Who cares about political tweets from some random country's president when payment channels are a much more interesting and are actually capable of carrying value?
So let's have a short history of various payment channel techs!
Generation 0: Satoshi's Broken nSequence Channels
Because Satoshi's Vision included payment channels, except his implementation sucked so hard we had to go fix it and added RBF as a by-product.
Originally, the plan for nSequence was that mempools would replace any transaction spending certain inputs with another transaction spending the same inputs, but only if the nSequence field of the replacement was larger.
Since 0xFFFFFFFF was the highest value that nSequence could get, this would mark a transaction as "final" and not replaceable on the mempool anymore.
In fact, this "nSequence channel" I will describe is the reason why we have this weird rule about nLockTime and nSequence. nLockTime actually only works if nSequence is not 0xFFFFFFFF i.e. final. If nSequence is 0xFFFFFFFF then nLockTime is ignored, because this if the "final" version of the transaction.
So what you'd do would be something like this:
- You go to a bar and promise the bartender to pay by the time the bar closes. Because this is the Bitcoin universe, time is measured in blockheight, so the closing time of the bar is indicated as some future blockheight.
- For your first drink, you'd make a transaction paying to the bartender for that drink, paying from some coins you have. The transaction has an nLockTime equal to the closing time of the bar, and a starting nSequence of 0. You hand over the transaction and the bartender hands you your drink.
- For your succeeding drink, you'd remake the same transaction, adding the payment for that drink to the transaction output that goes to the bartender (so that output keeps getting larger, by the amount of payment), and having an nSequence that is one higher than the previous one.
- Eventually you have to stop drinking. It comes down to one of two possibilities:
- You drink until the bar closes. Since it is now the nLockTime indicated in the transaction, the bartender is able to broadcast the latest transaction and tells the bouncers to kick you out of the bar.
- You wisely consider the state of your liver. So you re-sign the last transaction with a "final" nSequence of 0xFFFFFFFF i.e. the maximum possible value it can have. This allows the bartender to get his or her funds immediately (nLockTime is ignored if nSequence is 0xFFFFFFFF), so he or she tells the bouncers to let you out of the bar.
Now that of course is a payment channel. Individual payments (purchases of alcohol, so I guess buying coffee is not in scope for payment channels). Closing is done by creating a "final" transaction that is the sum of the individual payments. Sure there's no routing and channels are unidirectional and channels have a maximum lifetime but give Satoshi a break, he was also busy inventing Bitcoin at the time.
Now if you noticed I called this kind of payment channel "broken". This is because the mempool rules are not consensus rules, and cannot be validated (nothing
about the mempool can be validated onchain: I sigh every time somebody proposes "let's make block size dependent on mempool size", mempool state cannot be validated by onchain data). Fullnodes can't see all of the transactions you signed, and then validate that the final one with the maximum nSequence is the one that actually is used onchain. So you can do the below:
- Become friends with Jihan Wu, because he owns >51% of the mining hashrate (he totally reorged Bitcoin to reverse the Binance hack right?).
- Slip Jihan Wu some of the more interesting drinks you're ordering as an incentive to cooperate with you. So say you end up ordering 100 drinks, you split it with Jihan Wu and give him 50 of the drinks.
- When the bar closes, Jihan Wu quickly calls his mining rig and tells them to mine the version of your transaction with nSequence 0. You know, that first one where you pay for only one drink.
- Because fullnodes cannot validate nSequence, they'll accept even the nSequence=0 version and confirm it, immutably adding you paying for a single alcoholic drink to the blockchain.
- The bartender, pissed at being cheated, takes out a shotgun from under the bar and shoots at you and Jihan Wu.
- Jihan Wu uses his mystical chi powers (actually the combined exhaust from all of his mining rigs) to slow down the shotgun pellets, making them hit you as softly as petals drifting in the wind.
- The bartender mutters some words, clothes ripping apart as he or she (hard to believe it could be a she but hey) turns into a bear, ready to maul you for cheating him or her of the payment for all the 100 drinks you ordered from him or her.
- Steely-eyed, you stand in front of the bartender-turned-bear, daring him to touch you. You've watched Revenant, you know Leonardo di Caprio could survive a bear mauling, and if some posh actor can survive that, you know you can too. You make a pose. "Drunken troll logic attack!"
- I think I got sidetracked here.
- Bears are bad news.
- You can't reasonably invoke "Satoshi's Vision" and simultaneously reject the Lightning Network because it's not onchain. Satoshi's Vision included a half-assed implementation of payment channels with nSequence, where the onchain transaction represented multiple logical payments, exactly what modern offchain techniques do (except modern offchain techniques actually work). nSequence (the field, but not its modern meaning) has been in Bitcoin since BitCoin For Windows Alpha 0.1.0. And its original intent was payment channels. You can't get nearer to Satoshi's Vision than being a field that Satoshi personally added to transactions on the very first public release of the BitCoin software, like srsly.
- Miners can totally bypass mempool rules. In fact, the reason why nSequence has been repurposed to indicate "optional" replace-by-fee is because miners are already incentivized by the nSequence system to always follow replace-by-fee anyway. I mean, what do you think those drinks you passed to Jihan Wu are, other than the fee you pay him to mine a specific version of your transaction?
- Satoshi made mistakes. The original design for nSequence is one of them. Today, we no longer use nSequence in this way. So diverging from Satoshi's original design is part and parcel of Bitcoin development, because over time, we learn new lessons that Satoshi never knew about. Satoshi was an important landmark in this technology. He will not be the last, or most important, that we will remember in the future: he will only be the first.
Incentive-compatible time-limited unidirectional channel; or, Satoshi's Vision, Fixed (if transaction malleability hadn't been a problem, that is).
Now, we know the bartender will turn into a bear and maul you if you try to cheat the payment channel, and now that we've revealed you're good friends with Jihan Wu, the bartender will no longer accept a payment channel scheme that lets one you cooperate with a miner to cheat the bartender.
Fortunately, Jeremy Spilman proposed a better way that would not let you cheat the bartender.
First, you and the bartender perform this ritual:
- You get some funds and create a transaction that pays to a 2-of-2 multisig between you and the bartender. You don't broadcast this yet: you just sign it and get its txid.
- You create another transaction that spends the above transaction. This transaction (the "backoff") has an nLockTime equal to the closing time of the bar, plus one block. You sign it and give this backoff transaction (but not the above transaction) to the bartender.
- The bartender signs the backoff and gives it back to you. It is now valid since it's spending a 2-of-2 of you and the bartender, and both of you have signed the backoff transaction.
- Now you broadcast the first transaction onchain. You and the bartender wait for it to be deeply confirmed, then you can start ordering.
The above is probably vaguely familiar to LN users. It's the funding process of payment channels! The first transaction, the one that pays to a 2-of-2 multisig, is the funding transaction that backs the payment channel funds.
So now you start ordering in this way:
- For your first drink, you create a transaction spending the funding transaction output and sending the price of the drink to the bartender, with the rest returning to you.
- You sign the transaction and pass it to the bartender, who serves your first drink.
- For your succeeding drinks, you recreate the same transaction, adding the price of the new drink to the sum that goes to the bartender and reducing the money returned to you. You sign the transaction and give it to the bartender, who serves you your next drink.
- At the end:
- If the bar closing time is reached, the bartender signs the latest transaction, completing the needed 2-of-2 signatures and broadcasting this to the Bitcoin network. Since the backoff transaction is the closing time + 1, it can't get used at closing time.
- If you decide you want to leave early because your liver is crying, you just tell the bartender to go ahead and close the channel (which the bartender can do at any time by just signing and broadcasting the latest transaction: the bartender won't do that because he or she is hoping you'll stay and drink more).
- If you ended up just hanging around the bar and never ordering, then at closing time + 1 you broadcast the backoff transaction and get your funds back in full.
Now, even if you pass 50 drinks to Jihan Wu, you can't give him the first transaction (the one which pays for only one drink) and ask him to mine it: it's spending a 2-of-2 and the copy you have only contains your own signature. You need the bartender's signature to make it valid, but he or she sure as hell isn't going to cooperate in something that would lose him or her money, so a signature from the bartender validating old state where he or she gets paid less isn't going to happen.
So, problem solved, right? Right? Okay, let's try it. So you get your funds, put them in a funding tx, get the backoff tx, confirm the funding tx...
Once the funding transaction confirms deeply, the bartender laughs uproariously. He or she summons the bouncers, who surround you menacingly.
"I'm refusing service to you," the bartender says.
"Fine," you say. "I was leaving anyway;" You smirk. "I'll get back my money with the backoff transaction, and posting about your poor service on reddit so you get negative karma, so there!"
"Not so fast," the bartender says. His or her voice chills your bones. It looks like your exploitation of the Satoshi nSequence payment channel is still fresh in his or her mind. "Look at the txid of the funding transaction that got confirmed."
"What about it?" you ask nonchalantly, as you flip open your desktop computer and open a reputable blockchain explorer.
What you see shocks you.
"What the --- the txid is different! You--- you changed my signature
?? But how? I put the only copy of my private key in a sealed envelope in a cast-iron box inside a safe buried in the Gobi desert protected by a clan of nomads who have dedicated their lives and their childrens' lives to keeping my private key safe in perpetuity!"
"Didn't you know?" the bartender asks. "The components of the signature are just very large numbers. The sign of one of the signature components can be changed, from positive to negative, or negative to positive, and the signature will remain valid. Anyone can do that, even if they don't know the private key. But because Bitcoin includes the signatures in the transaction when it's generating the txid, this little change also changes the txid." He or she chuckles. "They say they'll fix it by sep
arating the sig
natures from the transaction body. They're saying that these kinds of signature malleability won't affect transaction ids anymore after they do this, but I bet I can get my good friend Jihan Wu to delay this 'SepSig' plan for a good while yet. Friendly guy, this Jihan Wu, it turns out all I had to do was slip him 51 drinks and he was willing to mine a tx with the signature signs flipped." His or her grin widens. "I'm afraid your backoff transaction won't work anymore, since it spends a txid that is not existent and will never be confirmed. So here's the deal. You pay me 99% of the funds in the funding transaction, in exchange for me signing the transaction that spends with the txid that you see onchain. Refuse, and you lose 100% of the funds and every other HODLer, including me, benefits from the reduction in coin supply. Accept, and you get to keep 1%. I lose nothing if you refuse, so I won't care if you do, but consider the difference of getting zilch vs. getting 1% of your funds." His or her eyes glow. "GENUFLECT RIGHT NOW."
- Payback's a bitch.
- Transaction malleability is a bitchier bitch. It's why we needed to fix the bug in SegWit. Sure, MtGox claimed they were attacked this way because someone kept messing with their transaction signatures and thus they lost track of where their funds went, but really, the bigger impetus for fixing transaction malleability was to support payment channels.
- Yes, including the signatures in the hash that ultimately defines the txid was a mistake. Satoshi made a lot of those. So we're just reiterating the lesson "Satoshi was not an infinite being of infinite wisdom" here. Satoshi just gets a pass because of how awesome Bitcoin is.
CLTV-protected Spilman Channels
Using CLTV for the backoff branch.
This variation is simply Spilman channels, but with the backoff transaction replaced with a backoff branch in the SCRIPT you pay to. It only became possible after OP_CHECKLOCKTIMEVERIFY (CLTV) was enabled in 2015.
Now as we saw in the Spilman Channels discussion, transaction malleability means that any pre-signed offchain transaction can easily be invalidated by flipping the sign of the signature of the funding transaction while the funding transaction is not yet confirmed.
This can be avoided by simply putting any special requirements into an explicit branch of the Bitcoin SCRIPT. Now, the backoff branch is supposed to create a maximum lifetime for the payment channel, and prior to the introduction of OP_CHECKLOCKTIMEVERIFY this could only be done by having a pre-signed nLockTime transaction.
With CLTV, however, we can now make the branches explicit in the SCRIPT that the funding transaction pays to.
Instead of paying to a 2-of-2 in order to set up the funding transaction, you pay to a SCRIPT which is basically "2-of-2, OR this singlesig after a specified lock time".
With this, there is no backoff transaction that is pre-signed and which refers to a specific txid. Instead, you can create the backoff transaction later, using whatever txid the funding transaction ends up being confirmed under. Since the funding transaction is immutable once confirmed, it is no longer possible to change the txid afterwards.
Todd Micropayment Networks
The old hub-spoke model (that isn't how LN today actually works).
One of the more direct predecessors of the Lightning Network was the hub-spoke model discussed by Peter Todd. In this model, instead of payers directly having channels to payees, payers and payees connect to a central hub server. This allows any payer to pay any payee, using the same channel for every payee on the hub. Similarly, this allows any payee to receive from any payer, using the same channel.
Remember from the above Spilman example? When you open a channel to the bartender, you have to wait around for the funding tx to confirm. This will take an hour at best
. Now consider that you have to make channels for everyone you want to pay to. That's not very scalable.
So the Todd hub-spoke model has a central "clearing house" that transport money from payers to payees. The "Moonbeam" project takes this model. Of course, this reveals to the hub who the payer and payee are, and thus the hub can potentially censor transactions. Generally, though, it was considered that a hub would more efficiently censor by just not maintaining a channel with the payer or payee that it wants to censor (since the money it owned in the channel would just be locked uselessly if the hub won't process payments to/from the censored user).
In any case, the ability of the central hub to monitor payments means that it can surveill the payer and payee, and then sell this private transactional data to third parties. This loss of privacy would be intolerable today.
Peter Todd also proposed that there might be multiple hubs that could transport funds to each other on behalf of their users, providing somewhat better privacy.
Another point of note is that at the time such networks were proposed, only unidirectional (Spilman) channels were available. Thus, while one could be a payer, or payee, you would have to use separate channels for your income versus for your spending. Worse, if you wanted to transfer money from your income channel to your spending channel, you had to close both and reshuffle the money between them, both onchain activities.
Poon-Dryja Lightning Network
Bidirectional two-participant channels.
The Poon-Dryja channel mechanism has two important properties:
- No time limit.
Both the original Satoshi and the two Spilman variants are unidirectional: there is a payer and a payee, and if the payee wants to do a refund, or wants to pay for a different service or product the payer is providing, then they can't use the same unidirectional channel.
The Poon-Dryjam mechanism allows channels, however, to be bidirectional instead: you are not a payer or a payee on the channel, you can receive or send at any time as long as both you and the channel counterparty are online.
Further, unlike either of the Spilman variants, there is no time limit for the lifetime of a channel. Instead, you can keep the channel open for as long as you want.
Both properties, together, form a very powerful scaling property
that I believe most people have not appreciated. With unidirectional channels, as mentioned before, if you both earn and spend over the same network of payment channels, you would have separate channels for earning and spending. You would then need to perform onchain operations to "reverse" the directions of your channels periodically. Secondly, since Spilman channels have a fixed lifetime, even if you never used either channel, you would have to periodically "refresh" it by closing it and reopening.
With bidirectional, indefinite-lifetime channels, you may instead open some channels when you first begin managing your own money, then close them only after your lawyers have executed your last will and testament on how the money in your channels get divided up to your heirs: that's just two onchain transactions in your entire lifetime. That is the potentially very powerful scaling property that bidirectional, indefinite-lifetime channels allow.
I won't discuss the transaction structure needed for Poon-Dryja bidirectional channels --- it's complicated and you can easily get explanations with cute graphics elsewhere.
a weakness of Poon-Dryja that people tend to gloss over (because it was fixed very well by RustyReddit
- You have to store all the revocation keys of a channel. This implies you are storing 1 revocation key for every channel update, so if you perform millions of updates over your entire lifetime, you'd be storing several megabytes of keys, for only a single channel. RustyReddit fixed this by requiring that the revocation keys be generated from a "Seed" revocation key, and every key is just the application of SHA256 on that key, repeatedly. For example, suppose I tell you that my first revocation key is SHA256(SHA256(seed)). You can store that in O(1) space. Then for the next revocation, I tell you SHA256(seed). From SHA256(key), you yourself can compute SHA256(SHA256(seed)) (i.e. the previous revocation key). So you can remember just the most recent revocation key, and from there you'd be able to compute every previous revocation key. When you start a channel, you perform SHA256 on your seed for several million times, then use the result as the first revocation key, removing one layer of SHA256 for every revocation key you need to generate. RustyReddit not only came up with this, but also suggested an efficient O(log n) storage structure, the shachain, so that you can quickly look up any revocation key in the past in case of a breach. People no longer really talk about this O(n) revocation storage problem anymore because it was solved very very well by this mechanism.
Another thing I want to emphasize is that while the Lightning Network paper and many of the earlier presentations developed from the old Peter Todd hub-and-spoke model, the modern Lightning Network takes the logical conclusion of removing a strict separation between "hubs" and "spokes". Any node on the Lightning Network can very well work as a hub for any other node. Thus, while you might operate as "mostly a payer", "mostly a forwarding node", "mostly a payee", you still end up being at least partially a forwarding node ("hub") on the network, at least part of the time. This greatly reduces the problems of privacy inherent in having only a few hub nodes: forwarding nodes cannot get significantly useful data from the payments passing through them, because the distance between the payer and the payee can be so large that it would be likely that the ultimate payer and the ultimate payee could be anyone on the Lightning Network.
- We can decentralize if we try hard enough!
- "Hubs bad" can be made "hubs good" if everybody is a hub.
- Smart people can solve problems. It's kinda why they're smart.
After LN, there's also the Decker-Wattenhofer Duplex Micropayment Channels (DMC). This post is long enough as-is, LOL. But for now, it uses a novel "decrementing nSequence channel", using the new
relative-timelock semantics of nSequence (not the broken one originally by Satoshi). It actually uses multiple such "decrementing nSequence" constructs, terminating in a pair of Spilman channels, one in both directions (thus "duplex"). Maybe I'll discuss it some other time.
The realization that channel constructions could actually hold more channel constructions inside them (the way the Decker-Wattenhofer puts a pair of Spilman channels inside a series of "decrementing nSequence channels") lead to the further thought behind Burchert-Decker-Wattenhofer channel factories. Basically, you could host multiple two-participant channel constructs inside a larger multiparticipant "channel" construct (i.e. host multiple channels inside a factory).
Further, we have the Decker-Russell-Osuntokun or "eltoo" construction. I'd argue that this is "nSequence done right". I'll write more about this later, because this post is long enough.
- Bitcoin offchain scaling is more powerful than you ever thought.
The Book of Yolo: COMPLETE GUIDE TO WSB submitted by
The goal of this is to actually create something that all of you WSB newbies can read - because we’re all tired of seeing the endless wave of uninformed and unavoidable stupidity from those who have never touched the stock market. CALLING ALL NEWFAGS AND NORMIES.
If you can’t read, GFY now.
Now that we will be on the popular section of reddit, this has become pertinent. WSB can't avoid newcomers, so we might as well explain how the clock ticks here. This one is for you all
This is to serve as a reference what values we hold, what instruments we use, and as a general place to educated the uneducated.
First off, this is the LEAST helpful stock market-based community for newcomers. Sarcastic answers are the only thing of true value here. It isn't a place to learn, but a place to plan out where you will dock your yacht. Newcomers are usually berated upon asking the inevitable stupid questions that they could learn slowly from reading here, or just using a damn search engine. Instead of embarrassing yourself here, you now have the opportunity to read this and get what we’re all rambling about.
This will help you understand what to expect if you make the decision to undertake a WSB style trading career, so you can stay here and contribute to the yolo lifestyle or otherwise GFY.
I will edit in any suggestions that our frequenting users or mods want to add to this as well.
To begin: Here are our topics for WSB101 -Basics (Equities/Stocks)
; -Futures Trading
Skip if you understand basic stock stuff
Okay, so what is an equity/stock? An equity is essentially what you’d think of as your “vanilla” trading tool. They move up or down depending on market forces, and can range from pennies to thousands of dollars per share. To explain how stocks work, let's define a few terms. Volume:
The number of shares of stock traded during a particular time period, normally measured in average daily trading volume. Spread:
The difference between the bid and the ask price Bid Price:
The current price in which someone wants to buy at Ask Price:
The current price in which someone wants to sell at Volatility:
The WSB favorite. Volatility is referring to the price movements of a stock as a whole. The higher the volatility, the more the stock is moving up or down. Highly volatile stocks are ones with extreme daily up and down movements and wide intraday trading ranges. Margin:
A margin account lets a person borrow money (take out a loan essentially) from a broker to purchase an investment. The difference between the amount of the loan, and the price of the securities, is called the margin. Margin is one of WSB’s popular instruments of wealth and destruction. Dividend:
This is a portion of a company’s earnings that is paid to shareholders, or people that own hat company’s stock, on a quarterly or annual basis. Not all companies do this. PPS:
Acronym for “Price per Share” Moving Average:
A stock’s average price-per-share during a specific period of time. Bullish:
Expecting the stock to go up Bearish:
Expecting the stock to go down
Any raised hands can redirect themselves to here: http://www.investopedia.com/articles/investing/082614/how-stock-market-works.asp?ad=dirN&qo=investopediaSiteSearch&qsrc=0&o=40186
Now that these terms are defined, let's move into the details of why this is even useful. Most people know what a stock is, but how and why stocks move is a different story. The stock market is essentially a big virtualization of supply and demand - meaning that usually high positive volume creates upwards movement in the PPS, where high negative volume does the opposite. This creates a trader’s opportunity; Generally, the most effective time to buy or sell is where the candlesticks (volume data) are thinning out. When you are ready to take an entry point or execute an exit point, waiting till the volatility (candlesticks) thin out is one method to give you best trade possible. WSB FAVORITE EQUITIES:
Of many equities, WSB favors the riskier ones - but avoiding penny stocks is a policy.
AMD - CEO Lisa Su, Next Gen Processors, chips, graphics. It’s the gamers gambit. Up roughly 1400% as of 2/7/2017 since WSB first mentioned it
NVDA - AMD’s sister? Mother? Daddy? Who knows. NVDA has been a sexy semiconductor leader. Is up 400% since gaining traction on WSB.
FNMA / pfds - Mnunchin, Trump, Big fat fannies. Get your self deep in the fannie. We all want it. WSB 10 bagger candidate for reforming the housing market. WSB holds a large cumulative position that can be seen below. Also a good read is the beginners guide to FNMA. Any post by u/NOVACPA
is very often VERY informative on FMNA/pfds. https://www.reddit.com/wallstreetbets/comments/5oissp/results_wsb_fnmafmcc_holdings https://www.reddit.com/wallstreetbets/comments/5t7gba/beginngers_guide_to_fnma_fmcc_read_this_before/
ARRY - A biotech champion that prevailed after a lot of failures and huge losses in the biotech sector. Dark times for WSB. Up ~300% since getting traction on the subreddit.
TWTR - WSB likes to buy put option contracts on her. Exemplary of a social media platform that is unable to monetize itself.
TSLA - Maybe not unanimously a favorite, but loved for it’s sexy volatility, Elon Musk, and ridiculously expensive options.
GILD - A Shkreli pump and dump? The greatest large cap pharma recovery of all time? Who knows. Martin took the time to make a post on this reddit and it is up $5 dollars since. ETF'S
Welcome to the world of investing made easy. Exchange traded funds (etfs) are devices that can be traded like stocks, but often track the value of many companies by investing in their listed assets accordingly. Specifically, An ETF, or exchange traded fund, is a marketable security that tracks an index, a commodity, bonds, or a basket of assets like an index fund. Unlike mutual funds, an ETF trades like a common stock on a stock exchange. ETFs experience price changes throughout the day as they are bought and sold. ETFs typically have higher daily liquidity and lower fees than mutual fund shares, making them an attractive alternative for individual investors.
ETF’s come in beautiful and delicious varieties, often with a BEAR form and a BULL form of each; but the most delicious to WSB are the 3x etf’s. A 3x ETF is one in which the underlying movement of the ETF is leveraged 3:1. Meaning for every movement within the underlying index or stocks, the 3x ETF moves well.... 3x as much.. WSB FAVORITE AND USEFUL ETF’S:
JNUG - 3x Gold Miner Bull - A hit or miss, has extreme intraday movements and essentially tracks GDX (gold miner’s index). Jnug will usually move with a pretty strong correlation to gold, which is affected by the mentioning of rate hikes (negatively), movement of the US dollar (inversely), uncertainty (positively), and supply and demand.
NUGT - Jnug with a different price tag
JDST - The inverse 3x etf of JNUG - or the bear etf. It does almost exactly the opposite movements of JNUG by the tick. Moves for the same reasons, but obviously opposite directions.
DUST - Jdst with a different price tag.
UGAZ - Natural Gas 3x Bull ETF - essentially tracks the price value of the commodity Natural Gas, but more specifically the S&P GSCI Natural Gas Index ER. The index comprises futures contracts on a single commodity and is calculated according to the methodology of the S&P GSCI Index. Natural gas is most affected by Weather temperature conditions (use your brain), petroleum prices, and broader economic conditions.
DGAZ - Inverse of UGAZ
UWT - Crude Oil Bull 3x ETF - extreme intraday movements, closely follows the price of oil. More specifically, it tracks futures. UWT seeks to replicate, net of expenses, three times of the S&P GSCI® Crude Oil Index ER. The index tracks a hypothetical position in the nearest-to-expiration NYMEX light sweet crude oil futures contract, which is rolled each month into the futures contract expiring in the next month. The value of the index fluctuates with changes in the price of the relevant NYMEX light sweet crude oil futures contracts.
DWT - Inverse of UWT
FAS - Financial Bull, specifically FAS seeks daily investment results, before fees and expenses, of 300% of the performance of the Russell 1000 ® Financial Services Index. The fund creates long positions by investing at least 80% of its assets in the securities that comprise the Russell 1000 ® Financial Services Index and/or financial instruments that provide leveraged and unleveraged exposure to the index. Can be used when bullish on US financial services - so banks, lenders, etc.
FAZ - Inverse of FAS
UPRO - S&P500 Bull 3x ETF, essentially tracks the S&P500 and multiplies it’s returns by 3x.
BRZU - Tracks Brazil (in its most basic form). It creates long positions in the MSCI Brazil 25/50 Index.
LABU - Tracks the Biotech sector, or specifically 300% of the performance of the S&P Biotechnology Select Industry Index ("index"). It should be noted that LABU has doubled since just before the election of Donald Trump.
LABD - Inverse of LABU
RUSL - roughly creates 300% of the performance of the MVIS Russia Index.
RUSS - Inverse of RUSL
SPY - Tracks the S&P500, but is not 3x. OPTIONS:
Alright, so half you are going to understand this, and half of you are not. Pull up an options chain now on any stock (penny stocks and specific stocks do not have chains because of their market cap). Options are truly the ultimate way to achieve maximum risk/reward.
An option is a contract that gives the buyer the right to buy or sell 100 shares of a stock at a certain price, on a certain date. This concept makes options a commodity themselves.
A CALL - is the right to buy. Buying calls is taking a bullish position in its most extreme form.
A PUT - is the right to sell.
The underlying - is the stock that the option is covering i.e. AAPL, GOOG, AMZN
Strike Price - the price at which a put or call option can be exercised.
ITM, In the money - In the money means that a call option's strike price is below the market price of the underlying asset or that the strike price of a put option is above the market price of the underlying asset. Being in the money does not mean you will profit, it just means the option is worth exercising.
OTM, Out of the money - a call option with a strike price that is higher than the market price of the underlying asset, or a put option with a strike price that is lower than the market price of the underlying asset.
ATM - At the money - Strike price at the same price as the underlying
Expiration - Expiries for options are every friday of every week usually, with exceptions such as every month, or every other day - depending on the underlying. SPY and SPX are great examples of very active option chains with expiries every other day. On the expiry date or any time before (with american options), an option can be, but doesn’t have to be exercised, meaning the holder of the option can use it to buy or sell shares of the underlying stock at the strike price. Most people on WSB do not exercise the contracts, but merely flip them for increases in value as the underlying moves.
For example, when AAPL was at 120 before its earnings report, Joe Shmoe Yolo buys 10 FEB 17th CALLS at strike 127 for .60 , each. Now .60 cents is really 60 dollars each, because the contract is multiplied by 100 (the right to 100 shares). In total, Joe Shmoe Yolo spends $600 dollars + commision on this trade. The next day, AAPL leaps to 130 upon great news. These same option contracts are now worth 3.50 each. $350 dollars per contract, times ten contracts is $3500 dollars. Joe Shmoe Yolo just turned $600 into $3500 dollars. MAGIC. Spoiler alert: Joe Shmoe Yolo was me.
That same Joe Shmoe later buys FEB 17th XOM calls at 90, hoping for similar results. However, XOM ends up never reaching anywhere close to the strike price, and the options expire worthless. Get it?
Now what determines the pricing of options?
Below is sourced from investopedia
Intrinsic Value: The intrinsic value is the actual value of a company or an asset based on an underlying perception of its true value including all aspects of the business, in terms of both tangible and intangible factors. This value may or may not be the same as the current market value. Additionally, intrinsic value is primarily used in options pricing to indicate the amount an option is in the money.
Time Value: Time Value = Option Price - Intrinsic Value. The more time an option has until it expires, the greater the chance it will end up in the money. The time component of an option decays exponentially. The actual derivation of the time value of an option is a fairly complex equation. As a general rule, an option will lose one-third of its value during the first half of its life and two-thirds during the second half of its life. This is an important concept for securities investors because the closer you get to expiration, the more of a move in the underlying security is needed to impact the price of the option. Time value is basically the risk premium that the option seller requires to provide the option buyer the right to buy/sell the stock up to the date the option expires. It is like an insurance premium of the option; the higher the risk, the higher the cost to buy the option. Makes sense, right?
Time value is determined by the expiration date. An expiration date in derivatives is the last day that an options contract is valid. When investors buy options, the contracts gives them the right but not the obligation, to buy or sell the assets at a predetermined price, called a strike price, within a given time period, which is on or before the expiration date. If an investor chooses not to exercise that right, the option expires and becomes worthless, and the investor loses the money paid to buy it. Volatility:
In an options pricing, you see IV. This stands for implied volatility. The higher that is, the higher the options will be priced Volatility is the extent to which the return of the underlying asset will fluctuate between now and the option's expiration. Volatility, as expressed as a percentage coefficient within option-pricing formulas, arises from daily trading activities. How volatility is measured will affect the value of the coefficient used. Decaying Nature of Options:
Decay refers to derivative trading (i.e. options). When you sell or buy a call/put (using those two for simplicity purposes) you don't get an infinite time frame to make your dreams come true. Time is your enemy; the further out the expiration date, the less time decay there is. Time decay really hits the worst the week of expiration. Sound confusing? Say you're buying options of the stock WSB (I hope you're seeing what I did there) - and the option costs $1, the expiration is this Friday. Say today is Monday. You buy a call expecting WSB to take you to the moon and beyond. Each day the stock doesn't move closer to your strike price or remains stagnant/drops, you lose value on your option + the time decay. Meaning if it finishes closer to your strike price, your option could be worthless because of that time decay. Questions? Ask away.
A great example of these factors in action is TSLA.
TSLA’s options are among the most expensive for companies in its price range, why?
An in the money TSLA call expiring this week is worth around $1100 per contract. Insanely expensive. But for a reason. TSLA has extreme intraday movements and calls have an implied volatility of 40.92%. Which is fairly high. In addition to that, it holds high intrinsic value / price per share, and a week of time value. -Futures 101 - The Ultimate YOLO Guide
(thanks to u/IncendiaryGames
Okay, a lot of you have been YOLOing on faggot delights on SPY options. How would you like to trade something with the same or more leverage, 1.0 delta, and no time premium costs? Have you considered futures? What are futures? Unlike options, futures is a contract where both the buyer and seller is obligated to perform the transaction by the expiration. Conversely, in options, only the seller is obligated to perform. That means you can lose more than your investment. Originally they were used by farmers to sell future crops early and guarantee some amount of sales. Since then futures have expanded not just to commodities but currency and equity indices like the S&P 500. Why the heck would I want to trade futures? Here are the advantages: Leverage $5k is the margin requirement for most contracts. For example with the E-mini S&P 500 with 5k you're trading $120k worth of stuff. 1 contract = 500 spy shares. Some brokers offer intraday daytrading margin rates too - TD Ameritrade is 25% of the overnight margin rate($1,250.) Some brokers go as low as $500 an /ES future. SPAN Margin If 24x overnight leverage and 240x day trade leverage didn't give you a hard on there is also SPAN margin, which is like portfolio margin on steroids. The beauty of SPAN margin is you don't need a $125k+ account to be eligible. SPAN will greatly reduce your margin requirements if you hold uncorrelated or inversely correlated positions (up to an 80% discount, here is a list of groups that give discounts) and if you hedge with options. Hedge with the right option or asset and now you have up to 500x day trading margin. 23/7 and day trading Ever get in and out of an equity only to have your broker yell at you to stop doing that or deposit $25k? There is no pattern day trading restrictions on futures. Feel free to day trade and blow up your account as often as you want! You can also trade 23 hours a day. Get trading on how the S&P 500 index will react to news from China right away. Taxes No matter how long or how short you hold you always get taxed under the 60/40 rule. 60% of your profit from futures will be taxed as a long term gain and 40% will be taxed as short term gain. No wash sales. Trade your hearts out. Just remember holding past Dec 31st will treat you as if you closed all your positions that day and you'll be taxed on unrealized gains. Long/Short No need to pay interest or borrow shares as being short a future contract is being a writer, just like an options writer. Options Of course there are options. What fun would it be without options? Unlike stock options each contract gives different number of future contracts. Research what you're trading.
Ok. I'm convinced. I want to strat trading futures! What are some good strategies?
Swing trading Trying to guess/predict/ride sudden market momentum. A low volume average day in the S&P 500 (/ES) for one contract can swing +- $500. Get it right and you can see a huge appreciation of value. /ES is usually highly liquid during regular hours with average volume of 1 million trades and usually bid-ask spreads of one tick. One approach is to buy or short in your direction and put in a stop loss to an amount you're comfortable to lose (say $200.) Since it's so liquid you'll likely be filled at or near your stop loss during the day if your trade goes against you. If you can guess the direction 50% of the time and have trades like this: trade 1 - gain $800 trade 2 - lose $200 Then you may profit over the time period. If you have a 50% chance of being wrong and losing $200 or 50% chance of being right and gaining $800 then over time you'll gain more than you lose. Also, since the present value of your futures contract is included in your margin calculation then if it goes strongly in your favor your position can quickly grow to cover its own margin and you can let it ride for a while. You'll want to be sure you enter a combo buy/short order along with a stop loss order simultaneously, like this for Thinkorswim. Futures can move suddenly and a sudden movement can make you lose a ton of money. Exploiting outdated SPAN margin guidelines There are several out of date correlations between popular futures like oil and say things like wheat that SPAN gives you margin credits on. Take whatever position you want in oil (/cl) then take the opposite in something that doesn't move much day to day with less volatility such as /w (wheat)) and your /cl and /w positions will get a 75% credit, giving you 50% more buying power on crude oil. (2 positions * .25 = 0.5). Trade your heart out on the more volatile future then when you're done close your safer future pair. SPAN is constantly changing but such a complex system definitely has its exploits. Automated/algorithmic trading For you programmer geeks out there it's really hard to algorithmic trade on small accounts due to pattern day trading rules and economies of scale with broker fees. Futures is probably the best way to get your feet wet. Join us on /algotrading
if you want to explore more!
Boring safer strategies
I'm including these for completeness but these belong on /investing
. Scalping With high frequency trading scalping is less guaranteed. Basically scalping is using tiny momentum as usually there are small micro patterns in futures buying and selling activity where it will rise or fall a couple of ticks. Since the notional value of each tick is $12.5 it's profitable for retail investors and small accounts to act as a market maker after fees at the smallest bid-ask spread possible. Spreads Just like you can trade spreads in options, you can trade calendar spreads in futures. Futures have contracts with different expiration dates and the prices are different for each month of expiration based on the market's expectations. You can go long or short the near month expiration and the opposite for the far month. This will hedge out any sudden market moves as that would likely affect both months. Bull markets in general tend to increase the price of the near month faster than the far month. Basically with a spread trade you're making a long term bet on bull or bear for the underlying future. Pairs trading You can go long in one future say the dow jones (/ym) and short the S&P 500 index and profit off the relative growth. This is a hedged trade as any market ups or downs will likely affect both positions with the same % value. For the past 180 days /ym - /es has been really profitable. Even if you don't do a full perfect pairs trade it is still a great option to reduce the leverage too on whatever index future you're trading so you can stay in longer or overnight. Interest rate and optimal leverage plays Since the $5k investment is equal to $120k of the S&P 500 index currently then you'll likely beat out the market by buying one future contract and putting $115k in safe treasuries or bonds or uncorrelated assets. Some people choose to leverage their stock portfolio and you can get the exact leverage ratio of liquid investments to future ratios. In probability theory the max leverage you can gain is determined by the Kelly Criterion which modeling shows indicates the S&P 500 index to be leveraged to 1.40x. Yes, you could do the same with options but even on SPY deep in the money call leaps are illiquid and have a time premium. Even today they are so deep ITM that the options you would need to use have 0 open interest and a bid-ask spread of $5 per share (so $500 per contract.) You'd need ~5 contracts per 120k so you're already eating $2.5k/$120k - 2% interest rate a year for that leverage. SPX isn't better, it's bid ask is 22 so you'd be eating $2.2k/$120k - 1.83% interest rate. It's doubtful you won't get much past the ask as its only market makers providing liquidity and guess what the market maker will do if you buy/sell the option? They will hedge with the underlying futures until their minimum profit is the risk free interest rate. Hedging Going long and short in various non correlated or negatively correlated assets to seek out a high sharpe ratio and have a higher risk free return that is market neutral. Basic hedge fund stuff. The variety and price efficiency of futures makes things pretty attractive in this area. SUBCULTURE
Wallstreetbets is a community that has become infamous for the most wild west, moon or cardboard box trades on the planet earth. WSB is a place where you can take out thousand dollar loans, refinance your homes, cash advance all of your credit cards only to put it all on JNUG, and we will still love you. Your mother won't. Your father will never understand your spectrum of autism, but we will always love you. It is a uniquely beautiful community focused on praising its biggest losers as much as its biggest winners. To begin on the subculture, we should define some key moments in the sub's history.
HISTORY: (As made by u/digadiga
) + my additions
[+1] creates /wallstreetbets
, and word slowly starts to ooze out. 2013: americanpegasus
discovers pennies. AP has seen the light, and is a penny stock evangelist. Jartek & AP have an epic options vs pennies battle - they both lose a couple of hundred bucks, but we are entertained, and WSB is officially born. AP blows up his retirement, swears off pennies and moves onto bitcoins. 2014: fscomeau
[+3] discovers options. He repeatedly bets five figures on AAPL calls before earnings. FS claims a supernatural clairvoyance of AAPL. FS then posts about his chest pains and ER visits. He finally suffers an epic loss. Is he dead? Is he alive? Is he is mother? Is he banned? Who cares? 2015: Photos from the 3rd annual meetup are posted. Where a bunch of dudes hang out on the romantic beaches of Guerrero Mexico. In a completely unrelated event, the wsb banner is changed to thousands of ejaculating dicks. Modpocalypse occurs. Hundreds of random users are added as moderators for a few months. None of the new mods can change the CSS. The constant whining about how "wsb isn't what it used to be" continues. Someone attempts to show how selling covered calls is idiot proof, but gets lazy, bets all six figures on Apple, and suffers significant losses. Robinhood gets popular. Should you buy one share of AMZN or one share of GOOGL? Who gives a fuck. 2016: Everyone starts saying "go fuck yourself." Except me. Because I am what I am. And if you don't like it, you can all go fuck yourselves. u/World_Chaos
performs one of the more impressive yolo's of the sub, starting with 900 dollars, and turning it into 55k. https://www.reddit.com/wallstreetbets/comments/414blh/yofuckinglo_900_to_55k_in_12_days/?ref=share&ref_source=link
preforms what he calls "The Final Yolo", a 300k trade against AAPL before earnings (that I, u/thor303456
inversed), supposedly supposed to net fscomeau 2.5 million or so, in which he will finally stop trading. FSC is featured on several market related articles and newspapers, showing up on yahoo, etc. Later we find proof during his livestream of AAPL earnings that he was paper trading. Even later, FSC writes a near 200 page book called "Wolfie Has Fallen" describing how he trolled the entire internet, some following him into that AAPL trade. Martin Shkreli visits the sub and proclaims that GILD pharma is worth over $100 a share and is deeply undervalued.
KEY FIGURES: Donald J Trump
- He is the Marmalade Manchurian, the Tangerine Tycoon, and our spray tan Stalin. Unbelievable night of election. WSB demographics show a primarily capitalist and right wing (or at least joking to be so) point of view, and thus we are generally pro trump. In actuality though, WSB is focused on pro-market
, which Trump happens to be. u/Jartek
- Founder of the sub, original yoloer. Believe he has retired from reddit for the most part. Mostly inactive. u/Fscomeau
- The Canadian as some call him, and perhaps one of the most profound internet trolls of 2016-2017. A French-Canadian trader who deals with mostly options. The man has been called "The Great Inverse", and for a good reason. Nearly all of the trades or statements he made on WSB were completely wrong or mostly wrong. Truly the strongest technical indicator. Martin Shkreli
- An idol to many WSBers, Martin stands as the master of the biotech sector. A very debated character for very stupid reasons. Martin regularly tweets about the stock market, occasionally does a youtube channel, and livestreams fairly regularly. u/theycallme1
- Educated trader, and mod of WSB. Roasts people often and roasts them good. Ask him the questions that aren't stupid. One of the most active mods. u/world_chaos
- some fucking college student with some real net worth. Sits on 100k or so (needs verification), and was an inspiring yoloer to all, with his 900 to 55k yolo with options. Lingo, Terminology, and Nomenclature:
The Faggots Delights - Truly the most suicidal, yet clearest shot to the moon. This term is usually used to define either weekly, or daily option plays on the SPY/SPX. Some users trade them very profitably, such as u/MRPguy
and many in the past.
Cuck - Truly the worst thing you could be. A cuck is a man who likes watching his wife/girlfriend fuck other guys. Weak, spineless, and a term often throw around here.
The YOLO - You only live once. This is something that is, and should be realized as undeniably true. Why are you sitting on a 5k emergency fund that is making you less interest in a year than what I just made in 10 minutes? Why haven't you used all of the credit on your 5 credit cards or used your testicles as collateral for a loan yet? YOLO or YOLOING is as much a psychological decision to embrace absurdism, and win with everything you have while risking it all. Yolo is what it means to be a WSB trader.
Bagholding or a Bagholder - When you're stuck with the most ass trade of your life, because you know it'll go back up. A bagholder is the 59 year old guy at the grocery store who won't quit his Job because he knows he only has to wait another year until he gets a return on his investment (of his life). Anyone holding SUNEQ is the definition of a bagholder.
Autists - Something we embrace, something we call each other, something we all are. Autism isn't used in an offensive way as much as it is a generally accepted term that defines us. The best traders have autism because of their distance from emotion. I bet you never made it to this part of the reading because you're such a damn autist.
Tendies - Tendies are what you get after you make a small amount of money. "I SOLD AMD TODAY FOR A $13 DOLLAR PROFIT, GOING TO MCD's TO GET MY TENDIES". Tendie money is usually shameful and insignificant, but at least it got you tendies. Chicken tenders at McDonalds are the least expensive for the most cholesterol.
I know some of the writing was half ass, full of errors, or otherwise not the best explanation. But I believe this will serve its purpose, and maybe help to promote new ideas from moderately educated traders. WSB has very strong traders, and the most uniquely risky trading styles on the planet. Hopefully this can serve to better the overall community.
You guys are all faggots, upvote this so we can get the noobs to stop trying to bite on our cocks.
Also I'd really appreciate input on anything to add to this overall. It took my over 3 hours to write up, so I eventually grew tired and probably have missing spots.
Enjoy your time here at WSB.
EDIT: Added a shit ton of stuff, fixed errors. THANKS FOR ALL OF YOUR INPUT, ACTUALLY MAKING WSB GREAT AGAIN
MODS: Can we make this editable by others mods or something? My fingers aren't enough. Seems like this could serve as a good "official" thing. Paging u/theycallme1 u/CHAINSAW_VASECTOMY
DigiByte What are cryptocurrencies?
Cryptocurrencies are peer to peer technology protocols which rely on the block-chain; a system of decentralized record keeping which allows people to exchange unmodifiable and indestructible information “coins,” globally in little to no time with little to no fees – this translates into the exchange of value as these coins cannot be counterfeit nor stolen. This concept was started by Satoshi Nakamoto (allegedly a pseudonym for a single man or organization) whom described and coded Bitcoin in 2009. What is DigiByte?
DigiByte (DGB) is a cryptocurrency like Bitcoin. It is also a decentralized applications protocol in a similar fashion to Neo or Ethereum.
DigiByte was founded and created by Jared Tate in 2014. DigiByte allows for fast (virtually instant) and low cost (virtually free) transactions. DigiByte is hard capped at 21 billion coins which will ever be mined, over a period of 21 years. DigiByte was never an ICO and was mined/created in the same way that Bitcoin or Litecoin initially were.
DigiByte is the fastest UTXO PoW scalable block-chain in the world. We’ll cover what this really means down below.
DigiByte has put forth and applied solutions to many of the problems that have plagued Bitcoin and cryptocurrencies in general – those being:
- Maintaining decentralisation.
- Maintaining low fees.
- Maintaining fast transaction times.
- Maintaining robust security + the immutable ledger.
- And most importantly assuring massive scalability on chain.
We will address these point by point in the subsequent sections. The DigiByte Protocol
DigiByte maintains these properties through use of various technological innovations which we will briefly address below. Why so many coins? 21 Billion
When initially conceived Bitcoin was the first of a kind! And came into the hands of a few! The beginnings of a coin such as Bitcoin were difficult, it had to go through a lot of initial growth pains which following coins did not have to face. It is for this reason among others why I believe Bitcoin was capped at 21 million; and why today it has thus secured a place as digital gold.
When Bitcoin was first invented no one knew anything about cryptocurrencies, for the inventor to get them out to the public he would have to give them away. This is how the first Bitcoins were probably passed on, for free! But then as interest grew so did the community. For them to be able to build something and create something which could go on to have actual value, it would have to go through a steady growth phase. Therefore, the control of inflation through mining was extremely important. Also, why the cap for Bitcoin was probably set so low - to allow these coins to amass value without being destroyed by inflation (from mining) in the same way fiat is today! In my mind Satoshi Nakamoto knew what he was doing when setting it at 21 million BTC and must have known and even anticipated others would take his design and build on top of it.
At DigiByte, we are that better design and capped at 21 billion. That's 1000 times larger than the supply of Bitcoin. Why though? Why is the cap on DigiByte so much higher than that of Bitcoin? Because DigiByte was conceived to be used not as a digital gold, nor as any sort of commodity, but as a real currency!
Today on planet Earth, we are approximately 7.6 billion people. If each person should want or need to use and live off Bitcoin; then equally split at best each person could only own 0.00276315789 BTC. The market cap for all the money on the whole planet today is estimated to have recently passed 80 trillion dollars. That means that each whole unit of Bitcoin would be worth approximately $3,809,523.81! $3,809,523.81
This is of course in an extreme case where everyone used Bitcoin for everything. But even in a more conservative scenario the fact remains that with such a low supply each unit of a Bitcoin would become absurdly expensive if not inaccessible to most. Imagine trying to buy anything under a dollar!
Not only would using Bitcoin as an everyday currency be a logistical nightmare but it would be nigh impossible. For each Satoshi of a Bitcoin would be worth much, much, more than what is realistically manageable.
This is where DigiByte comes in and where it shines. DigiByte aims to be used world-wide as an international currency! Not to be hoarded in the same way Bitcoin is. If we were to do some of the same calculations with DigiByte we'd find that the numbers are a lot more reasonable.
At 7.6 billion people, each person could own 2.76315789474 DGB. Each whole unit of DGB would be worth approximately $3,809.52. $3,809.52
This is much more manageable and remember in an extreme case where everyone used DigiByte for everything! I don't expect this to happen anytime soon, but with the supply of DigiByte it would allow us to live and transact in a much more realistic and fluid fashion. Without having to divide large numbers on our phone's calculator to understand how much we owe for that cup of coffee! With DigiByte it's simple, coffee cost 1.5 DGB, the cinema 2.8 DGB, a plane ticket 500 DGB! There is a reason for DigiByte's large supply, and it is a good one! Decentralisation
Decentralisation is an important concept for the block-chain and cryptocurrencies in general. This allows for a system which cannot be controlled nor manipulated no matter how large the organization in play or their intentions. DigiByte’s chain remains out of the reach of even the most powerful government. This allows for people to transact freely and openly without fear of censorship.
Decentralisation on the DigiByte block-chain is assured by having an accessible and fair mining protocol in place – this is the multi-algorithm (MultiAlgo) approach. We believe that all should have access to DigiByte whether through purchase or by mining. Therefore, DigiByte is minable not only on dedicated mining hardware such as Antminers, but also through use of conventional graphics cards. The multi-algorithm approach allows for users to mine on a variety of hardware types through use of one of the 5 mining algorithms supported by DigiByte. Those being:
Please note that these mining algorithms are modified and updated from time to time to assure complete decentralisation and thus ultimate security.
The problem with using only one mining algorithm such as Bitcoin or Litecoin do is that this allows for people to continually amass mining hardware and hash power. The more hash power one has, the more one can collect more. This leads to a cycle of centralisation and the creation of mining centres. It is known that a massive portion of all hash power in Bitcoin comes from China. This kind of centralisation is a natural tendency as it is cheaper for large organisations to set up in countries with inexpensive electricity and other such advantages which may be unavailable to the average miner.
DigiByte mitigates this problem with the use of multiple algorithms. It allows for miners with many different kinds of hardware to mine the same coin on an even playing field. Mining difficulty is set relative to the mining algorithm used. This allows for those with dedicated mining rigs to mine alongside those with more modest machines – and all secure the DigiByte chain while maintaining decentralisation. Low Fees
Low fees are maintained in DigiByte thanks to the MultiAlgo approach working in conjunction with MultiShield (originally known as DigiShield). MultiShield calls for block difficulty readjustment between every single block on the chain; currently blocks last 15 seconds. This continuous difficulty readjustment allows us to combat any bad actors which may wish to manipulate the DigiByte chain.
Manipulation may be done by a large pool or a single entity with a great amount of hash power mining blocks on the chain; thus, increasing the difficulty of the chain. In some coins such as Bitcoin or Litecoin difficulty is readjusted every 2016 blocks at approximately 10mins each and 2mins respectively. Meaning that Bitcoin’s difficulty is readjusted about every two weeks. This system can allow for large bad actors to mine a coin and then abandon it, leaving it with a difficulty level far too high for the present hash rate – and so transactions can be frozen, and the chain stopped until there is a difficulty readjustment and or enough hash power to mine the chain. In such a case users may be faced with a choice - pay exorbitant fees or have their transactions frozen. In an extreme case the whole chain could be frozen completely for extended periods of time.
DigiByte does not face this problem as its difficulty is readjusted per block every 15 seconds. This innovation was a technological breakthrough and was adopted by several other coins in the cryptocurrency environment such as Dogecoin, Z-Cash, Ubiq, Monacoin, and Bitcoin Gold.
This difficulty readjustment along with the MultiAlgo approach allows DigiByte to maintain the lowest fees of any UTXO – PoW – chain in the world. Currently fees on the DigiByte block-chain are at about 0.0001 DGB per transaction of 100 000 DGB sent. This depends on the amount sent and currently 100 000 DGB are worth around $2000.00 with the fee being less than 0.000002 cents. It would take 500 000 transactions of 100 000 DGB to equal 1 penny’s worth. This was tested on a Ledger Nano S set to the low fees setting. Fast transaction times
Fast transactions are ensured by the conjunctive use of the two aforementioned technology protocols. The use of MultiShield and MultiAlgo allows the mining of the DigiByte chain to always be profitable and thus there is always someone mining your transactions. MultiAlgo allows there to a greater amount of hash power spread world-wide, this along with 15 second block times allows for transactions to be near instantaneous. This speed is also ensured by the use DigiSpeed. DigiSpeed is the protocol by which the DigiByte chain will decrease block timing gradually. Initially DigiByte started with 30 second block times in 2014; which today are set at 15 seconds. This decrease will allow for ever faster and ever more transactions per block. Robust security + The Immutable Ledger
At the core of cryptocurrency security is decentralisation. As stated before decentralisation is ensured on the DigiByte block chain by use of the MultiAlgo approach. Each algorithm in the MultiAlgo approach of DigiByte is only allowed about 20% of all new blocks. This in conjunction with MultiShield allows for DigiByte to be the most secure, most reliable, and fastest UTXO block chain on the planet. This means that DigiByte is a proof of work (PoW) block-chain where all transactional activities are stored on the immutable public ledger world-wide. In DigiByte there is no need for the Lightning protocol (although we have it) nor sidechains to scale, and thus we get to keep PoW’s security.
There are many great debates as to the robustness or cleanliness of PoW. The fact remains that PoW block-chains remain the only systems in human history which have never been hacked and thus their security is maximal.
For an attacker to divert the DigiByte chain they would need to control over 93% of all the hashrate on one algorithm and 51% of the other four. And so DigiByte is immune to the infamous 51% attack to which Bitcoin and Litecoin are vulnerable.
Moreover, the DigiByte block-chain is currently spread over 200 000 plus servers, computers, phones, and other machines world-wide. The fact is that DigiByte is one of the easiest to mine coins there is – this is greatly aided by the recent release of the one click miner. This allows for ever greater decentralisation which in turn assures that there is no single point of failure and the chain is thus virtually un-attackable. On Chain Scalability
The biggest barrier for block-chains today is scalability. Visa the credit card company can handle around 2000 transactions per second (TPS) today. This allows them to ensure customer security and transactional rates nation-wide. Bitcoin currently sits at around 7 TPS and Litecoin at 28 TPS (56 TPS with SegWit). All the technological innovations I’ve mentioned above come together to allow for DigiByte to be the fastest PoW block-chain in the world and the most scalable.
DigiByte is scalable because of DigiSpeed, the protocol through which block times are decreased and block sizes are increased. It is known that a simple increase in block size can increase the TPS of any block-chain, such is the case with Bitcoin Cash. This is however not scalable. The reason a simple increase in block size is not scalable is because it would eventually lead to some if not a great amount of centralization. This centralization occurs because larger block sizes mean that storage costs and thus hardware cost for miners increases. This increase along with full blocks – meaning many transactions occurring on the chain – will inevitably bar out the average miner after difficulty increases and mining centres consolidate.
Hardware cost, and storage costs decrease over time following Moore’s law and DigiByte adheres to it perfectly. DigiSpeed calls for the increase in block sizes and decrease in block timing every two years by a factor of two. This means that originally DigiByte’s block sizes were 1 MB at 30 seconds each at inception in 2014. In 2016 DigiByte increased block size by two and decreased block timing by the same factor. Perfectly following Moore’s law. Moore’s law dictates that in general hardware increases in power by a factor of two while halving in cost every year.
This would allow for DigiByte to scale at a steady rate and for people to adopt new hardware at an equally steady rate and reasonable expense. Thus so, the average miner can continue to mine DigiByte on his algorithm of choice with entry level hardware.
DigiByte was one of the first block chains to adopt segregated witness (SegWit in 2017) a protocol whereby a part of transactional data is removed and stored elsewhere to decrease transaction data weight and thus increase scalability and speed. This allows us to fit more transactions per block which does not increase in size!
DigiByte currently sits at 560 TPS and could scale to over 280 000 TPS by 2035. This dwarfs any of the TPS capacities; even projected/possible capacities of some coins and even private companies. In essence DigiByte could scale worldwide today and still be reliable and robust. DigiByte could even handle the cumulative transactions of all the top 50 coins in coinmarketcap.com and still run smoothly and below capacity. In fact, to max out DigiByte’s actual maximum capacity (today at 560 TPS) you would have to take all these transactions and multiply them by a factor of 10! Oher Uses for DigiByte
Note that DigiByte is not only to be used as a currency. Its immense robustness, security and scalability make it ideal for building decentralised applications (DAPPS) which it can host. DigiByte can in fact host DAPPS and even centralised versions which rely on the chain which are known as Digi-Apps. This application layer is also accompanied by a smart contract layer.
Thus, DigiByte could host several Crypto Kitties games and more without freezing out or increasing transaction costs for the end user.
Currently there are various DAPPS being built on the DigiByte block-chain, these are done independently of the DigiByte core team. These companies are simply using the DigiByte block-chain as a utility much in the same way one uses a road to get to work. One such example is Loly – a Tinderesque consensual dating application.
DigiByte also hosts a variety of other platform projects such as the following:
The DigiByte Foundation
- DigiPay – A jqeury online payment protocol portal web plugin.
- DigiByte DigiHash - The official DigiByte foundation mining pool.
- DigiByte Digi-ID – A platform for identity verification to be used in lieu of two factor authentication and passwords.
- DigiByte Emma AI – A DigiByte interactive artificial intelligence assistant.
- DigiByte DigiMan – A web browser plugin to be used as a security layer two protocol.
- DigiByte DigiSeeder – A background seeding service which assures all wallets quickly find other peers in the network.
- DigiByte DigiMessenger – A ground-breaking messaging application built on top of DigiByte which features robust and virtually unbreakable encryption.
- DigiByte OneClickMiner – An easy to set up application which allows users to quickly start mining DigiByte on their home machines.
- DigiByte DigiBot – A telegram bot for users to interact with DigiByte and more.
As previously mentioned DigiByte was not an ICO. The DigiByte foundation was established in 2017 by founder Jared Tate. Its purpose is as a non-profit organization dedicated to supporting and developing the DigiByte block-chain.
DigiByte is a community effort and a community coin, to be treated as a public resource as water or air. Know that anyone can work on DigiByte, anyone can create, and do as they wish. It is a permissionless system which encourages innovation and creation. If you have an idea and or would like to get help on your project do not hesitate to contact the DigiByte foundation either through the official website and or the telegram developer’s channel.
For this reason, it is ever more important to note that the DigiByte foundation cannot exist without public support. And so, this is the reason I encourage all to donate to the foundation. All funds are used for the maintenance of DigiByte servers, marketing, and DigiByte development. DigiByte Resources and Websites DigiByte
- Windows Wallet
- OS X Wallet
- DigiByte Go
- Android Wallet
- iOS Wallet
- Rasberry Pi Wallet
- Trezor Hardware
- Ledger Hardware Wallet
Please refer to the sidebar of this sub-reddit for more resources and information. Edit - Removed Jaxx wallet.
Edit - A new section was added to the article: Why so many coins? 21 Billion
Edit - Adjusted max capacity of DGB's TPS - Note it's actually larger than I initially calculated.
Edit – Grammar and format readjustment
I hope you’ve enjoyed my article, I originally wrote this for the reddit sub-wiki where it generally will most likely, probably not, get a lot of attention. So instead I've decided to make this sort of an introductory post, an open letter, to any newcomers to DGB or for those whom are just curious.
I tried to cover every aspect of DGB, but of course I may have forgotten something! Please leave a comment down below and tell me why you're in DGB? What convinced you? Me it's the decentralised PoW that really convinced me. Plus, just that transaction speed and virtually no fees! Made my mouth water!
-Dereck de Mézquita
I'm a student typing this stuff on my free time, help me pay my debts? Thank you!
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:
- Forms of money
- Banking models
- Bank Bailouts
- Widely accepted economic systems
- Widely accepted forms of government
- Inventions which advanced FinTech
- Inventions in computer science and related technology
- Inventions which connected the world via transportation, communication and information
- Development of cryptography and cyberwar
- Notable Social Movements
- Hyperinflation and National Debts
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.
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.
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
1895 System of wireless communication using radio waves
1896 First successful intercontinental telegram
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.
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. 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.
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
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 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 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
1983 Satellite TV
1983 First built in hard drive
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. 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 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 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 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
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 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
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