

Hashrate 53TH/s
Power 2385W
The Bitmain Antminer S17 (53Th) is designed for miners seeking efficient SHA-256 cryptocurrency mining with a hash rate of 53TH/s and a power consumption of 2385W. Its improved design enhances energy efficiency, optimizing power usage while delivering consistent performance. With advanced cooling mechanisms and firmware-assisted auto-tuning, this miner adapts to workload demands effortlessly. Use our crypto miner profit calculator to evaluate electricity expenses and profitability, considering different electricity rates and currencies, helping you make informed financial decisions on operational costs.
Information
Profit Information
The Bitmain Antminer S17 (53Th) Antminer S17-53TH/s is currently mining $-1.53 profit a day. The calculations is based on $3.04 income per day from which we deducted $4.58 electricity costs. This means the Antminer S17 is able to generate up to $91.35 income per month. After you would deduct the electricity price of $137.38 you will have an estimated profit of $-46.03 per month.
Hint: With our Hosting Plans you will only pay around 0.08 USD per kWh.
If the BTC price reaches $158588 you would earn estimated $-0.01 per day.
Profit Information
The Bitmain Antminer S17 (53Th) Antminer S17-53TH/s is currently mining $-1.53 profit a day. The calculations is based on $3.04 income per day from which we deducted $4.58 electricity costs. This means the Antminer S17 is able to generate up to $91.35 income per month. After you would deduct the electricity price of $137.38 you will have an estimated profit of $-46.03 per month.
Hint: With our Hosting Plans you will only pay around 0.08 USD per kWh.
If the BTC price reaches $158588 you would earn estimated $-0.01 per day.
Profit Widget
Use our profit widget on your website to showcase the real-time profitability data of this ASIC miner.
SHA256 Miner Generations
Mineable Coins
COIN | HASHRATE | POWER | EFFICIENCY | INCOME/DAY | PROFIT/DAY |
---|---|---|---|---|---|
Nicehash
SHA-256
|
53TH/s
|
2385W
|
45.00 J/TH
|
3.04
$
0.00002880
![]() |
-1.53
$
-0.00001451
![]() |
Bitcoin
SHA-256
|
53TH/s
|
2385W
|
45.00 J/TH
|
3.07
$
0.00002888
![]() |
-1.51
$
-0.00001423
![]() |
Bitcoin Cash
SHA-256
|
53TH/s
|
2385W
|
45.00 J/TH
|
3.14
$
0.00604198
![]() |
-1.44
$
-0.00277452
![]() |
Fractal Bitcoin
SHA-256
|
53TH/s
|
2385W
|
45.00 J/TH
|
3.14
$
6.76
![]() |
-1.44
$
-3.08939652
![]() |
Currency Converter

Rate is for reference only. Updated just now.
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More Information
The Bitmain Antminer S17 (53Th) features a highly optimized heat dissipation system, using parallel dual-fan cooling to maintain stable operation under prolonged workloads. This model employs second-generation 7nm BM1397 ASIC chips, enhancing energy efficiency compared to previous iterations. Its firmware includes a refined auto-tuning function, allowing miners to adjust performance dynamically for stability and better efficiency. Additionally, its power supply unit (APW9) supports voltage fluctuations, ensuring consistent hash rates even in variable electrical environments. The S17 also has reinforced PCB construction to reduce the risk of circuit degradation, extending its operational lifespan in demanding industrial mining conditions.
Algorithm Information: SHA-256
SHA256, part of the SHA-2 (Secure Hash Algorithm 2) family, is one of the most widely used cryptographic hash functions due to its strong security features. Its collision-resistance ensures that finding two different inputs that generate the same hash is computationally infeasible, making it an essential component for maintaining the integrity of data in cryptographic applications, particularly in blockchain technology. In Bitcoin mining, SHA256 serves as the proof-of-work (PoW) mechanism, where miners must solve complex cryptographic puzzles to validate new transactions and add blocks to the blockchain. This process involves miners repeatedly hashing block data with SHA256, modifying inputs until they find a hash that meets the required difficulty level, securing the network against attacks and preventing double-spending. The competitive nature of SHA256-based mining ensures that no single entity can easily control the network, contributing to Bitcoin's decentralized structure. Given its robust security and widespread adoption in the cryptocurrency space, SHA256 plays a crucial role in protecting the integrity of Bitcoin and other blockchain networks that employ it. Although SHA256 requires significant computational power, particularly with the rise of specialized ASIC miners, it remains an essential mechanism for ensuring the security and stability of cryptocurrencies. For miners, the use of SHA256 allows them to contribute to the network’s operation while being incentivized with block rewards. Miners can assess their profitability through our crypto miner profit calculator for SHA256, helping them optimize mining hardware and energy usage for maximum returns. Ultimately, SHA256’s reliability, security, and fundamental role in cryptocurrency mining make it a cornerstone of blockchain technology and a critical factor in digital currency systems.
Frequently Asked Questions



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