part of it?

A (Will): Pushing bleeding edge cryptography from web 3 foundation research
A (Dan): https://t.me/PolkadotOfficial/43378

Q: What technology stands behind and What are its advantages?

A (Dieter): Check out https://polkadot.network/technology/ for more info on our tech stack!

Q: What problems do you see occurring in the blockchain industry nowadays and how does your project aims to solve these problems?

A (Will): Governance I see as a huge problem. For example upgrading Bitcoin and making decisions for changing things is a very challenging process. We have robust systems of on-chain governance to help solve these coordination problems

Q: How involved are the Polkadot partners? Are they helping with the development?

A (Dieter): There are a variety of groups building in the Polkadot ecosystem. Check out http://www.polkaproject.com/ for a great list.

Q: Can you explain the role of the treasury in Polkadot?

A (Will): The treasury is for projects or people that want to build things, but don't want to go through the formal legal process of raising funds from VCs or grants or what have you. You can get paid by the community to build projects for the community.
A: There’s a whole section on the wiki about the treasury and how it functions here https://wiki.polkadot.network/docs/en/mirror-learn-treasury#docsNav

Q: Any plan to introduce Polkadot on Asia, or rising market on Asia?

**A (Will):**We're globally focused

Q: What kind of impact do you expect from the Council? Although it would be elected by token holders, what kind of people you wish to see there?

A (Will): Community focused individuals like u/jam10o that want to see cool things get built and cool communities form

If you have further questions, please ask in the official Polkadot Telegram channel.
submitted by dzr9127 to dot [link] [comments]

An intro to mystery shopping apps, and quick cash!

Mystery shopping is a ton of fun, and usually very easy. Many of you may already use some or all of the apps listed in this post, but I'm sure there are plenty of people who don't or haven't even heard of them. In this post, I'm gonna go over the apps that I use which are a good intro into mystery shopping, and discuss what I like about them, what I dislike if anything, and how they work. These apps offer smaller tasks for you to complete in your local area, and aren't as time-consuming as regular mystery shopping, which is great if you're looking for some quick cash. The premise of all of these apps is pretty much the same: you open the app, look at the available jobs around you on a map, or in list form, and get paid for completing them. You travel to the location specified, and do the work requested in the fashion of a survey where you'd go step-by-step through the job for each task they'd like you to do. Another thing that they have in common is that they expect you to submit quality work (no blurry photos, clearly written responses, etc), and have a good attention to detail when it comes to the job's requirements and instructions.
 

Field Agent

REF | Invite Code: x59kv92 | NON-REF
Field Agent is, by far, my favorite of these apps that offer smaller jobs. The jobs are typically not too in-depth, and the pay is better than some of the others when considering the amount of work required. For instance, most of the jobs I do for Field Agent need only a few photos and ask a few multiple choice questions, and usually pay between $3-5. Don't expect all of them to be that way, though. For instance, I did a job a few days ago that asked me to walk around a convenience store and give my opinion on the store's cleanliness, check out a milkshake machine, look for signage/promotional material related to that machine, and give my opinions about. In total, that job took me about 10 minutes, and it paid $4. The good thing is that you can pick and choose the jobs you want to do. You reserve the job, and then go out and do it. The average window they give you to submit your completed job is 2 hours, which is way more than enough time to claim the job and get it done. Any jobs that would require more time will have a larger window for completion.
They also offer more in-depth jobs from time to time, and sometimes even multi-part consumer surveys. One of my favorite categories is Buy & Try. These are exactly what they sound like. They want you to purchase a specific product, submit a photo of your receipt, then try it out and tell them what you like and don't like about it. The best part is that in addition to paying you for the job, usually around $3, they also reimburse you for the price of the product when your job is approved. Reimbursement isn't limited to the Buy & Try category, though. If you're required to purchase something, they'll typically reimburse you for your cost of the product, and it will say so in the job's description.
Another thing that makes Field Agent stand out from the rest is that they have Scavenger Hunt categories. These are filled with products from somewhere that they need more information about. They provide you with the product's name, as it would appear in a store's inventory or on a receipt, the specific UPC of that product, and the store that it could possibly be found at. You don't actually have to find them at the listed store, though, or even at any store at all. If you have the product at your house, or a friend's house or whatever, that's perfectly fine as well. The item names are heavily abbreviated, so you've gotta be creative when trying to decipher them. If you do happen to find the exact product, which is evident by the product's UPC, then the bounty for these jobs is $6.50 for each one. My biggest piece of advice for the Scavenger Hunt items is to not spend a lot of time trying to find them, or going out of your way to do so. Stick to products you recognize, and may remember seeing somewhere. In some cases, the products shown are seasonal, regional, or even discontinued, which is why I don't suggest you go scouting for them specifically. Instead, take a peak around if you happen to already be somewhere that may carry it.
One more thing: DO THE TICKET JOBS!!! These don't pay anything, but they do sometimes qualify you for other jobs that you wouldn't be offered without having completed the qualifying ticket job first. They're very quick to do, and consist of anywhere from 1 - quite a few questions, but normally only take 30 seconds to a minute to complete. Each one you complete also gives you a ticket for their monthly drawing, and if you win that, the more tickets you have, the higher your prize will be (up to $500).
Average Pay: $3 - $5 per job
Average Approval Time: 1-3 business days
Cash Out Method: ACH (bank account required)
Minimum Cash Out: $3
Availability: United States, Canada, United Kingdom, Australia, South Africa, Mexico, Ecuador
 

Mobee

Referral Code: QXDD | NON-REF
This is a pretty good one, and the pay is also pretty decent. I'm ranking this below Field Agent, though, because the "missions" tend to involve a bit more walking around and require more photos/questions to be answered. You're also not paid out in cash, but rather gift cards.
If you sign up using my referral code above, you'll also get an extra $3 (300 points) after your first mission is approved.
What sets it apart from Field Agent is that they sometimes give you bonus points, when your mission is approved, for various things. Bonus points can be awarded for such things as a long distance from the last mission you completed (even if it's not on the same day), your first time completing a mission at a specific store, etc. For the distance bonus, the farther straightline distance between jobs, starting at just 10 miles, the more bonus points you'll receive.
You can also earn points for claiming Achievements (you have to manually claim them from the Achievements tab once you've reached the specified goals). My favorite of all the achievements is specifically for new users where you can receive a total of $31, collectively through 5 separate Achievements, for completing just a single mission on 30 different days. The first of these 5 Achievements rewards $1 for completing just one mission. Other Achievements are for completing a specified number of missions at certain stores like Target, Best Buy, Home Depot, Lowe's, etc.
One fallback of Mobee is that they don't pay you in dollar amounts, but it still isn't bad in my opinion. Instead, they award you with points (100 points = $1). You can redeem your points for gift cards which start as low as $5, and cover numerous retailers, restaurants, a virtual MasterCard, and more. You could also donate your earnings to a charitable organization listed in the app if you wish.
Another fallback, which actually kinda annoys me, but hasn't actually been an issue in my years of using the app, is that you cannot reserve missions. The mission must be available when you arrive at the location requested, and you aren't able to start it until you are there. Luckily, I don't live in a large area, so this hasn't been a problem for me as of yet.
Average Pay: $2 - $5 (200-500 points) per job
Average Approval Time: 3-5 business days
Cash Out Method: Gift Cards
Minimum Cash Out: $3 (for charitable donations), $5 (for gift cards)
Availability: United States, Canada
 

EasyShift

NON-REF
EasyShift is good, but you must pay attention to the requirements of each "shift." The rate of pay for EasyShift, in regard to the amount of work required, isn't normally as high as Field Agent or Mobee, but if you pick the right ones, it certainly can be, so be sure to read what's required of you for each of the shifts before you reserve them, as sometimes you'll find it's just not worth your time. Also, even though the rate of pay isn't always as high, the amount paid per job is usually higher than the former two.
Like Field Agent, you are able to reserve shifts, so you don't have to worry about it being taken by the time you get to your location.
The biggest problem I've had with EasyShift is the in-app camera, which doesn't show the full area of what you're capturing. This can be a bit annoying when you're asked to take a photo of something, which I'm pretty sure is required in every job if I'm not mistaken. The good thing is that you can review your photos, and delete/retake them if you need to. I've pretty much gotten used to this quirk, and adjust accordingly, so it doesn't bother me as much as it used to, but it would still be nice if they fixed it. Keep in mind that I'm using an Android device, so this may not be an issue for iOS users.
Average Pay: $5 - $10 per job
Average Approval Time: 3-7 business days
Cash Out Method: PayPal
Minimum Cash Out: None (Your pay for each shift is deposited into your PayPal account within a few days of it being approved)
Availability: United States
 

Merchandiser by Survey.com

REF | Referral Code: kevinfMJY6 | NON-REF
This is definitely a fun and very lucrative one. The pay rate for this app is actually really good. The only reason I'm putting it way down here is because the work involved for each of the "gigs" is more in-depth and sometimes labor-intensive. However, you do have the opportunity to earn much more, and you can be in direct contact with the people who are running the projects, which helps to lead to more and higher-paying gigs if you're able to complete more of the same ones, for instance. It also helps should you have any questions, or issues that need to be addressed.
The best parts of this app are the pay, the variety of gigs posted, and the direct contact with project managers/assigners.
To give a recent example, I completed a gig at a local Walmart which required that I scan the shelf tags of all products on all endcaps of the specified departments within the store. This type of gig is especially easy, since the in-app barcode scanner allows you to scan barcode after barcode in batches without having to submit each one. That gig took me roughly 30-45 minutes to complete, and paid $25.
To give an example of the opportunities for extra work, a while back my mother (who referred me to the app) requested, and was assigned, an audit of a beer cave at a local Circle K convenience store. The audit took about 10 or so minutes to complete, and paid quite decently. The project assigner contacted her via text message asking if she'd be interested in completing a route that same audit at all of the Circle K convenience stores a few cities over (about an hour drive from her home, and included 15-20 stores total). She accepted when he said they'd pay her mileage, a bonus, and a bit more for each of the audits than the first of she could have it done by the end of the upcoming weekend. In total, she made a little over a few hundred dollars for the two or so days she put into it. They really like quality work, by the way. After completing those, he asked if she'd be interested in completing another route of the same audits, but in the next state which is about 2 hours from her home. She wished she would've had the time to do it, since he offered mileage, hotel and food costs, and another slight pay bump to each of the audits. Unfortunately it needed to be done during a time when she had previous engagements, so she had to decline.
The types of gigs they offer include those such as quick and simple audits, product demos that you'd perform in stores (these usually require about 3-4 hours of your time, and also an application to be submitted and approved, but they pay very well. As an example, they're currently running a 4-hour product demo project which pays $20/hour), product shelf resets, POS placements (this is where you'd be placing promotional material or signage, product displays, etc. for a specific product in a store), and more!
The one thing that may be intimidating about the app is navigation. There are quite a few things to click on to get the information you need. This isn't a huge issue, however, since after using it for some time, you get used to the app's layout and how to find everything you need to be successful.
Average Pay: $7 - $20 per job
Approval Time: 8 business days (scheduled)
Cash Out Method: PayPal
Minimum Cash Out: $5 (You must request a payout in the app. Payments are sent on a specified schedule, which also depends on the date you request your payout. The payment schedule for 2019 can be viewed here.)
Availability: United States
 

Honorable Mentions

The following apps are those which I don't use very often because they don't list very many jobs in my area, so they're not as lucrative to me. I'm still going to list them because they may still be worth a look for you, since you never know what they may have available in your area.
 
Gigwalk NON-REF Availability: United States, Canada
Cash Out Method: PayPal
 
Observa REF | Referral Code: initial-gharial | NON-REF Availability: United States (Maybe others. Their site lists only North America as a whole)
Cash Out Method: PayPal, Coinbase (Bitcoin, Bitcoin Cash, Ethereum, and Litecoin)
 
If there are any other similar apps that you all use, feel free to drop them in the comments along with something about them. I'm always on the lookout for more apps to add to my arsensal.
If you have any questions about any of the aforementioned apps, feel free to ask in the comments. I'll do my best to answer anything I can.
submitted by PutterPlace to beermoney [link] [comments]

As part of my ongoing effort to develop stupid shit for Garlicoin, I present you: W-addresses!

“Wait, what?!” I hear you asking? Well…(buckle up, this is another one of my technical posts that goes on, and on…)
For some time now, I have been using native SegWit (Pay-to-Witness-Public-Key-Hash, P2WPKH) transactions for myself. Mostly because they have a 75% fee subsidy on signature data (which comes out on ~50% fee subsidy on the entire transaction, depending on the type of transaction) and I am dutch after all ;-)
It turns out that Garlicoin Core kind of supports them and kind of does not. If you manually register the transaction redeem script to your wallet (using the addwitnessaddress command) it will start recognizing them on the blockchain but gets kind of confused on how to deal with them, so it registers them all as ‘change’ transactions. Still, this means you can receive coins using these types of transactions and pay with them in all ways you can with regular Garlicoins, except your transactions are cheaper.
However, sending coins using native SegWit is quite a hassle. You can basically only do it by creating your own raw transactions (createrawtransaction, edit it to make it native SegWit, fundrawtransaction, signrawtransaction, sendrawtransaction). On top of this, any change address the wallet creates are still legacy/normal Garlicoin addresses, so you will end up with a bunch of unspent transaction outputs (UTXOs) for which you have to pay full fee anyway. I decided we (I) could do better than this.
But first a few steps back. What is this native SegWit anyway and weren’t people already using SegWit? Wasn’t there a user that just after mainnet launched accidentally made a SegWit transaction? So what the hell am I talking about?
To understand this, you will need to know a few things about what SegWit is and how Bitcoin Garlicoin transactions work in general. Note that this bit gets really technical, so if you are not interested, you might want to skip ahead. A lot.
First thing to understand is that addresses are not really a thing if you look at the blockchain. While nodes and explorers will interpret parts of a transaction as addresses, in reality addresses are just an abstraction around Bitcoin Script and an easy way send coins instead of asking people “hey, can you send some coins to the network in such a way that only the private key that corresponds to public key XYZ can unlock them?”. Let’s look at an example: say I ask you to send coins to my address GR1Vcgj2r6EjGQJHHGkAUr1XnidA19MrxC. What ends up happening is that you send coins out a transaction where you say that the coin are locked in the blockchain and can only be unlocked by successfully executing the following script:
OP_DUP OP_HASH160 4e9856671c3abb2f03b7d80b9238e8f5ecd9f050 OP_EQUALVERIFY OP_CHECKSIG
Now, without getting too technical, this means something like this:
As you can see, the address actually represents a well-known piece of script. This start making sense if you look at the decoded address:
26 4E9856671C3ABB2F03B7D80B9238E8F5ECD9F050 F8F1F945
The first byte (0x26, or 38) is the version byte. This tells the clients how the interpret the rest of the script. In our case 38 means Pay-to-Public-Key-Hash (P2PKH), or in other words the script mentioned above. The part after that is just the SHA1 hash of the public key and the final 4 bytes are a checksum to verify you did not make a typo when entering the address.
Enter SegWit. What SegWit exactly is depends on who you are talking to, however it mostly is a different transaction format/protocol. The main change of SegWit is that signature data is not longer included in the transaction (fixing transaction malleability). Instead transaction data is sent separate from the transaction itself and outside of the (main) blocks.
This is not really that much of an issue, except for the fact that people wanted to enable SegWit as a soft-fork instead of a hard-fork. This means that somehow unupgraded nodes needed a way to deal with these new transaction types without being able to verify them.
The solution turned out to be to make use of an implementation detail of Bitcoin Script: if a piece of script executes without any errors, the last bit of data determines whether the transaction is valid (non-zero) or invalid (zero). This is what they used to implement SegWit.
So what does this look like? Well, you might be surprised how simple a P2WPKH (the SegWit way of doing a P2PKH transaction) script looks:
00 4e9856671c3abb2f03b7d80b9238e8f5ecd9f050
Yes. That’s it.
The first byte is the Witness program version byte. I.e. it tells you how the other data should be interpreted (very similar to how addresses work). Then there is the hash of the public key. As you can see, SegWit does not actually use Bitcoin Script. Mostly because it needs old nodes to ‘just accept’ its transactions. However interestingly enough, while the transaction format changed, the transaction data is pretty much the same:
This means that these kind of SegWit transactions need a new way of addressing them. Now, you might think that this is where the ‘3’ addresses on Bitcoin or the ‘M’ addresses on Garlicoin come in. However, that is not the case.
These addresses are what are called Pay-to-Script-Hash (P2SH) addresses. There scrypt is like this:
OP_HASH160 35521b9e015240942ad6b0735c6e7365354b0794 OP_EQUAL
Huh? Yeah, these are a very special type of transactions, that kind of go back to the “hey, can you send some coins to the network in such a way that only the private key that corresponds to public key XYZ can unlock them?” issue.
These transactions are a way to have arbitrary smart contracts (within the limits of Bitcoin Script) to determine whether a transaction output can be spend or not without the sender of the coins having to deal with your scripts. Basically they use a hash of the “real” script, which whoever owns the coins has to provide when they want to spend them, as well as the specific inputs required for a script. This functionality is for example used in multi-signature (MultiSig) wallets, without requiring someone sending money to these wallets having to deal with random bits of information like how many signatures are required, how many private keys belong to the wallet, etc.
This same method is used for so called P2SH-wrapped SegWit transactions (or P2SH-P2WPKH). Consider our earlier SegWit transaction output script:
00 4e9856671c3abb2f03b7d80b9238e8f5ecd9f050
Or 00144e9856671c3abb2f03b7d80b9238e8f5ecd9f050 in low-level hex. The P2SH script for this would be:
OP_HASH160 a059c8385124aa273dd3feaf52f4d94d42f01796 OP_EQUAL
Which would give us address MNX1uHyAQMXsGiGt5wACiyMUgjHn1qk1Kw. This is what is now widely known and used as SegWit. But this is P2SH-wrapper SegWit, not native or "real" SegWit. Native would be using the data-only SegWit script directly.
The reason for using the P2SH variant is mostly about compatibility. While SegWit nodes understand these newer transactions, they were never officially assigned a way to convert them to addresses. Hence, they will show up in blockchain explorers as Unparsed address [0] or something similar. Then there is also the whole thing about old nodes and relaying non-standard transactions, but I will skip that bit for now.
Bitcoin is using/going to use new BECH32 addresses for native SegWit transactions, which looks completely different from the old Base-58 encoded addresses. However, right now, especially on Garlicoin, you cannot really use them and have to use the P2SH variant. But why not use these new cool transaction types without having to deal with all that useless and complex P2SH wrapping, right? Right? …
Well, I went ahead and gave them their (unofficial) address space.
So last thursday I made some changes to Garlicoin Core, to make dealing with these native SegWit transaction a lot easier. In short, the changes consist of:
  • Assigning address version byte 73 to them, in other words addresses starting with a ‘W’ (for ‘witness’).
  • Allowing the use of ‘W’ addresses when sending coins.
  • Make the wallet automatically recognize the SegWit transaction type for any newly generated address.
  • Add the getwitnessaddress command, which decodes a version 38 ‘G’ address and re-encodes the same data as a version 73 ‘W’ address (unfortunately it is not as simple as just changing the first letter). Note that this can be any address, not just your own. (That said, you should not send SegWit transactions to people not expecting them, always use the address given to you.)
  • Added the usewitnesschangeaddress configuration setting, to automatically use the cheaper SegWit transaction outputs for transaction change outputs.
  • (Since using the 'W' address only changes the way coins are sent to you and the private key used for both transaction types is the same:) When receiving coins they show all up under the original ‘G’ address, whether a SegWit or legacy/normal transaction type was used. The idea behind this is that both are actually the same "physical" (?) address, just to the way to coins to it differs. Address book entries are also merged and default to the ‘G’ address type.
Anyway, I don’t expect people to actually use this or it getting merged into mainline or anything. I actually mostly made this for myself, but thought I should share anyway. I guess it was also a nice opportunity to talk a bit about transactions and SegWit. :-)
Btw, I also changed my pool to allow mining to ‘W’ addresses, to make coin consolidation cheaper (due to the SegWit fee subsidy). Right now this is only for instant payout though (as I would have to update the wallet node the pool is using for daily payout, which I haven’t done yet).
Also note that you can actually mine to a ‘W’ address (and therefore use cheaper transactions) even if you are running the official, non-patched version of Garlicoin Core, however:
  • You need to manually convert your ‘G’ address to a ‘W’ address.
  • You need to run the addwitnessaddress command (Help -> Debug Window -> Console) to make the wallet recognize SegWit transactions (you can ignore the ‘M’ address it produces).
  • The wallet might get a bit confused as it does not really understand how it got the coins. This is mostly notable in the ‘Coin Control’ window if you have it enabled. Apart from that everything should still work though.
submitted by nuc1e4r5n4k3 to garlicoin [link] [comments]

Frequently Asked Questions

NOTICE

This post is a temporary resting place for FAQs while we wait for the release of VertDocs.

What is Vertcoin?

Vertcoin is a digital peer to peer currency focused on decentralization and ASIC resistance. Vertcoin is aiming to be easily accessible to the everyday user without extensive technical knowledge. Vertcoin has started to lower the barrier of entry with lots of video guides and the development of the One Click Miner (OCM).

Why does ASIC Resistance Matter?

ASICs (Application Specific Integrated Circuits) are dedicated mining devices that can only mine one algorithm. Coins like Bitcoin and Litecoin both made GPU mining obsolete when SHA-256 and Scrypt ASICs were created.
ASIC Resistance and How it Makes Vertcoin Decentralized
Vertcoin believes that ASIC resistance goes hand in hand with decentralization.
ASICs are made by companies like Bitmain and almost all the original sellers of ASICs sell on a preorder basis. When pre ordering an ASIC you are buying from a limited batch that the ASIC company has produced. Often times the batch will not be fully filled and the ASIC company will often have left over ASICs. When the ASIC company has left over ASICs they will put them to work mining. Soon enough the ASIC company will have a very large amount of unsold ASICs that are mining and slowly the ASIC company starts to own a large part of the network’s hashrate. When an ASIC company(s) starts to own a large majority of the hashrate the network can become very centralized after a while.
Having your network consist of a few large companies can be very dangerous as they could eventually get 51% hashing power and 51% attack your network, destabilizing the network. When your network is made out of a lot of smaller miners, like Vertcoin, it is much harder for your network to be 51% attacked, therefore increasing network security. By having centralized hashing power your coin effectively centralizing the network as the centralized hashing power can deny transactions and stop any activity they don’t want.

What Ways is Vertcoin Superior to Litecoin and Bitcoin?

Network Difficulty Adjustments with Kimoto Gravity Well
Vertcoin uses a difficulty adjustment called Kimoto Gravity Well which adjusts the difficulty every block, whereas Bitcoin and Litecoin’s difficulty changes every 2016 blocks. By adjusting the difficulty every block Vertcoin’s block time can stay consistent by adjusting for the fluctuation in network hash rate from hash rate renting and part time miners. If a large miner switches off Bitcoin or Litecoin mining the network could be slowed to a crawl until 2016 blocks are mined and the difficulty can change to adjust for the new network hash rate. We observed this happen to Bitcoin when Bitcoin Cash became more profitable than Bitcoin and Bitcoin’s network hash rate saw a steep fall off, slowing the network to a crawl. If this was to happen with Vertcoin the difficulty would adjust after 1 block was mined, allowing Vertcoin to always be profitable to mine.
Anyone can Meaningfully help Verify Transactions
In Proof-of-Work crypto currencies miners help secure the blockchain and get rewarded with the block reward. In ASIC mineable coins like Bitcoin and Litecoin you can’t meaningfully verify transactions unless you pay 1000-2000$ for a ASIC miner. When you mine with a CPU or GPU in a ASIC mineable coin you make no meaningful impact on the network. It is like trying to break concrete with a shovel while everyone else has a jackhammer.
Simple Upgrades Aren’t Held back by 1-2 Large Miners
In ASIC market people buy ASICs in batches in a preorder. With Bitcoin ASICs there is not enough demand for ASICs so the batch often doesn’t get sold out so now the manufacturer has spare ASICs. Now that the manufacturer has spare ASICs they will often start mining with them and eventually the ASIC company has one of the highest hash rates. If the ASIC company doesn’t want a certain upgrade to go through, for example SegWit, they can vote with their hash rate to hold back the upgrade forever or at least until people who want SegWit get more hash rate.
You Have a Say in Protocol Rules and Consensus
In Bitcoin you are a passive observer because you can only issue transactions and you have no part in the process after that. In Vertcoin you can be apart of the process for deciding the ordering of transactions and deciding what transactions get into blocks.
Block Rewards and Transaction Fees are Distributed Evenly
In Bitcoin and Litecoin the block rewards and transaction fees are often given to the large miners in China due to mining centralization created by ASICs. Vertcoin distributes its mining rewards to people all around the world thanks to the mining decentralization.

When will Atomic Swaps Be Ready?

Atomic Swaps can be done in two flavors: On-chain and Off-chain (via Lightning Network). On-chain swaps were actually done already using Blocknet, you can see it in use on Youtube. We're looking into doing it again using Interledger.
However our main focus is to do off-chain Atomic Swaps using Lightning Network technology. Because it has the same benefits as Lightning transactions: No network fees and instant transactions.
For off-chain swaps we need Lightning Network to be fully operational. It's difficult to give an ETA on that since we aren't the ones developing it. U/gertjaap posted a video on the current state of the Lightning Network for Vertcoin a while ago, which you can see here.
This was actually the "bleeding edge" of Lightning Network at the time. was able to use it on VTC's main net, meaning that our blockchain is ready for the good stuff. As you can see however, it can't yet be considered production ready (most users would want a little better UX than a command line app).
Now off-chain Atomic Swaps is a technique based on the same principles as Lightning Network, but adds an extra complexity for it being across chains. So it's basically the same as a "multi hop" Lightning payment, which is not yet built by any of the implementations. They're still working hard on making the single-hop payments robust. So in order for AS to be possible, LN has to be fully operational.
A timeline cannot be given at this time, because frankly we don't know. The implementation of Lightning Network we feel has the most potential is LIT, because it supports multiple currencies in its protocol (where LND is bitcoin-only at the time and requires significant work to support other currencies, which is an essential part of being able to work across multiple blockchains).
LIT is open source and there's nothing secretive about its progress, you can see the development on Github. We even have our lead dev James Lovejoy (u/jamesl22) close to the action and contributing to it where possible (and our team as well through testing it on the Vertcoin chain).
So we're not developing LN or AS ourselves, we're just ready with our blockchain technology whenever it becomes available.
If we have any real progress that has some substance, you can expect us to let the world know. We're not interested in fluffy marketing - we post something when we achieve real progress. And we are not keeping that secret.

How do I Choose the Right Vertcoin Wallet?

Deciding what Vertcoin wallet you should choose can be a difficult process. You can choose between three different wallets: Core, Electrum and Paper. Once you decide you can use the "How to Setup Your Vertcoin Wallets" video guide to assist you.

Core

The Core wallet is the wallet that most people should use. It will store the entire blockchain (~2GB) on your computer. The Core wallet is the only wallet that fully supports P2Pool mining. You will also have to use the Core wallet if you plan to run a P2Pool node or any Vertcoin related server.

Electrum

The Electrum wallet is a light wallet for Vertcoin. You do not have to download the blockchain on your computer, but you will still have your own private keys on your computer. This is recommended for people who don't need to store Vertcoins for very long and just need a quick but secure place to store them.

Paper

The Paper wallet is as the name implies, a physical paper wallet. When generating a paper wallet you will get a pdf that will need to print out. A paper wallet is normally used for long term storage since it is the safest way to store Vertcoins. A paper wallet can also be called "cold storage." Cold storage references the storage of your coins offline, preventing you from getting hacked over the internet.

Ledger Nano S

The Ledger Nano S is a hardware wallet designed by Ledger. A hardware wallet is similar to a paper wallet since it is normally used for cold storage. The hardware wallet is on par with the security of a paper wallet while being easy to use and setup. Note: You should never mine directly to a Ledger hardware wallet.

How do I start mining Vertcoin?

We have many guides available for you to use depending on your computer specifications.
Nvidia GPUs on Windows
Nvidia GPUs on Linux
AMD GPUs on Windows WARNING: Very unprofitable, AMD optimized miner is coming very soon.

Where can I get the One Click Miner (OCM)

You can get the latest version of the One Click Miner in the Vertcoin Discord. The download is pinned to the top of the #oneclick channel.

What do all the Numbers Mean on P2Pool’s Web Interface

I've seen a lot of confusion from new miners on public p2pool nodes, so here's a primer for the most common static node page style, for first time miners: https://imgur.com/K48GmMw

Active Miners on this Node

Address - This is the list of addresses currently mining on this node. If your address does not show up here, you are not mining on this node.
Hashrate
This is a snapshot of your hashrate as seen by the node. It will fluctuate up to 15% from the hashrate you are seeing on your mining software, but will average out to match the output in your mining software.
Rejected Hashrate
This is the amount of your hashing contribution that is rejected, both in hashrate and as a percentage of your total contribution. Running your own p2pool node minimizes this number. Mining on a node that is geographically close to reduce lag also minimizes this number. Ideally you would like it to be less than 1%, but most people seem happy keeping it under 3%.
Share Difficulty
This speaks for itself, it is the difficulty of the share being currently worked on. Bigger numbers are more difficult.
Time to Share
This is how long you need to mine before you will receive any payouts, or any "predicted payout." The lower your hashrate, the higher your time to share.
Predicted Payout
This is the reward you would receive if a block was found by p2pool right now. If it reads "no shares yet" then you have not yet been mining the requisite amount of time as seen in the previous "time to share" column.

Status

Network Hashrate
This is the total hashrate of all the miners mining vertcoin everywhere, regardless of where or how.
Global Pool Hashrate
This is the total hashrate of all the miners mining vertcoin on this p2pool network, be it the first network or the second network.
Local Pool Hashrate
This is the total hashrate of all the miners mining Vertcoin on this node.
Current Block Value
This is the reward that will be given for mining the current block. The base mining reward is currently 50 VTC per block, so any small decimal over that amount is transaction fees being paid by people using the network.
Network Block Difficulty
This is the difficulty of the block being mined. The higher the number, the higher the difficulty. This number rises as the "Network Hashrate" rises, so that blocks will always be found every 2.5 minutes. Inversely, this number falls when the "Network Hashrate" lowers as well.
Expected Time to Block
This is a guess at how much time will elapse between blocks being found by this p2pool network. This guess is accurate on average, but very inaccurate in the short term. Since you only receive a payout when the network finds a block, you can think of this as "Estimated Time to Payout."

Why is P2Pool Recommended Over Traditional Pools?

Decentralisation

P2Pool is peer to peer allowing a decentralized pool mining system. There are many nodes setup around the world that connect to each other too mine together. Many other coins have 1 very large pool that many miners connect to and sometimes the largest pool can have 51% or more of the network hash rate which makes the network vulnerable to a 51% attack. If P2Pool is the largest network then that prevents the Vertcoin network to be susceptible to a 51% attack as P2Pool is decentralized.

PPLNS Payout System

P2Pool uses a PPLNS (Pay Per Last N Shares) payout system which awards miners more the longer they mine, sort of like a loyalty system. A drawback to this system is that part time miners that aren't 24/7 won't be able to earn that much.

2 Networks

While Network 1 is catered towards 24/7 miners and people who have dedicated mining rigs, Vertcoin has a second P2Pool network where part time miners and miners under 100 MH/s can go to mine.

Mines Directly to Your Wallet

P2Pool mines directly to your wallet and cuts out the middleman. This reduces the likely hood that the pool will run away with your coins.

No Downtime

Since P2Pool is decentralized and has different nodes for you to choose from there will be no downtime because the P2Pool network does not die if one node goes down. You can setup a backup server in your miner so that you will have no downtime when mining.

Anonymity and Security

When using P2Pool you use a wallet address making your real identity anonymous, you are simply known by a random 34 letter string. Along with using a wallet address instead of a username there is no password involved P2Pool preventing the possibility of cracking your pool account (If you were on a traditional pool,) and stealing all your coins.

How do I Find a Nearby P2Pool Node

You can find the public p2pool nodes the the P2Pool Node Scanners. If you want to find a network 1 node go here. If you want to find a network 2 node go here.

How do I setup a P2Pool Node?

Linux P2Pool Setup
Windows P2Pool Setup (Text)
Windows P2Pool Setup (Video) This guide setups a network 2 node. When downloading Python download the 32bit version, not the 64bit. Downloading the 64bit version causes problems with the twisted install.
How do I setup a change my node to network 1 or network 2?
In the P2Pool startup script when you type the --network flag add vertcoin1 for network 1 and vertcoin2 for network 2 right after.

How do I Buy Vertcoin?

You can see a video guide on Youtube, "How to Buy Vertcoin with Fiat Using Bittrex and Coinbase"

How can I get help with "X problem?"

The quickest way for you to get help is for you to join the Vertcoin Discord Group. We almost always have knowledgable Vertans, whether that be developers or experienced Vertans, online to help you with whatever problems you may have.

How can I donate to the Developers?

You can donate to the dev fund at https://vertcoin.org/donate/. You can select what you want your funds to go to by donating to the corresponding address. You can also see how much funding is required and how much we have donated.

Where can I see what exchanges Vertcoin is on?

You can see what exchanges Vertcoin is listed on at CoinMarketCap. You can see what exchanges Vertcoin has applied to be on at this google docs spreadsheet.

Where can I see Vertcoin's Roadmap?

The Vertcoin developers currently have a trello board where you can see the goals and what the status of said goal is. You can also vote on what you want the Vertcoin developers to focus on next.

What is the Status of the AMD Optimized Miner?

The AMD Optimized Miner internal beta is aiming to be ready by the end of September. The AMD Optimized Miner is currently being developed by @turekaj on the Vertcoin Discord. He currently does not have a Reddit account and Discord is the only way you can contact him.

What Does Halving Mean?

Halving means that the block reward for miners will be split in half. Halving happens around every 4 years for Vertcoin or 840,000 blocks. This means around December miners will only receive 25 VTC per block instead of the current 50 VTC per block.
If you would like to add another question to this list please comment it and I will get around to adding it ASAP.
submitted by asianboygames to vertcoin [link] [comments]

World History Timeline of Events Leading up to Bitcoin - In the Making

A (live/editable) timeline of historical events directly or indirectly related to the creation of Bitcoin and Cryptocurrencies
*still workin' on this so check back later and more will be added, if you have any suggested dates/events feel free to lemme know...
This timeline includes dates pertaining to:
Ancient Bartering – first recorded in Egypt (resources, services...) – doesn’t scale
Tally sticks were used, making notches in bones or wood, as a form of money of account
9000-6000 BC Livestock considered the first form of currency
c3200 BC Clay tablets used in Uruk (Iraq) for accounting (believed to be the earliest form of writing)
3000 BC Grain is used as a currency, measured out in Shekels
3000 BC Banking developed in Mesopotamia
3000 BC? Punches used to stamp symbols on coins were a precursor to the printing press and modern coins
? BC Since ancient Persia and all the way up until the invention and expansion of the telegraph Homing Pigeons were used to carry messages
2000 BC Merchants in Assyria, India and Sumeria lent grain to farmers and traders as a precursor to banks
1700 BC In Babylon at the time of Hammurabi, in the 18th century BC, there are records of loans made by the priests of the temple.
1200 BC Shell money first used in China
1000-600 BC Crude metal coins first appear in China
640 BC Precious metal coins – Gold & Silver first used in ancient Lydia and coastal Greek cities featuring face to face heads of a bull and a lion – first official minted currency made from electrum, a mixture of gold and silver
600-500 BC Atbash Cipher
A substitution Cipher used by ancient Hebrew scholars mapping the alphabet in reverse, for example, in English an A would be a Z, B a Y etc.
400 BC Skytale used by Sparta
474 BC Hundreds of gold coins from this era were discovered in Rome in 2018
350 BC Greek hydraulic semaphore system, an optical communication system developed by Aeneas Tacticus.
c200 BC Polybius Square
??? Wealthy stored coins in temples, where priests also lent them out
??? Rome was the first to create banking institutions apart from temples
118 BC First banknote in the form of 1 foot sq pieces of white deerskin
100-1 AD Caesar Cipher
193 Aureus, a gold coin of ancient Rome, minted by Septimius Severus
324 Solidus, pure gold coin, minted under Constantine’s rule, lasted until the late 8th century
600s Paper currency first developed in Tang Dynasty China during the 7th century, although true paper money did not appear until the 11th century, during the Song Dynasty, 960–1279
c757–796 Silver pennies based on the Roman denarius became the staple coin of Mercia in Great Britain around the time of King Offa
806 First paper banknotes used in China but isn’t widely accepted in China until 960
1024 The first series of standard government notes were issued in 1024 with denominations like 1 guàn (貫, or 700 wén), 1 mín (緡, or 1000 wén), up to 10 guàn. In 1039 only banknotes of 5 guàn and 10 guàn were issued, and in 1068 a denomination of 1 guàn was introduced which became forty percent of all circulating Jiaozi banknotes.
1040 The first movable type printer was invented in China and made of porcelain
? Some of the earliest forms of long distance communication were drums used by Native Africans and smoke signals used by Native Americans and Chinese
1088 Movable type in Song Dynasty China
1120 By the 1120s the central government officially stepped in and produced their own state-issued paper money (using woodblock printing)
1150 The Knights Templar issued bank notes to pilgrims. Pilgrims deposited their valuables with a local Templar preceptory before embarking, received a document indicating the value of their deposit, then used that document upon arrival in the Holy Land to retrieve their funds in an amount of treasure of equal value.
1200s-1300s During the 13th century bankers from north Italy, collectively known as Lombards, gradually replace the Jews in their traditional role as money-lenders to the rich and powerful. – Florence, Venice and Genoa - The Bardi and Peruzzi Families dominated banking in 14th century Florence, establishing branches in many other parts of Europe
1200 By the time Marco Polo visited China they’d move from coins to paper money, who introduced the concept to Europe. An inscription warned, "All counterfeiters will be decapitated." Before the use of paper, the Chinese used coins that were circular, with a rectangular hole in the middle. Several coins could be strung together on a rope. Merchants in China, if they became rich enough, found that their strings of coins were too heavy to carry around easily. To solve this problem, coins were often left with a trustworthy person, and the merchant was given a slip of paper recording how much money they had with that person. Marco Polo's account of paper money during the Yuan Dynasty is the subject of a chapter of his book, The Travels of Marco Polo, titled "How the Great Kaan Causeth the Bark of Trees, Made Into Something Like Paper, to Pass for Money All Over his Country."
1252 Florin minted in Florence, becomes the hard currency of its day helping Florence thrive economically
1340 Double-entry bookkeeping - The clerk keeping the accounts for the Genoese firm of Massari painstakingly fills in the ledger for the year 1340.
1397 Medici Bank established
1450 Johannes Gutenberg builds the printing press – printed words no longer just for the rich
1455 Paper money disappears from China
1466 Polyalphabetic Cipher
1466 Rotating cipher disks – Vatican – greatest crypto invention in 1000 yrs – the first system to challenge frequency analysis
1466 First known mechanical cipher machine
1472 The oldest bank still in existence founded, Banca Monte dei Paschi di Siena, headquartered in Siena, Italy
1494 Double-entry bookkeeping system codified by Luca Pacioli
1535 Wampum, a form of currency used by Native Americans, a string of beads made from clamshells, is first document.
1553 Vigenere Cipher
1557 Phillip II of Spain managed to burden his kingdom with so much debt (as the result of several pointless wars) that he caused the world's first national bankruptcy — as well as the world's second, third and fourth, in rapid succession.
1577 Newspaper in Korea
1586 The Babington Plot
1590 Cabinet Noir was established in France. Its mission was to open, read and reseal letters, and great expertise was developed in the restoration of broken seals. In the knowledge that mail was being opened, correspondents began to develop systems to encrypt and decrypt their letters. The breaking of these codes gave birth to modern systematic scientific code breaking.
1600s Promissory banknotes began in London
1600s By the early 17th century banking begins also to exist in its modern sense - as a commercial service for customers rather than kings. – Late 17th century we see cheques slowly gains acceptance
The total of the money left on deposit by a bank's customers is a large sum, only a fraction of which is usually required for withdrawals. A proportion of the rest can be lent out at interest, bringing profit to the bank. When the customers later come to realize this hidden value of their unused funds, the bank's profit becomes the difference between the rates of interest paid to depositors and demanded from debtors.
The transformation from moneylenders into private banks is a gradual one during the 17th and 18th centuries. In England it is achieved by various families of goldsmiths who early in the period accept money on deposit purely for safe-keeping. Then they begin to lend some of it out. Finally, by the 18th century, they make banking their business in place of their original craft as goldsmiths.
1605 Newspaper in Straussburg
c1627 Great Cipher
1637 Wampum is declared as legal tender in the U.S. (where we got the slang word “clams” for money)
1656 Johan Palmstruch establishes the Stockholm Banco
1661 Paper Currency reappears in Europe, soon became common - The goldsmith-bankers of London began to give out the receipts as payable to the bearer of the document rather than the original depositor
1661 Palmstruch issues credit notes which can be exchanged, on presentation to his bank, for a stated number of silver coins
1666 Stockholms Banco, the predecessor to the Central Bank of Sweden issues the first paper money in Europe. Soon went bankrupt for printing too much money.
1667 He issues more notes than his bank can afford to redeem with silver and winds up in disgrace, facing a death penalty (commuted to imprisonment) for fraud.
1668 Bank of Sweden – today the 2nd oldest surviving bank
1694 First Central Bank established in the UK was the first bank to initiate the permanent issue of banknotes
Served as model for most modern central banks.
The modern banknote rests on the assumption that money is determined by a social and legal consensus. A gold coin's value is simply a reflection of the supply and demand mechanism of a society exchanging goods in a free market, as opposed to stemming from any intrinsic property of the metal. By the late 17th century, this new conceptual outlook helped to stimulate the issue of banknotes.
1700s Throughout the commercially energetic 18th century there are frequent further experiments with bank notes - deriving from a recognized need to expand the currency supply beyond the availability of precious metals.
1710 Physiocracy
1712 First commercial steam engine
1717 Master of the Royal Mint Sir Isaac Newton established a new mint ratio between silver and gold that had the effect of driving silver out of circulation (bimetalism) and putting Britain on a gold standard.
1735 Classical Economics – markets regulate themselves when free of intervention
1744 Mayer Amschel Rothschild, Founder of the Rothschild Banking Empire, is Born in Frankfurt, Germany
Mayer Amschel Rothschild extended his banking empire across Europe by carefully placing his five sons in key positions. They set up banks in Frankfurt, Vienna, London, Naples, and Paris. By the mid 1800’s they dominated the banking industry, lending to governments around the world and people such as the Vanderbilts, Carnegies, and Cecil Rhodes.
1745 There was a gradual move toward the issuance of fixed denomination notes in England standardized printed notes ranging from £20 to £1,000 were being printed.
1748 First recorded use of the word buck for a dollar, stemming from the Colonial period in America when buck skins were commonly traded
1757 Colonial Scrip Issued in US
1760s Mayer Amschel Rothschild establishes his banking business
1769 First steam powered car
1775-1938 US Diplomatic Codes & Ciphers by Ralph E Weber used – problems were security and distribution
1776 American Independence
1776 Adam Smith’s Invisible Hand theory helped bankers and money-lenders limit government interference in the banking sector
1781 The Bank of North America was a private bank first adopted created the US Nation's first de facto central bank. When shares in the bank were sold to the public, the Bank of North America became the country's first initial public offering. It lasted less than ten years.
1783 First steamboat
1791 Congress Creates the First US Bank – A Private Company, Partly Owned by Foreigners – to Handle the Financial Needs of the New Central Government. First Bank of the United States, a National bank, chartered for a term of twenty years, it was not renewed in 1811.
Previously, the 13 states had their own banks, currencies and financial institutions, which had an average lifespan of about 5 years.
1792 First optical telegraph invented where towers with telescopes were dispersed across France 12-25 km apart, relaying signals according to positions of arms extended from the top of the towers.
1795 Thomas Jefferson invents the Jefferson Disk Cipher or Wheel Cipher
1797 to 1821 Restriction Period by England of trading banknotes for silver during Napoleonic Wars
1797 Currency Crisis
Although the Bank was originally a private institution, by the end of the 18th century it was increasingly being regarded as a public authority with civic responsibility toward the upkeep of a healthy financial system.
1799 First paper machine
1800 Banque de France – France’s central bank opens to try to improve financing of the war
1800 Invention of the battery
1801 Rotchschild Dynasty begins in Frankfurt, Holy Roman Empire – established international banking family through his 5 sons who established themselves in London, Paris, Frankfurt, Vienna, and Naples
1804 Steam locomotive
1807 Internal combustion engine and automobile
1807 Robert Fulton expands water transportation and trade with the workable steamboat.
1809 Telegraphy
1811 First powered printing press, also first to use a cylinder
1816 The Privately Owned Second Bank of the US was Chartered – It Served as the Main Depository for Government Revenue, Making it a Highly Profitable Bank – charter not renewed in 1836
1816 The first working telegraph was built using static electricity
1816 Gold becomes the official standard of value in England
1820 Industrial Revolution
c1820 Neoclassical Economics
1821 British gov introduces the gold standard - With governments issuing the bank notes, the inherent danger is no longer bankruptcy but inflation.
1822 Charles Babbage, considered the "father of the computer", begins building the first programmable mechanical computer.
1832 Andrew Jackson Campaigns Against the 2nd Bank of the US and Vetoes Bank Charter Renewal
Andrew Jackson was skeptical of the central banking system and believed it gave too few men too much power and caused inflation. He was also a proponent of gold and silver and an outspoken opponent of the 2nd National Bank. The Charter expired in 1836.
1833 President Jackson Issues Executive Order to Stop Depositing Government Funds Into Bank of US
By September 1833, government funds were being deposited into state chartered banks.
1833-1837 Manufactured “boom” created by central bankers – money supply Increases 84%, Spurred by the 2nd Bank of the US
The total money supply rose from $150 million to $267 million
1835 Jackson Escapes Assassination. Assassin misfired twice.
1837-1862 The “Free Banking Era” there was no formal central bank in the US, and banks issued their own notes again
1838 First Telegram sent using Morse Code across 3 km, in 1844 he sent a message across 71 km from Washington DC to Baltimore.
1843 Ada Lovelace published the first algorithm for computing
1844 Modern central bank of England established - meaning only the central bank of England could issue banknotes – prior to that commercial banks could issue their own and were the primary form of currency throughout England
the Bank of England was restricted to issue new banknotes only if they were 100% backed by gold or up to £14 million in government debt.
1848 Communist Manifesto
1850 The first undersea telegraphic communications cable connected France in England after latex produced from the sap of the Palaquium gutta tree in 1845 was proposed as insulation for the underwater cables.
1852 Many countries in Europe build telegram networks, however post remained the primary means of communication to distant countries.
1855 In England fully printed notes that did not require the name of the payee and the cashier's signature first appeared
1855 The printing telegraph made it possible for a machine with 26 alphabetic keys to print the messages automatically and was soon adopted worldwide.
1856 Belgian engineer Charles Bourseul proposed telephony
1856 The Atlantic Telegraph company was formed in London to stretch a commercial telegraph cable across the Atlantic Ocean, completed in 1866.
1860 The Pony Express was founded, able to deliver mail of wealthy individuals or government officials from coast to coast in 10 days.
1861 The East coast was connected to the West when Western Union completed the transcontinental telegraph line, putting an end to unprofitable The Pony Express.
1862-1863 First US banknotes - Lincoln Over Rules Debt-Based Money and Issues Greenbacks to Fund Civil War
Bankers would only lend the government money under certain conditions and at high interest rates, so Lincoln issued his own currency – “greenbacks” – through the US Treasury, and made them legal tender. His soldiers went on to win the war, followed by great economic expansion.
1863 to 1932 “National Banking Era” Commercial banks in the United States had legally issued banknotes before there was a national currency; however, these became subject to government authorization from 1863 to 1932
1864 Friedrich Wilhelm Raiffeisen founded the first rural credit union in Heddesdorf (now part of Neuwied) in Germany. By the time of Raiffeisen's death in 1888, credit unions had spread to Italy, France, the Netherlands, England, Austria, and other nations
1870 Long-distance telegraph lines connected Britain and India.
c1871 Marginalism - The doctrines of marginalism and the Marginal Revolution are often interpreted as a response to the rise of the worker's movement, Marxian economics and the earlier (Ricardian) socialist theories of the exploitation of labour.
1871 Carl Menger’s Principles of Economics – Austrian School
1872 Marx’s Das Capital
1872 Australia becomes the first nation to be connected to the rest of the world via submarine telegraph cables.
1876 Alexander Graham Bell patented the telephone, first called the electric speech machine – revolutionized communication
1877 Thomas Edison – Phonograph
1878 Western Union, the leading telegraph provider of the U.S., begins to lose out to the telephone technology of the National Bell Telephone Company.
1881 President James Garfield, Staunch Proponent of “Honest Money” Backed by Gold and Silver, was Assassinated
Garfield opposed fiat currency (money that was not backed by any physical object). He had the second shortest Presidency in history.
1882 First description of the one-time pad
1886 First gas powered car
1888 Ballpoint pen
1892 Cinematograph
1895 System of wireless communication using radio waves
1896 First successful intercontinental telegram
1898 Polyethylene
1899 Nickel-cadmium battery
1907 Banking Panic of 1907
The New York Stock Exchange dropped dramatically as everyone tried to get their money out of the banks at the same time across the nation. This banking panic spurred debate for banking reform. JP Morgan and others gathered to create an image of concern and stability in the face of the panic, which eventually led to the formation of the Federal Reserve. The founders of the Federal Reserve pretended like the bankers were opposed to the idea of its formation in order to mislead the public into believing that the Federal Reserve would help to regulate bankers when in fact it really gave even more power to private bankers, but in a less transparent way.
1908 St Mary’s Bank – first credit union in US
1908 JP Morgan Associate and Rockefeller Relative Nelson Aldrich Heads New National Monetary Commission
Senate Republican leader, Nelson Aldrich, heads the new National Monetary Commission that was created to study the cause of the banking panic. Aldrich had close ties with J.P. Morgan and his daughter married John D. Rockefeller.
1910 Bankers Meet Secretly on Jekyll Island to Draft Federal Reserve Banking Legislation
Over the course of a week, some of the nation’s most powerful bankers met secretly off the coast of Georgia, drafting a proposal for a private Central Banking system.
1913 Federal Reserve Act Passed
Two days before Christmas, while many members of Congress were away on vacation, the Federal Reserve Act was passed, creating the Central banking system we have today, originally with gold backed Federal Reserve Notes. It was based on the Aldrich plan drafted on Jekyll Island and gave private bankers supreme authority over the economy. They are now able to create money out of nothing (and loan it out at interest), make decisions without government approval, and control the amount of money in circulation.
1913 Income tax established -16th Amendment Ratified
Taxes ensured that citizens would cover the payment of debt due to the Central Bank, the Federal Reserve, which was also created in 1913.The 16th Amendment stated: “The Congress shall have power to lay and collect taxes on incomes, from whatever source derived, without apportionment among the several States, and without regard to any census or enumeration.”
1914 November, Federal Reserve Banks Open
JP Morgan and Co. Profits from Financing both sides of War and Purchasing Weapons
J.P. Morgan and Co. made a deal with the Bank of England to give them a monopoly on underwriting war bonds for the UK and France. They also invested in the suppliers of war equipment to Britain and France.
1914 WWI
1917 Teletype cipher
1917 The one-time pad
1917 Zimmerman Telegram intercepted and decoded by Room 40, the cryptanalysis department of the British Military during WWI.
1918 GB returns to gold standard post-war but it didn’t work out
1919 First rotor machine, an electro-mechanical stream ciphering and decrypting machine.
1919 Founding of The Cipher Bureau, Poland’s intelligence and cryptography agency.
1919-1929 The Black Chamber, a forerunner of the NSA, was the first U.S. cryptanalytic organization. Worked with the telegraph company Western Union to illegally acquire foreign communications of foreign embassies and representatives. It was shut down in 1929 as funding was removed after it was deemed unethical to intercept private domestic radio signals.
1920s Department stores, hotel chains and service staions begin offering customers charge cards
1921-1929 The “Roaring 20’s” – The Federal Reserve Floods the Economy with Cash and Credit
From 1921 to 1929 the Federal Reserve increased the money supply by $28 billion, almost a 62% increase over an eight-year period.[3] This artificially created another “boom”.
1927 Quartz clock
1928 First experimental Television broadcast in the US.
1929 Federal Reserve Contracts the Money Supply
In 1929, the Federal Reserve began to pull money out of circulation as loans were paid back. They created a “bust” which was inevitable after issuing so much credit in the years before. The Federal Reserve’s actions triggered the banking crisis, which led to the Great Depression.
1929 October 24, “Black Thursday”, Stock Market Crash
The most devastating stock market crash in history. Billions of dollars in value were consolidated into the private banker’s hands at the expense of everyone else.
1930s The Great Depression marked the end of the gold standard
1931 German Enigma machines attained and reconstructed.
1932 Turbo jet engine patented
1933 SEC founded - passed the Glass–Steagall Act, which separated investment banking and commercial banking. This was to avoid more risky investment banking activities from ever again causing commercial bank failures.
1933 FM Radio
1933 Germany begins Telex, a network of teleprinters sending and receiving text based messages. Post WWII Telex networks began to spread around the world.
1936 Austrian engineer Paul Eisler invented Printed circuit board
1936 Beginning of the Keynesian Revolution
1937 Typex, British encryption machines which were upgraded versions of Enigma machines.
1906 Teletypewriters
1927 Founding of highly secret and unofficial Signal Intelligence Service, SIS, the U.S. Army’s codebreaking division.
1937 Made illegal for Americans to own gold
1938 Z1 built by Konrad Zuse is the first freely programmable computer in the world.
1939 WWII – decline of the gold standard which greatly restricted policy making
1939-45 Codetalkers - The Navajo code is the only spoken military code never to have been deciphered - "Were it not for the Navajos, the Marines would never have taken Iwo Jima."—Howard Connor
1940 Modems
1942 Deciphering Japanese coded messages leads to a turning point victory for the U.S. in WWII.
1943 At Bletchley Park, Alan Turing and team build a specialized cipher-breaking machine called Heath Robinson.
1943 Colossus computer built in London to crack the German Lorenz cipher.
1944 Bretton Woods – convenient after the US had most of the gold
1945 Manhattan Project – Atom Bomb
1945 Transatlantic telephone cable
1945 Claude E. Shannon published "A mathematical theory of cryptography", commonly accepted as the starting point for development of modern cryptography.
C1946 Crypto Wars begin and last to this day
1946 Charg-it card created by John C Biggins
1948 Atomic clock
1948 Claude Shannon writes a paper that establishes the mathematical basis of information theory
1949 Info theorist Claude Shannon asks “What does an ideal cipher look like?” – one time pad – what if the keys are not truly random
1950 First credit card released by the Diners Club, able to be used in 20 restaurants in NYC
1951 NSA, National Security Agency founded and creates the KL-7, an off-line rotor encryption machine
1952 First thermonuclear weapon
1953 First videotape recorder
1953 Term “Hash” first used meaning to “chop” or “make a mess” out of something
1954 Atomic Energy Act (no mention of crypto)
1957 The NSA begins producing ROMOLUS encryption machines, soon to be used by NATO
1957 First PC – IBM
1957 First Satellite – Sputnik 1
1958 Western Union begins building a nationwide Telex network in the U.S.
1960s Machine readable codes were added to the bottom of cheques in MICR format, which speeded up the clearing and sorting process
1960s Financial organizations were beginning to require strong commercial encryption on the rapidly growing field of wired money transfer.
1961 Electronic clock
1963 June 4, Kennedy Issued an Executive Order (11110) that Authorized the US Treasury to Issue Silver Certificates, Threatening the Federal Reserve’s Monopoly on Money
This government issued currency would bypass the governments need to borrow from bankers at interest.
1963 Electronic calculator
1963 Nov. 22, Kennedy Assassinated
1963 Johnson Reverses Kennedy’s Banking Rule and Restores Power to the Federal Reserve
1964 8-Track
1964 LAN, Local Area Networks adapters
1965 Moore’s Law by CEO of Intel Gordon Moore observes that the number of components per integrated circuit doubles every year, and projected this rate of growth would continue for at least another decade. In 1975 he revised it to every two years.
1967 First ATM installed at Barclay’s Bank in London
1968 Cassette Player introduced
1969 First connections of ARPANET, predecessor of the internet, are made. started – SF, SB, UCLA, Utah (now Darpa) – made to stay ahead of the Soviets – there were other networks being built around the world but it was very hard to connect them – CERN in Europe
1970s Stagflation – unemployment + inflation, which Keynesian theory could not explain
1970s Business/commercial applications for Crypto emerge – prior to this time it was militarily used – ATMs 1st got people thinking about commercial applications of cryptography – data being sent over telephone lines
1970s The public developments of the 1970s broke the near monopoly on high quality cryptography held by government organizations.
Use of checks increased in 70s – bringing about ACH
One way functions...
A few companies began selling access to private networks – but weren’t allowed to connect to the internet – business and universities using Arpanet had no commercial traffic – internet was used for research, not for commerce or advertising
1970 Railroads threatened by the growing popularity of air travel. Penn Central Railroad declares bankruptcy resulting in a $3.2 billion bailout
1970 Conjugate coding used in an attempt to design “money physically impossible to counterfeit”
1971 The US officially removes the gold standard
1971 Email invented
1971 Email
1971 First microcomputer on a chip
1971 Lockheed Bailout - $1.4 billion – Lockheed was a major government defense contractor
1972 First programmable word processor
1972 First video game console
1973 SWIFT established
1973 Ethernet invented, standardized in ‘83
1973 Mobile phone
1973 First commercial GUI – Xerox Alto
1973 First touchscreen
1973 Emails made up more than ¾ of ARPANET’s packets – people had to keep a map of the network by their desk – so DNS was created
1974 A protocol for packet network intercommunication – TCP/IP – Cerf and Kahn
1974 Franklin National Bank Bailout - $1.5 billion (valued at that time) - At the time, it was the largest bank failure in US history
1975 New York City Bailout - $9.4 billion – NYC was overextended
1975 W DES - meant that commercial uses of high quality encryption would become common, and serious problems of export control began to arise.
1975 DES, Data Encryption Standard developed at IBM, seeking to develop secure electronic communications for banks and large financial organizations. DES was the first publicly accessible cipher to be 'blessed' by a national agency such as the NSA. Its release stimulated an explosion of public and academic interest in cryptography.
1975 Digital camera
1975 Altair 8800 sparks the microprocessor revolution
1976 Bretton Woods ratified (lasted 30 years) – by 80’s all nations were using floating currencies
1976 New Directions in Cryptography published by Diffie & Hellman – this terrified Fort Meade – previously this technique was classified, now it’s public
1976 Apple I Computer – Steve Wozniak
1976 Asymmetric key cryptosystem published by Whitfield Diffie and Martin Hellman.
1976 Hellman and Diffie publish New Directions in Cryptography, introducing a radically new method of distributing cryptographic keys, contributing much to solving key distribution one of the fundamental problems of cryptography. It brought about the almost immediate public development of asymmetric key algorithms. - where people can have 2 sets of keys, public and private
1977 Diffie & Hellman receive letter from NSA employee JA Meyer that they’re violating Federal Laws comparable to arms export – this raises the question, “Can the gov prevent academics from publishing on crypto?
1977 DES considered insecure
1977 First handheld electronic game
1977 RSA public key encryption invented
1978 McEliece Cryptosystem invented, first asymmetric encryption algorithm to use randomization in the encryption process
1980s Large data centers began being built to store files and give users a better faster experience – companies rented space from them - Data centers would not only store data but scour it to show people what they might want to see and in some cases, sell data
1980s Reaganomics and Thatcherism
1980 A decade of intense bank failures begins; the FDIC reports that 1,600 were either closed or received financial assistance from 1980 to 1994
1980 Chrysler Bailout – lost over $1 billion due to major hubris on the part of its executives - $1.5 billion one of the largest payouts ever made to a single corporation.
1980 Protocols for public key cryptosystems – Ralph Merkle
1980 Flash memory invented – public in ‘84
1981 “Untraceable Electronic Mail, Return Addresses and Digital Pseudonumns” – Chaum
1981 EFTPOS, Electronic funds transfer at point of sale is created
1981 IBM Personal Computer
1982 “The Ethics of Liberty” Murray Rothbard
1982 Commodore 64
1982 CD
1983 Satellite TV
1983 First built in hard drive
1983 C++
1983 Stereolithography
1983 Blind signatures for untraceable payments
Mid 1980s Use of ATMs becomes more widespread
1984 Continental Illinois National Bank and Trust bailed out due to overly aggressive lending styles and - the bank’s downfall could be directly traced to risk taking and a lack of due diligence on the part of bank officers - $9.5 billion in 2008 money
1984 Macintosh Computer - the first mass-market personal computer that featured a graphical user interface, built-in screen and mouse
1984 CD Rom
1985 Zero-Knowledge Proofs first proposed
1985 300,000 simultaneous telephone conversations over single optical fiber
1985 Elliptic Curve Cryptography
1987 ARPANET had connected over 20k guarded computers by this time
1988 First private networks email servers connected to NSFNET
1988 The Crypto Anarchists Manifesto – Timothy C May
1988 ISDN, Integrated Services Digital Network
1989 Savings & Loan Bailout - After the widespread failure of savings and loan institutions, President George H. W. Bush signed and Congress enacted the Financial Institutions Reform Recovery and Enforcement Act - This was a taxpayer bailout of about $200 billion
1989 First commercial emails sent
1989 Digicash - Chaum
1989 Tim Berners-Lee and Robert Cailliau built the prototype system which became the World Wide Web, WWW
1989 First ISPs – companies with no network of their own which connected people to a local network and to the internet - To connect to a network your computer placed a phone call through a modem which translated analog signals to digital signals – dial-up was used to connect computers as phone lines already had an extensive network across the U.S. – but phone lines weren’t designed for high pitched sounds that could change fast to transmit large amounts of data
1990s Cryptowars really heat up...
1990s Some countries started to change their laws to allow "truncation"
1990s Encryption export controls became a matter of public concern with the introduction of the personal computer. Phil Zimmermann's PGP cryptosystem and its distribution on the Internet in 1991 was the first major 'individual level' challenge to controls on export of cryptography. The growth of electronic commerce in the 1990s created additional pressure for reduced restrictions.[3] Shortly afterward, Netscape's SSL technology was widely adopted as a method for protecting credit card transactions using public key cryptography.
1990 NSFNET replaced Arpanet as backbone of the internet with more than 500k users
Early 90s Dial up provided through AOL and Compuserve
People were leery to use credit cards on the internet
1991 How to time-stamp a digital doc - Stornetta
1991 Phil Zimmermann releases the public key encryption program Pretty Good Privacy (PGP) along with its source code, which quickly appears on the Internet. He distributed a freeware version of PGP when he felt threatened by legislation then under consideration by the US Government that would require backdoors to be included in all cryptographic products developed within the US. Expanded the market to include anyone wanting to use cryptography on a personal computer (before only military, governments, large corporations)
1991 WWW (Tim Berners Lee) – made public in ‘93 – flatten the “tree” structure of the internet using hypertext – reason for HTTP//:WWW – LATER HTTPS for more security
1992 Erwise – first Internet Browser w a graphical Interface
1992 Congress passed a law allowing for commercial traffic on NSFNET
1992 Cpherpunks, Eric Hughes, Tim C May and John Gilmore – online privacy and safety from gov – cypherpunks write code so it can be spread and not shut down (in my earlier chapter)
1993 Mosaic – popularized surfing the web ‘til Netscape Navigator in ’94 – whose code was later used in Firefox
1993 A Cypherpunks Manifesto – Eric Hughes
1994 World’s first online cyberbank, First Virtual, opened for business
1994 Bluetooth
1994 First DVD player
1994 Stanford Federal Credit Union becomes the first financial institution to offer online internet banking services to all of its members in October 1994
1994 Internet only used by a few
1994 Cybercash
1994 Secure Sockets Layer (SSL) encryption protocol released by Netscape. Making financial transactions possible.
1994 One of the first online purchases was made, a Pizza Hut pepperoni pizza with mushrooms and extra cheese
1994 Cyphernomicon published – social implication where gov can’t do anything about it
1994-1999 Social Networking – GeoCities (combining creators and users) – had 19M users by ’99 – 3rd most popular after AOL and Yahoo – GeoCities purchased by Yahoo for $3.6B but took a hit after dotcom bubble popped and never recovered – GC shut down in ‘99
1995-2000 Dotcom bubble – Google, Amazon, Facebook: get over 600M visitors/year
1995 DVD
1995 MP3 term coined for MP3 files, the earlier development of which stretches back into the ‘70s, where MP files themselves where developed throughout the ‘90s
1995 NSFNET shut down and handed everything over to the ISPs
1995 NSA publishes the SHA1 hash algorithm as part of its Digital Signature Standard.
1996, 2000 President Bill Clinton signing the Executive order 13026 transferring the commercial encryption from the Munition List to the Commerce Control List. This order permitted the United States Department of Commerce to implement rules that greatly simplified the export of proprietary and open source software containing cryptography, which they did in 2000 - The successful cracking of DES likely helped gather both political and technical support for more advanced encryption in the hands of ordinary citizens - NSA considers AES strong enough to protect information classified at the Top Secret level
1996 e-gold
1997 WAP, Wireless Access Point
1997 NSA researchers published how to mint e cash
1997 Adam Back – HashCash – used PoW – coins could only be used once
1997 Nick Szabo – smart contracts “Formalizing and Securing Relationships on Public Networks”
1998 OSS, Open-source software Initiative Founded
1998 Wei Dai – B-money – decentralized database to record txs
1998 Bitgold
1998 First backdoor created by hackers from Cult of the Dead Cow
1998 Musk and Thiel founded PayPal
1998 Nick Szabo says crypto can protect land titles even if thugs take it by force – said it could be done with a timestamped database
1999 Much of the Glass-Steagal Act repealed - this saw US retail banks embark on big rounds of mergers and acquisitions and also engage in investment banking activities.
1999 Milton Friedman says, “I think that the Internet is going to be one of the major forces for reducing the role of government. The one thing that's missing, but that will soon be developed, is a reliable e-cash - a method whereby on the Internet you can transfer funds from A to B without A knowing B or B knowing A.”
1999 European banks began offering mobile banking with the first smartphones
1999 The Financial Services Modernization Act Allows Banks to Grow Even Larger
Many economists and politicians have recognized that this legislation played a key part in the subprime mortgage crisis of 2007.
1999-2001 Napster, P2P file sharing – was one of the fastest growing businesses in history – bankrupt for paying musicians for copyright infringement

submitted by crypto_jedi_ninja to Bitcoin [link] [comments]

[ELI5] Why you should NEVER use a third-party wallet with another third-party service

We've all done this, right?

I know I have. Because when I started out, I was lazy and stupid. And then later when it came to shitcoins, I was lazy, stupid AND disinterested. And I paid the price. Repeatedly. Still paying it now that I'm not stupid and a little less lazy in fact.

So, what's the problem, exactly?

Never forget, ANY wallet you do not personally hold the keys to (and I would add can read with your own eyeballs) IS NOT YOUR WALLET!

What could POSSIBLY go wrong?

Service A may, and often does, generate a new wallet for you, expiring the old one. The wallet they give you may only be good for 24 hours, and they may claim to no longer have access after that. They may suspend or cancel your account if you use it as a wallet rather than the purpose it was intended for. They may get hacked. They may collapse. They may steal or lose your coins. Basically, anything can happen, because, well, its their wallet, not yours, and you can't force them to do squat. There is no government backing, guarantee, regulation or oversight.
Meanwhile, Service B may, and usually does, permanently associate the wallet address you gave them with your account (and IP, email and whatever else they may decide to... aren't cookies great?). So you can't change it when Service A goes belly up. You get to lose your money or abandon your account, usually both.
If you're lucky, you may only lose a handful of coins. But depending on the service, and how you use it, the amounts can get insane pretty quickly. I've had some $3,000 in referral income from one service for example (admittedly in cash, but that's beside the point), and if you were around really early when a Bitcoin was worthless dust, you could be talking millions now. Money matters, in any amount.

So what's the alternative?

  1. READ THE ELI5s! https://www.reddit.com/dogecoin/comments/3b3h5d/eli5_how_wallets_work/ (its right there, in the pinned topics at the top right) https://www.reddit.com/dogecoin/comments/2vc016/eli5_everything_you_didnt_know_you_needed_to_know/ https://www.reddit.com/dogecoin/comments/6e5hsq/eli5_extracting_privkeys_from_qtcore/ https://www.reddit.com/dogecoin/comments/5lxjrh/eli5_what_is_a_dogecoin/ https://www.reddit.com/dogecoin/comments/4yts6h/start_here_for_much_wallet_wow/ (that last one was stickied for over 9 months, BTW)
  2. Go to https://walletgenerator.net/ and https://coinb.in/#settings and learn to use them both. Download them so you can run them locally and offline. There is no limit to how many wallets you can own, so there is NO reason to rely on anyone other than yourself.
  3. Keep your keys safe and secure. Even if its just a text file, backed up, printed out, and stored in safe places where it won't be lost, destroyed or stolen, your record of your private keys and addresses IS your money. Treat this record like you would a bundle of cash. Because that's what it is, actually.
  4. Make Lists! Apart from your key file above, which must be kept secret, you should have a list of all your wallets AND what they're for. Again, I speak from bitter experience. Looking at one of my faucet referral links, I see ?ref=8c0963b5453b but I have absolutely NO idea what wallet I used with it, where it is, or even if its receiving payouts. If I'd written it down 3 years ago, I would know. Oh, and while you're at it, include other peoples' wallets in your lists. If you've ever sent or received coins from someone, you should have a record, because, have you ever tried to trace coins in the blockchain? I have, for an article in VeryMuchWow, and it was a huge PITA. Save yourself some grief.
submitted by Fulvio55 to dogecoin [link] [comments]

Quick Guide to Great Faucets

First things first you need a wallet. Your wallet is where you can store your coins and more importantly it gives you the address(es) you need to cash out the coins you collect from faucets. For this example we're going to use Coinomi.
Coinomi is an easy to use multi-currency wallet available on Android. Coinomi has a built in exchange you can use to quickly convert your coins into a large array of other coins.
You can grab Coinomi here: https://play.google.com/store/apps/details?id=com.coinomi.wallet
A few things to do once you've downloaded Coinomi:
Add the coins you plan to collect.
Change your settings
Adding Coins
Once you've created your account you can select +COINS to get an address for the coins you want to collect. Simply select the coin your interested in, name your wallet (optional) and then type in your password. Boom! You've got an address that can now send and receive cryptocurrency.
Changing Your Settings
Now this is an optional step but makes faucet claims easier. Coinomi automatically generates a new address for you everytime you receive a payment by default. If you want your address to remain the same so you don't have to put in a new address every time you get paid simply click the three dots in the top left corner, select settings and check the “Manual Receiving Address..” box. Coinomi will no longer generate a new address every time you receive payment.
Now that you've got your wallet let's begin!
Introducing CoinPot!
The faucets we're going to be looking use a microwallet to collect the coins you've claimed until you've reached the cash out limit. CoinPot has a quick and simple signup process. Visit https://coinpot.co to begin the signup, after you've signed up and logged in, I strongly recommend you bookmark https://coinpot.co/dashboard for quick access to balances. After you compete the sign up process you're ready to start making claims! Below is a list of the faucets that will pay directly to CoinPot.
I strongly recommend you bookmark all of them on your phone for faster claiming.
LiteCoin Faucet* http://moonliteco.in/?ref=843fc02ae9ac
Dogecoin Faucet* http://moondoge.co.in/?ref=453295046f19
DashCoin Faucet* http://moondash.co.in/?ref=8865C07B34AF
BitCoin Faucets*
http://moonbit.co.in/?ref=8b7f48c9b0ac
http://bonusbitcoin.co/?ref=A1EAA7F1604D
http://bitfun.co/?ref=943AA5BE9076
*Claims recommendation: Every 30 minutes to 1 hour for maximum reward. These faucets also include a daily bonus, you gain an additional 1% bonus every day you claim up to a 100% bonus. They also include a mystery bonus which generates a random percentage up to 100% to multiple your claim by. So hypothetically you could get a 200% bonus! Plus if you refer others you'll get an additional 1% for everyone you refer up to 100% as well as a percentage of each claim they make.
The last two faucets work a little different than the rest.
BonusBitCoin
For BonusBitCoin you can claim every 15 minutes and the amount is either random every time or you can claim the average. I strongly recommend claiming the average, it tends to be a higher amount than the random claims. To enable claiming the average, scroll down to the claim button and click “Change your claim settings” and check the claim average box. For this site we recommend you bookmark https://bonusbitcoin.co/faucet after signing up for easier claiming. You will also get paid out a daily bonus of 5% of all the claims you've made on the site for the following 72hrs. The more you claim each day increases your daily bonus payout.
Claims recommendation: Every 15 minutes or as often as you can throughout the day to increase your daily bonus.
BitFun
BitFun will allow you to claim after only two minutes but if you wait longer you can claim more. For this site after you've signed up I recommend you bookmark https://bitfun.co/dice for faster claiming.
Claims recommendation: Every 30 minutes or more.
And lastly…
FieldBitCoin
http://fieldbitcoins.com/?ref=ry46n6do773738
FieldBitCoin was created by the same owners of the previously mentioned faucets but it does not pay to CoinPot, it pays directly to you. In order to signup you just enter your Bitcoin address (from Coinomi select your Bitcoin wallet, select receive, copy and paste the given address) and start claiming. This faucet will take more time to accrue before you can cash out but it is a quick simple claim from a reputable faucet. While it doesn't include the mystery bonuses of the previously mentioned faucets it does have a daily bonus, so the more days you claim the higher the bonus.
Claims recommendation: Since this Faucet does take longer I recommend claiming no less than once a day or as often as every hour. Claiming less than 15 minutes apart will result in the same coins, ie claiming at 5 minutes, 10 minutes or 15 minutes will ultimately get you the same amount of coins
submitted by MrKane123 to CryptoFaucets [link] [comments]

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How To Use Bitcoin Mixers - FoxMixer

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