Monero Benchmarks
| CPU Model | Hashrate (H/s) | Threads/Cores | OS | Est. 24h Reward |
|---|---|---|---|---|
|
Intel Xeon Processor (Skylake, IBRS)
|
23 | 1/1 | Ubuntu 16.04.6 LTS | 0.00 € |
|
Intel(R) Core(TM) i5-6500T CPU @ 2.50GHz
|
91 | 3/3 | Docker Desktop | 0.02 € |
|
Intel(R) Core(TM) i7-6700K CPU @ 4.00GHz
|
1522 | 8/8 | Ubuntu 16.04.4 LTS | 0.31 € |
|
Virtual CPU 82d9ed4018dd
|
810 | 2/2 | Ubuntu 18.04.3 LTS | 0.17 € |
|
QEMU Virtual CPU version 2.5+
|
690 | 5/5 | Ubuntu 20.04.2 LTS | 0.14 € |
|
AMD Ryzen 7 2700X Eight-Core Processor
|
1130 | 16/16 | Ubuntu 18.04.4 LTS | 0.23 € |
|
AMD EPYC 7551 32-Core Processor
|
757 | 4/4 | Ubuntu 16.04.6 LTS | 0.16 € |
|
Intel(R) Xeon(R) CPU E5-2650L v3 @ 1.80GHz
|
878 | 6/6 | Ubuntu 18.04.3 LTS | 0.18 € |
|
Intel(R) Xeon(R) Gold 6140 CPU @ 2.30GHz
|
1686 | 6/6 | Ubuntu 18.04.3 LTS | 0.35 € |
|
Intel(R) Xeon(R) Platinum 8269CY CPU @ 2.50GHz
|
55 | 2/2 | Ubuntu 18.04.5 LTS | 0.01 € |
|
Intel(R) Core(TM) i3-3110M CPU @ 2.40GHz
|
336 | 4/4 | Docker Desktop | 0.07 € |
|
Intel(R) Core(TM) i5-3340M CPU @ 2.70GHz
|
543 | 4/4 | Ubuntu 18.04.4 LTS | 0.11 € |
|
Intel(R) Core(TM) i5-2410M CPU @ 2.30GHz
|
507 | 4/4 | Ubuntu 20.04.1 LTS | 0.10 € |
|
Intel(R) Core(TM) i7-6500U CPU @ 2.50GHz
|
668 | 4/4 | Ubuntu 20.04.2 LTS | 0.14 € |
|
Intel(R) Xeon(R) CPU @ 2.20GHz
|
1811 | 8/8 | Ubuntu 16.04.7 LTS | 0.37 € |
|
Intel(R) Core(TM) i7-8700 CPU @ 3.20GHz
|
137 | 2/2 | Alpine Linux v3.5 | 0.03 € |
|
Intel(R) Core(TM) i9-9900 CPU @ 3.10GHz
|
2059 | 16/16 | Docker Desktop | 0.42 € |
|
Intel(R) Xeon(R) CPU E5-1620 v2 @ 3.70GHz
|
1706 | 8/8 | Docker Desktop | 0.35 € |
|
Intel(R) Core(TM) i7-8700K CPU @ 3.70GHz
|
1759 | 12/12 | Docker Desktop | 0.36 € |
|
Intel(R) Core(TM) i9-7900X CPU @ 3.30GHz
|
3828 | 20/20 | Docker Desktop | 0.79 € |
|
Common KVM processor
|
259 | 2/2 | Ubuntu 18.04.5 LTS | 0.05 € |
|
Intel(R) Xeon(R) CPU E5645 @ 2.40GHz
|
1505 | 24/24 | Alpine Linux v3.5 | 0.31 € |
|
Intel Core Processor (Broadwell)
|
177 | 4/4 | Ubuntu 16.04.7 LTS | 0.04 € |
|
Intel(R) Pentium(R) CPU G645T @ 2.50GHz
|
304 | 2/2 | Zorin OS 15.3 | 0.06 € |
|
Intel(R) Core(TM) i7-5600U CPU @ 2.60GHz
|
422 | 4/4 | Docker Desktop | 0.09 € |
|
Intel(R) Core(TM) i7-8750H CPU @ 2.20GHz
|
1236 | 12/12 | Ubuntu 20.04.2 LTS | 0.25 € |
Monero Description
What is Monero?
Monero (XMR) is the top privacy-centric cryptocurrency based on the CryptoNote protocol, a secure, private and untraceable currency system. Monero uses a special kind of cryptography to ensure that all of its transactions are remain 100% unlinkable and untraceable. In an increasingly transparent world, you can see why something like Monero can become so desirable.
Origins of Monero
In July of 2012, Bytecoin, the first real life implementation of CryptoNote, was launched. While Bytecoin had promise, people noticed 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 then renamed Monero, meaning coin in Esperanto language. In this new blockchain, a block will be mined and added every two minutes.
Why Monero?
#1: Unlinkability - Your identity is completely private
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. When you send funds to someones public address, what happens is that you actually send the funds to a randomly created brand new one-time destination address.
This means that the public record does not contain any mention that funds were received to the recipients public address. In Monero, your public address will never appear in the public record of transactions. Instead, a 'stealth address' is recorded in a way that only you, the recipient, can recognize the incoming funds.
#2: Fungibility
Fungibility is interchangeability between one asset and another asset of the same type.
Suppose you borrowed $50 from your friend, you can even return the money in the form of 1 $50 bill or 5 $10 bill, It is still fine. This shows that the dollar has fungible properties. However, if you were to borrow someones car for the weekend and come back and give them some other car in return, then that person will probably punch on the face. Cars, in this example, are a nonfungible asset.
What is CryptoNote?
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. CryptoNote features an entirely new code base and is not a fork of Bitcoin. More info about CryptoNote can be found at their website.
CryptoNote uses Ring Signatures to conceal sender identities via mixing and it also has unlinkable transactions that is achieved using 1-time keys for each individual payments. Ring signatures enable transaction mixing to occur. Transaction mixing means that when funds are sent, the sender randomly chooses several other users funds to also appear in the transaction as a possible source of the funds being sent.
The cryptographical nature of the ring signature means that no one can tell which of the funds were really the source of the transaction not even the person that gave the funds to the sender in the first place. A system of key images associated with each ring signature ensures that although no one can tell the true source of the funds, it can be easily detected if the sender attempts to anonymously send their funds twice.
Monero (XMR) is the top privacy-centric cryptocurrency based on the CryptoNote protocol, a secure, private and untraceable currency system. Monero uses a special kind of cryptography to ensure that all of its transactions are remain 100% unlinkable and untraceable. In an increasingly transparent world, you can see why something like Monero can become so desirable.
Origins of Monero
In July of 2012, Bytecoin, the first real life implementation of CryptoNote, was launched. While Bytecoin had promise, people noticed 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 then renamed Monero, meaning coin in Esperanto language. In this new blockchain, a block will be mined and added every two minutes.
Why Monero?
#1: Unlinkability - Your identity is completely private
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. When you send funds to someones public address, what happens is that you actually send the funds to a randomly created brand new one-time destination address.
This means that the public record does not contain any mention that funds were received to the recipients public address. In Monero, your public address will never appear in the public record of transactions. Instead, a 'stealth address' is recorded in a way that only you, the recipient, can recognize the incoming funds.
#2: Fungibility
Fungibility is interchangeability between one asset and another asset of the same type.
Suppose you borrowed $50 from your friend, you can even return the money in the form of 1 $50 bill or 5 $10 bill, It is still fine. This shows that the dollar has fungible properties. However, if you were to borrow someones car for the weekend and come back and give them some other car in return, then that person will probably punch on the face. Cars, in this example, are a nonfungible asset.
What is CryptoNote?
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. CryptoNote features an entirely new code base and is not a fork of Bitcoin. More info about CryptoNote can be found at their website.
CryptoNote uses Ring Signatures to conceal sender identities via mixing and it also has unlinkable transactions that is achieved using 1-time keys for each individual payments. Ring signatures enable transaction mixing to occur. Transaction mixing means that when funds are sent, the sender randomly chooses several other users funds to also appear in the transaction as a possible source of the funds being sent.
The cryptographical nature of the ring signature means that no one can tell which of the funds were really the source of the transaction not even the person that gave the funds to the sender in the first place. A system of key images associated with each ring signature ensures that although no one can tell the true source of the funds, it can be easily detected if the sender attempts to anonymously send their funds twice.