Do Innosilicon A6 LTC Master Hashrate Of 1.23Gh/s Really Worth It For Miners?
The Innosilicon A6 LTC Master Hashrate of 1.23Gh/s was released in January 2018.
There have been roughly 12 years of IP/IC design and development at Innosilicon, which started in 2006. Crypto mining equipment has recently been developed by Innosilicon, which has released a number of different types of miners. The Secure Hash Algorithm (SHA-256), Scrypt, X11, and Equihash are among the hashing algorithms employed by these miners.
Innosilicon's ASIC hardware for Litecoin mining, the A6 LTC Master, is made by the company. 1.23Gh/s has been released in January 2018, which consumes 1500W of power. Due to its user-friendly technology and faster transaction speeds, Litecoin's market capitalization now stands at $2.56 billion.
ASIC miners for Litecoin mining, in particular, were developed by Innosilicon in response to the recent surge in demand for mining hardware. It's possible to mine LTC with an Innosilicon A6 Master.
Innosilicon A6 LTC Master Appearance And Features
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For efficient cooling, Innosilicon's A6 LTC Master uses the same dual fan design as most of the company's miners. Innosilicon's A9 ZMaster series has a similar design and aesthetics. Weighting in at roughly 7.5 kilograms, the A6 LTC Master is compact and easy to transport.
The power supply has a switch and two power connections on the control board. As a result of this strategy, customers are given more power. In addition to powering the control board, the six-pin interface drives four cooling fans.
The miner's compact size makes it excellent for a wide range of mining conditions, notably mining farms, and makes it easier to operate.
Innosilicon A6 LTC Master Specifications
For Scrypt crypto mining, the A6 LTC Master is the best option. A temperature of 25°C results in a peak performance of hashing speeds of 1.23Gh/s (+/-8%) and a power consumption of 1500W (+/-8%) for the official specs. One controller controls four hash boards in each of the miner's dual parts. From above, you can see that there are two PCI-E 6 pin power and data lines on each of the hash boards.
The data cable, four-pin power cable, and controller power supply unit are all located on the top controller, in that order. There are two cooling fans at the bottom of the miner's rear, and the power interface for each hash board is positioned on top. Buckle-style data cables offer a secure connection and avoid wear and tear, making them ideal for use in harsh environments.
The cooling method for ASIC miners is crucial because of their high input and efficiency. Miners are at risk of overheating during mining. Mining equipment manufacturers like Innosilicon work to keep their workers cool by offering them a variety of different cooling options. At the front and back of the A6 LTC Master are two 12 cm (12C3.4A) fans. The A9 ZMaster fan arrangement is quite successful at reducing overheating with this fan configuration.
Front-facing fans are responsible for drawing in fresh air. In order for the A6 LTC Master to effectively dissipate heat, it relies on high-speed fans, which reduce temperature changes between the front and back. Daytime highs are around 15 degrees Celsius, and nighttime lows are around 8 degrees Celsius.
The hash boards on the A6 LTC Master reach an average temperature of 39°C when mining continuously, while the air inlet temperature hovers around 20°C. The air outflow temperature is approximately 23°C.
Using the A6 LTCMaster algorithm, Litecoin is mined using the Scrypt algorithm. Proof-of-work (PoW) blockchains employ the cryptographic hashing algorithm Scrypt. Key derivation is a memory-intensive function. For this kind of work, you'll need lots of RAM. That's why SHA-256 Proof of Work (PoW) ASIC processors would need extra RAM capacity in addition to their hashing power.
The A6 LTC Master has two preset frequencies: the default frequency and the overclocked frequency. Overclocking is built into the miner. Overclocking is the process of raising the voltage to the point that mining can continue without interruption. Depending on the power source and the miner's qualities, overclocking is possible. Automatic adjustment is quick, but in overclocking mode, the hash rate can go as high as 1.29Gh/s, and the miner uses 1738W.
- Noise level: 82db
- Internet connection: Ethernet
- Size: (L)350mm*(W)250mm*(H)155mm (dual tube)
- Allowed ambient temperature range: 0Â°C to 40Â°C
- Net Weight: 8.46KG (without PSU)
- Voltage: 12V
- Power Consumption: 1500W ( +/- 8%, normal mode, at the wall, PSU efficiency: 93%, temperature: 25Â°C)
- Power supply connection: 2 PCIE port per power board.
- Required rated PSU: 1600W or above, 17 * PCI-E 6Pin
- Cooling: air-cooled with 2 fans per tube, 4 fans in total
Innosilicon A6 LTC Master ASIC Mining Hashrate
- Scrypt Mining Hashrate : 1230 MH/s
- Scrypt Coins mined by Innosilicon A6 LTC-Master: Dogecoin (DOGE), Litecoin (LTC), Tradecoin (TRADE), GoldCoin (GLC)
- Power Consumption: 1500 watts/hour
INNOSILICON A6 LtcMaster
In order to attract a miner, you need to make a lot of noise. If you want to use the A6 LTCMaster at home to mine LTC, you may want to look elsewhere. An 82dB noise level can be measured roughly 20 cm away from the instrument in routine mining operations during the day. The typical noise levels of most mines are between 60 and 80 decibels (dB). During the day, an 80dB sound level is similar to that of a metropolis. In mining farms, the miner is best utilized.
An ASIC miner's main goal is to make money. You must subtract the area's electricity costs from this device's profitability in order to get a true picture of its value. Profitability for miners is also affected by changes in the market.