Get a free quote!
Realtime Data
Last Update: 22:36
Current Server Time: 22:37
Innosilicon A4+ LTCMaster Profitability
Calculate the value of your A4+ LTCMaster with our easy to use ASIC miner calculator!
Information
Innosilicon A4+ LTCMaster, with 620Mh/s at 750W for Scrypt, combines high efficiency with a significant noise level of 80db, designed for Litecoin mining enthusiasts looking for robust performance.
Search for the A4+ LTCMaster on millionminer (click here).
⛏️ Income ⛏️ |
||
DAY | MONTH | YEAR |
$2.23 | $67.01 | $815.30 |
⚡ Electricity Costs ⚡ |
||
DAY | MONTH | YEAR |
$1.44 | $43.20 | $525.60 |
💰 Profit 💰 |
||
DAY | MONTH | YEAR |
$0.79 | $23.81 | $289.70 |
Need advice? Request a callback!
Information
The Innosilicon A4+ LTCMaster is currently mining $0.79 profit a day. The calculations is based on $2.23 income per day from which we deducted $1.44 electricity costs. This means the A4+ LTCMaster is able to generate up to $67.01 income per month. After you would deduct the electricity price of $43.20 you will have an estimated profit of $23.81 per month.
Hint: With our Hosting Plans you will only pay around 0.08 USD per kWh.
Request a free offer (click here)!
If the BTC price reaches $130947 you would earn estimated $1.91 per day.
More Information
The Innosilicon A4+ LTCMaster is built using advanced 28nm process technology, enabling enhanced energy efficiency and thermal performance over its predecessors. It comes with an optimized cooling system that includes dual fans and a robust heat sink, enabling the device to maintain high hash rates in prolonged mining sessions. The unit supports pool and solo mining, leveraging a hierarchical power distribution system to ensure stability. The LTCMaster also features firmware capable of overclocking, though users should be cautious as this comes with increased power consumption and heat. In terms of connectivity, it uses Ethernet, ensuring stable and efficient data transmission essential for mining pools.
Algorithm Information: Scrypt
Scrypt is a password-based key derivation function that was originally designed to be computationally intensive and memory-hard, making it more resistant to brute-force attacks compared to other algorithms such as SHA-256. The algorithm was first used as the proof-of-work in the cryptocurrency Litecoin and later in several other altcoins. It is also used in some password storage systems to prevent hackers from using massive amounts of computing power to guess passwords by cracking hashes. The algorithm was first used as the proof-of-work in the cryptocurrency Litecoin, and later in several other altcoins. It is also used in some password storage systems to prevent hackers from using massive amounts of computing power to guess passwords by cracking hashes. Scrypt requires a larger amount of memory compared to other algorithms, which makes it more difficult to implement on specialized hardware (ASICs) specifically designed for cryptocurrency mining.