330Mh/s
240W
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Realtime Data
Last Update: 23:57
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iPollo X1 Profitability
Calculate the value of your X1 with our easy to use asic miner calculator!
Information
The iPollo X1, delivering 330Mh/s for EtHash at 240W, combines efficiency with a compact design, maintaining a low noise level of 50db, suitable for home mining enthusiasts.
Search for the X1 on millionminer (click here).
⛏️ Income ⛏️ |
||
| DAY | MONTH | YEAR |
| $0.40 | $11.92 | $145.03 |
⚡ Electricity Costs ⚡ |
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| DAY | MONTH | YEAR |
| $0.46 | $13.82 | $168.19 |
đź’° Profit đź’° |
||
| DAY | MONTH | YEAR |
| $-0.06 | $-1.90 | $-23.16 |
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Information
The iPollo X1 is currently mining $-0.06 profit a day. The calculations is based on $0.40 income per day from which we deducted $0.46 elecricity costs. This means the X1 is able to generate up to $11.92 income per month. After you would deduct the electricity price of $13.82 you will have an estimated profit of $-1.90 per month.
Hint: With our Hosting Plans you will only pay around 0.08 USD per kWh.
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If the BTC price reaches $94443 you would earn estimated $0.14 per day.
More Information
The iPollo X1 also integrates an advanced cooling system that includes dual high-speed fans and heatsink fins made from a high thermal conductivity material, enhancing its thermal efficiency. It features a robust FPGA setup customizable via firmware updates for fine-tuned performance optimization. The device includes built-in overclocking options accessible through a user-friendly web interface, offering flexibility for experienced miners. iPollo’s proprietary ASIC chips are optimized for long-term performance stability, incorporating error correction features and power regulation circuits. Additionally, the X1 supports remote monitoring and management through a secure API, providing real-time performance data and alert systems for proactive maintenance.
Algorithm Information: etchash
Ethash, serving as a proof-of-work algorithm, is crucial in preserving the stability and credibility of many blockchains like ETC. Decentralized mining that can be carried out using standard computer hardware, as enabled by Ethash, ensures that the network is not controlled by a few huge mining entities. One of Ethash's defining design features is its memory-intensive nature, making it challenging for attackers to perform a 51% attack, where they attempt to manipulate transactions by dominating the majority of the network's computing power. Ethash's need for a substantial amount of memory to carry out mining operations makes it challenging for attackers to acquire the resources necessary to launch such an attack.