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According to Monero’s site: Monero is a secure, private and untraceable currency system. Monero uses a special kind of cryptography to ensure that all of its transactions remain 100% unlinkable and untraceable.

According to Monero’s site: Monero is a secure, private and untraceable currency system. Monero uses a special kind of cryptography to ensure that all of its transactions remain 100% unlinkable and untraceable. In an increasingly transparent world, you can see why something like Monero can become so desirable. In this guide, we will see the mechanics behind Monero and see what makes it so special.

The origins of Monero

Back in July of 2012, Bytecoin, the first real life implementation of CryptoNote, was launched. CryptoNote is the application layer protocol that fuels various decentralized currencies. While it is similar to the application layer which runs bitcoin in many aspects, there a lot of areas where the two differ from each other.

While bytecoin had promise, people noticed that a lot of shady things were going on and that 80% of the coins were already published. So, it was decided that the bytecoin blockchain will be forked and the new coins in the new chain will be called Bitmonero, which is was eventually renamed Monero meaning “coin” in Esperanto. In this new blockchain, a block will be mined and added every two mins.

Monero is headed by a group of 7 developers of which 5 have chosen to remain anonymous while two have come out openly in public. They are: David Latapie and Riccardo Spagni aka “Fluffypony”.  The project is open source and crowdfunded.

What is Monero? The Ultimate Beginners Guide

Image courtesy: Coinsutra

Special features of Monero

So what is it about Monero that makes it so hot and in-demand. What are the unique properties that the CryptoNote algorithm gives it? Let’s check it out.

Property #1: Your currency is yours

You have complete control over your transactions. You are responsible for your money. Because your identity is private no one will be able to see what you are spending your money on.

 

Property #2: It is Fungible

Another interesting property that it gains, thanks to its privacy, is that it is truly fungible. What is fungibility? Investopedia defines fungibility as follows:

“Fungibility is a good or asset’s interchangeability with other individual goods or assets of the same type.”

So, what is fungible and what is non-fungible.

Suppose you borrowed $20 from a friend. If you return the money to him with ANOTHER $20 bill, then it is perfectly fine. In fact, you can even return the money to them in the form of 1 $10 bill and 2 $5 bills. It is still fine. The dollar has fungible properties (not all the time though).

However, if you were to borrow someone’s car for the weekend and come back and give them some other car in return, then that person will probably punch on the face. In fact, if you went away with a red Impala and came back with another red Impala then even that is not a done deal. Cars, in this example, are a nonfungible asset.

So, what is the deal with fungibility when it comes to cryptocurrency?

Let’s look at bitcoin for example. Bitcoin prides itself in being an open ledger and an open book. But what it also means is that everyone can see the transactions in it and more importantly, everyone can see the trail of that transaction. What this basically means is that suppose you own a bitcoin which once was used in some illegal transaction, eg. buying drugs, it would forever be imprinted in the transaction detail. What this in essence does is that it “taints” your bitcoin.

In certain bitcoin service providers and exchanges, these “tainted” coins will never be worth as much as “clean” coins. This kills fungibility and is one of the most often used criticisms against bitcoin. After all, why should you suffer if one of the previous owners of your bitcoin used it to make some illegal purchases?

This is where Monero comes in. Since all their data and transactions are private, no one can know what transactions your Monero has gone through before and neither can they know what was used to buy with your Monero. Since its transaction history can never be known, it also means that the “transaction” trail is non-existent. As a result of this, the concept of “tainted” Monero and “clean” Monero doesn’t exist, and hence they are fungible!

Property #3: Dynamic Scalability

 

The Bitcoin scalability issue has been a very hot topic in the crypto circles the past few months. So, to give you all a gist of the the situation, Bitcoin was created with a self-imposed 1 Mb block size limit. In its early developments bitcoin didn’t have any block size limit, however, in order to prevent spam transactions, the size limit was enforced.

Monero, on the other hand, has no “pre-set” size limit, but this also means that malicious miners can clog up the system with disproportionately huge blocks. To prevent this from happening, a block reward penalty is built into the system. This is how it works:

Firstly, the median size of the last 100 blocks is taken which is called M100. Now suppose the miners mined a new block and it has a particular size which is called “NBS” aka New Block Size. If NBS > M100, then the block reward gets reduced in quadratic dependency of how much NBS exceeds M100.

This means that if NBS is [10%, 50%, 80%, 100%] greater than M100, the block reward gets reduced by [1%, 25%, 64%, 100%]. Generally, blocks greater than 2*M100 are not allowed, and blocks <= 60kB are always free of any block reward penalties.

Property #4: ASIC (Application Specific Integrated Circuit) Resistant

Ok, before we get started, let’s just get this out of the way. Monero is not exactly “ASIC resistant”, but the cost of manufacturing ASICs for Monero would be so high that it simply won’t be worth it. Why is that the case? Remember, when we said that Monero was based on the CryptoNote system which makes it distinctly different from bitcoins? Well, the hashing algorithm used in CryptoNote based systems is called “CryptoNight”.

Cryptonight was created to build a fairer and more decentralized currency system. Cryptocurrencies which incorporate Cryptonight cannot be mined using. It was hoped that this would prevent the creation of mining pools and make the currency more evenly distributed.

So what are the properties of CryptoNight which makes it ASIC Resistant? (The following is taken from “user36303” answer in monero.stackexchange.com).

Property #5: Multiple keys

 

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One of the more confusing aspects of Monero is its multiple keys. In bitcoin, ethereum, etc. you just have one public key and one private key. However, in a system like Monero, it is not quite as simple as that.

 

View Keys: Monero has a public view key and a private view key.

That’s the general overview of the process.

The public view key makes the first part of the Monero Address.

Spend Keys: If the view key was mostly for the recipient of a transaction, the spend key is all about the sender. As above, there are two spend keys: public spend key and private spend key.

The public spend key makes the second part of the Monero address.

The Monero address btw is a 95-character string which is made of the public spend and public view key.

This can be very confusing right now, but just keep this information in your head, and it will become clearer with subsequent sections.

What is the cryptography involved in Monero?

How does a transaction in a cryptocurrency work?

Every transaction has two sides to it, the input side and the output side. Suppose Alice needs to send some bitcoins to Bob how will it look like?

Transaction Input

In order to make this transaction happen, Alice needs to get bitcoins which she has received from various previous transactions. Remember, as we said before, in bitcoins, each and every coin is accounted for via a transaction history. So Alice can make the outputs of her previous transactions the input of the new transaction. Later on, when we talk about “outputs”, especially in the ring signature section, we mean the outputs of the old transaction which become the inputs of the new transaction.

So, suppose Alice needs to pull bitcoins from the following transactions which we shall name TX(0), TX(1) and TX(2). These three transactions will be added together and that will give you the input transaction which we shall call TX(Input).

Diagrammatically, it will look like this:

So, that is it from the input side, let’s check out what the output side will look like.

Transaction Output

The output basically will have a number of bitcoins that Bob will possess post transaction and any remaining change that is left over, which is then sent back to Alice. This change then becomes her input value for all future transactions.

A pictorial representation of the output side looks like this:

What is Monero? The Ultimate Beginners Guide

Now, this is a very simple transaction that has just one output (apart from the CHANGE), there are transactions that are possible with multiple outputs.

Image courtesy: FluffyPony presentation.

What is Monero? The Ultimate Beginners Guide

 

Bitcoin transactions happen because of public key cryptography. To have a very basic understanding of how that works, check out this flowchart:

 

A bitcoin user first chooses their private key. The public key is then mathematically derived from the private key. The public key is then hashed to create a public address which is open to the world. So, if Alice were to send Bob some BTC, she simply has to send them to his public address.

Now, there is a problem with this system. The public address is well…public! Anyone on

the blockchain can know who that address belongs to and as a result checkout their entire transaction history and also a number of bitcoins that they own! While Bitcoin does a stellar job of being a decentralized cryptocurrency, it doesn’t really do a great job of being a private currency system.

 

 


 

This is the “Electronic cash triangle” as the Monero team puts it:

What is Monero? The Ultimate Beginners Guide

Image courtesy: FluffyPony presentation.

As they put it, an ideal Electronic cash should fulfill three requirements:

With Monero, they are attempting to fulfill all these 3 criteria.

The underlying philosophy behind Monero is complete privacy and opaqueness.

Monero Cryptography #1: Ring Signatures

In order to understand what ring signatures are and how they help maintain the sender’s privacy let’s take a hypothetical real life example. When you are sending someone a check, you need to sign it off with your signature right? However, because of that, anyone who sees your check (and knows what your signature looks like) can tell that you are the person who has sent it.

Now think about this.

Suppose, you pick up 4 random people from the streets. And you merge your signatures with these 4 people to create a unique signature. Nobody will be able to find out whether it really is your signature or not.

That, in essence, is how ring signature works. Let’s see its mechanism in the context of Monero.

Suppose, Alice has to send 1000 XMR (XMR = Monero) to Bob, how will the system utilize ring signatures to hide her identity? (For simplicity’s sake, we are taking a pre- ringct implementation case..more on that later).

Firstly, she will determine her “ring size”. The ring size are random outputs taken from the blockchain which is of the same value as her output aka 1000 XMR. The bigger the ring size, the bigger the transaction and hence higher the transaction fees.  She then signs these outputs with her private spend key and sends it to the blockchain. Another thing to note, Alice doesn’t need to ask the owners of these previous transactions their permission to use the outputs.

So, suppose Alice chooses a ring size of 5 i.e. 4 decoy outputs and her own transaction, for an outsider, this is what it will look like:

What is Monero? The Ultimate Beginners Guide

Image courtesy: Monero Youtube channel.

In a ring signature transaction, any of the decoys is as likely of being an output as the actual output because of which any unintended third party (including the miners) won’t be able to know who the sender is.

Now, this brings us to a problem.

One of the many important roles that miners have is the prevention of “double spending”. Double spending basically means spending the exact same coin on more than one transactions at the same time. This problem is circumnavigated because of miners. In a blockchain, transactions happen only when miners put the transactions in the blocks that they have mined.

So suppose, A were to send 1 bitcoin to B and then he sends the same coin to C, the miners would put in one transaction inside the block and, in the process, overwrite the other one, preventing double spending in the process. But this is possible only when the miners can actually see what the inputs of the transaction actually is and who the sender is. In Monero, this is all hidden and cloaked thanks to the ring signatures. So how do they prevent double spends?

The answer lies in more ingenious cryptography.

Every transaction in Monero comes with its own unique key image. (we will see the mathematics behind key image later on). Since the key image is unique for every transaction, the miners can simply check it out and know whether a Monero coin is being double spent or not.

So, this is how Monero maintains the privacy of the sender by using ring transactions. Up next, we will see how Monero protects its receiver’s identity by the use of stealth addresses.

Monero Cryptography #2: Stealth Addresses

One of the biggest USP of Monero is transaction unlinkability. Basically, if someone sends you 200 XMR then, nobody should know that that money is coming to your address.  Basically, if Alice were to send money to Bob, only Alice should know that Bob is the recipient of her money and no one else.

So, how does Monero ensure Bob’s privacy?

Remember, Bob has 2 public keys, the public view key, and the public send key. For the transaction to go through, Alice’s wallet will use Bob’s public view key and the public spend key to generate a unique one-time public key.

This is the computation of the one-time public key (P).

In this equation:

The computation of this one-time public key generates a one-time public address called “stealth address” in the block chain where Alice sends her Monero intended for Bob. Now, how is Bob going to unlock his Monero from the random distribution of data?

Remember that Bob also has a private spend key?

This is where it comes into play. The private spend key basically helps Bob scan the blockchain for his transaction. When Bob comes across the transaction, he can calculate a private key which corresponds to the one-time public key and retrieves his Monero. So Alice paid Bob in Monero without anyone getting to know.

The Calculation of Key Images (a slight detour)

Before we continue, let’s go back to key images. So how is a key Image (I) calculated?

Now we know how the one-time public key (P) was calculated. And we have private spend key of the sender which we will call “x”.

Things to note from this equation.

Monero Cryptography #3: Ring Confidential Transactions

So, now we have seen how the spender can be kept anonymous and we have seen how the receiver is kept anonymous. But what about the transaction itself? Is there a way to make sure that the transaction amount itself is hidden?

Before the implementation of Ring CT, the transactions used to happen like this:

If Alice had to send 12.5 XMR to bob, then the output will be broken down into 3 transactions of 10,2 and .5. Each of those transactions will get their own ring signatures and then added to the blockchain:

Image courtesy: Monero Youtube

While this did safeguard the sender’s privacy, what it did was that it made the transactions visible to everyone.

To address this issue, Ring CT was implemented which was based on the research done by Gregory Maxwell. What RingCT does is simple, it hides the transaction amounts in the blockchain. What this also means is that any transaction inputs don’t need to be broken down into known denominations, a wallet can now pick up ring members from any Ring CT outputs.

Think of what that does to the privacy of the transaction?

Since there are so many more options to choose rings from and the value is not even known, it is now impossible to be aware of any particular transaction.

These 3 factors work in harmony to create a system where total privacy is afforded. But this was still not enough for the Monero developers. They needed an extra layer of security.

Kovri and I2P

I2p or invisible internet project is a routing system that allows applications to send messages to each other privately without any outside interference. Kovri is a C++ implementation of I2P which is supposed to be integrated with the Monero code.

If you are using Monero then Kovri will hide your internet traffic such that passive network monitoring won’t reveal that you are using Monero at all. In order for this to function, all of your Monero traffic will be encrypted and routed through the I2P nodes. The nodes are like blind gatekeepers. They will know that your messages are passing through but will have no idea where exactly they are going and what are the contents of the messages.

It is hoped that the relationship between I2P and Monero will be a symbiotic once because:

Kovri is still in developmental stage (as of writing) and has not been implemented yet.

Monero value and transaction cap

Monero’s growth has been pretty amazing to watch. Checkout their graph:

Image Courtesy: Coinmarketcap

As of writing, there are 15,054,759 XMR in circulation and each Monero is worth $114.83. The total market cap of Monero sits at $1,728,798,235.

In total there are 18.4 million XMR and mining is projected to go on until 31st May 2022. After that, the system is designed such that 0.3 XMR/min is fed continuously into it. This has been done so that miners would have the incentive to continue mining and won’t have to depend on just transaction fees after all the Monero has been mined out.

How to store Moneros?

The simplest way to store Monero is by going to “mymonero.com

Step 1: Click on “Create a new account”

What is Monero? The Ultimate Beginners Guide

Step 2: Take note of your private login key

 

What is Monero? The Ultimate Beginners Guide

Step 3: Type in your private login key to log in and find your public address!

 

What is Monero? The Ultimate Beginners Guide

And you are done!

Simple, wasn’t it?

Just be careful to never reveal your private login key.

If you ever forget your key, then click on Account and then click on “Review Login Key”.

What is Monero? The Ultimate Beginners Guide

And you can review the private login key:

What is Monero? The Ultimate Beginners Guide

How straightforward is that?

Monero Vs Bitcoin

So, comparisons can obviously not be avoided let’s look at how both these coins stack up.

Bitcoin prides itself on its open transparency. The blockchain is literally an open ledger that anyone, anywhere can access the blockchain and read up on all past transactions. Bitcoins are relatively simple to access and use.

Monero, on the other hand, is built for complete and utter privacy. All the transactions are completely secret. Monero can be a little complicated to understand and access for beginners.

The following table by Lindia Xie in her Medium article makes a fine comparison between bitcoin and Monero:

What is Monero? The Ultimate Beginners Guide

Edit: Current market cap for BTC is $68,242,637,715 and the current market cap for Monero is $1,728,798,235

The pros and cons of Monero

Pros

 

Cons

What is Monero? The Ultimate Beginners Guide
Image Courtesy: Monero Hash.

The future of Monero

There is no doubt that as the future becomes more open and decentralized, Monero will become more and more alluring for the privacy it offers. What is particularly interesting is that it is one of the few non-bitcoin based coins which has the potential of truly making it big. Interesting times lie ahead for Monero, and with the staggering growth that it has already undergone, the future looks very bright indeed. It will be interesting to see how things look like once Kovri is implemented

 

monero under the hood

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Q: What is monero?

A: According to Monero’s site: Monero is a secure, private and untraceable currency system.

Q: What is a privacy coin?

A: Privacy coins are cryptocurrencies who’s transactions remain 100% unlinkable and untraceable.

Q: What are the special features of using monero?

  1. Your currency is yours
  2. It is Fungible
  3. Dynamic Scalability