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Ethereum: the part requires the memory of the system rather than the computing power
Regarding the exploitation of cryptocurrencies, we often associate a large-scale calculation power with efficiency. However, there is another factor that can have a significant impact on the profitability of the exploitation of a particular part: the memory of the system. In this article, we will explore which Ethereum parts require the most RAM of the system and the profit you may expect from the exploitation of these currencies on your personal computer.
What is system memory?
The memory of the system, also known as RAM (Ram of random access), refers to the quantity of storage of random access in the computer system. This type of memory is crucial to execute instructions quickly and effectively. Most modern computers, including laptops and office computers with RAM DDR3, are designed to consume significant amounts of system memory.
Ethereum corners with high system memory requirements
Several Ethereum parts require more system memory than others. These parts often have complex consensus algorithms, high transaction volumes or both. Here is a list of Ethereum parts that require significant system memory:
- Tezos (XTZ) : Tezos is a network of proof of proof that requires 64 GB or more RAM DDR3 to maintain optimal performance.
- Cardano (ADA) : The evidence of proof of proof of cardano requires 32 GB or more of RAM DDR3, which makes it one of the most intensive parts of the memory of this list.
- NEO (NEO) : NEO is a decentralized application platform which requires 16 GB to 64 GB of RAM DDR3, depending on the specific hardware configuration and the blockchain version.
- EOS (EOS) : The consensus algorithm of EOS proof requires about 8 to 16 GB of RAM DDR3, which makes it another piece which is strongly based on the memory of the system.
Minoring Randibility
To determine which Ethereum parts will generate the most mining profit with your RAM of the available system, consider certain factors:
- Transaction volume : higher transaction volumes generally result in higher mining benefits.
- Bloc difficulty
: As the difficulty of the block increases, it becomes more difficult for minors to solve complex mathematical problems and win rewards. This can lead to a drop in income per block.
- Mining swimming pool costs : Mining swimming pools often charge costs for their services, which can eat in your beneficiary margins.
Assuming that you have a 64 GB system RAM DDR3 with an appropriate motherboard and other compatible materials, believe the mining potential of each room:
| Coin | System memory requirement (GB) | Estimated mining profit (per block) |
| — | — | — |
| Tezos (XTZ) | 64 | $ 0.25 – $ 1 per block |
| Cardano (ADA) | 32 | $ 0.10 – $ 0.50 per block |
| Neo (Neo) | 16-64 | $ 0.05 – $ 0.20 per block |
| EOS (EOS) | 8-16 | $ 0.02 – $ 0.10 per block |
Keep in mind that these estimates are difficult and can vary depending on the specific material configuration, network congestion and other factors.
Conclusion
Ethereum parts with high system memory requirements can be a lucrative choice for minors with enough RAM. Although it is essential to consider the volume of transactions, blocking difficulty and mining pool costs when evaluating the profitability of parts, having 64 GB of RAM DDR3 or more will provide you with a solid base for the Operating operations Tezos, Cardano, Neo and EOS on your personal computer.
Do not forget to search for the specific requirements for each room and adjust your configuration accordingly. In addition, consider factors such as electricity costs, cooling requirements and maintenance expenses when deciding which coins to be used in the long term.
