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MicroBT WhatsMiner M56S WhatsMiner M56S-212T
WhatsMiner M56S profitability insights powered by real-time data: Discover how much your WhatsMiner M56S can earn using our advanced ASIC miner calculator. We use live mining reward data and automatically factor in electricity costs, giving you a clear overview of your potential daily, monthly, and yearly returns.
Profitability Analysis
Here you can see a detailed analysis of miner profitability, updated in real-time.
| Period | Income | Expense | Profit |
|---|---|---|---|
|
Daily
|
$9.58 | $10.66 |
$-1.08
|
|
Monthly
|
$287.28 | $319.68 |
$-32.40
|
|
Yearly
|
$3,495.24 | $3,889.44 |
$-394.20
|
About the MicroBT WhatsMiner M56S (212TH/s)
Learn more about this ASIC miner, including its specifications, performance, energy consumption, and profitability.
The MicroBT WhatsMiner M56S‑212T is a precision‑engineered ASIC for SHA‑256 mining that marries uncompromising raw power with pragmatic design: a sustained 212 TH/s hash rate at 5550 W yields roughly 26.18 J/TH, numbers that position it squarely for Bitcoin and SHA‑256 coins such as Bitcoin Cash and Bitcoin SV, while its advanced immersion cooling is not mere ornamentation but a fundamental performance multiplier-improving thermal efficiency, extending component longevity, suppressing hotspots and enabling remarkably stable operation even when deployed at high rack densities in large‑scale farms; with a modest acoustic footprint of about 45 dB and a rugged chassis built for continuous duty, the unit offers operators operational certainty, but that certainty is best realized through disciplined planning: model yields daily, monthly and annually and fold into those forecasts the sustained power draw, heat rejection capacity, site electrical infrastructure, cooling architecture and differing electricity tariffs as well as currency volatility and regulatory constraints, and complement deployment with careful choices in rack layout, PDU and breaker sizing, redundant supply and UPS strategy, network and remote‑management monitoring, routine maintenance and firmware hygiene, and mining‑pool selection and fee structures-only then will the M56S’s high efficiency and throughput translate into scalable, resilient mining operations that balance performance, lifecycle costs and environmental controls for informed, long‑term decisions.
Discover Which Coins This Miner Can Mine
Explore the cryptocurrencies that can be mined using MicroBT WhatsMiner M56S (212TH/s), including detailed profitability.
Currency Converter
Calculate the mineable coins to any currency.
| Coin | Income/Day | Profit/Day |
|---|---|---|
|
$8.95
$
0.00008813
|
$-1.70
$
-0.00001676
|
|
|
$8.90
$
0.00008795
|
$-1.75
$
-0.00001729
|
|
|
$8.74
$
0.01733382
|
$-1.92
$
-0.00381072
|
|
|
$9.58
$
23.88
|
$-1.08
$
-2.68510858
|
Historical Mining Performance
View the performance trends of MicroBT WhatsMiner M56S (212TH/s) over weekly, monthly, and yearly timeframes.
Historical Profitability
View the historical income and profit trends for this miner.
SHA-256 Miner Generations
Evolution of cryptocurrency mining hardware throughout the years, with the current generation highlighted for reference.
Generation 1
26 minersGeneration 2
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26 minersGeneration 5
26 minersGeneration 6
26 minersGeneration 7
27 minersGeneration 8
27 minersGeneration 1
26 minersGeneration 2
26 minersGeneration 3
26 minersGeneration 4
26 minersGeneration 5
26 minersGeneration 6
26 minersGeneration 7
27 minersGeneration 8
27 minersMore Information about the
Learn more about the MicroBT WhatsMiner M56S (212TH/s)
The MicroBT WhatsMiner M56S‑212T presents itself as a forensic instrument of SHA‑256 mining: a sustained 212 TH/s paired with a 5550 W draw yields an energy metric near 26.18 J/TH, technical facts that in any sober operational dossier place it among machines intended for serious, large‑scale Bitcoin and other SHA‑256 coin deployments; yet these numerics are only the opening statement in a ledger that must account for thermal sovereignty, electrical provisioning and environmental accountability-its advanced immersion cooling is not mere engineering bravura but an operational imperative that quells hotspots, extends silicon life, stabilizes hashrate under dense rack loading and opens the pragmatic opportunity to treat waste heat as a recoverable resource for local process heat or district systems rather than an unexamined externality; acoustically the unit registers at roughly 45 dB, easing siting constraints but not obviating obligations to model sound propagation, fire and electrical protection, PDU and breaker sizing, redundancy architecture and UPS strategy, all of which must be documented, stress‑tested and insured against single‑point failures; from a governance viewpoint firmware capabilities such as dynamic frequency scaling and throttling, secure remote management and update channels, telemetry for hash‑rate drift, voltage and temperature excursions, and a regime of predictive maintenance and spare‑parts logistics (hot‑swappable hashboards included) are non‑negotiable controls to sustain uptime and to avoid cascading failures that, unchecked, amplify both financial and environmental harm; economic assessments demand scenario planning that folds in energy consumption profiles, cooling losses, site PUE, various tariff structures and realistic downtime windows to project yield, while compliance dossiers must anticipate permitting, noise ordinances, emissions reporting and end‑of‑life recycling pathways to mitigate e‑waste and reputational risk; strategically, operators who intend to scale treat each M56S as a modular element in a larger system-centralized immersion zones, reversible heat‑recovery loops, integration with curtailed renewable generation, distributed battery buffering and clear remote‑access controls-so that performance, lifecycle costs and environmental footprint can be balanced and audited; finally, read without sentiment, the device forces a moral ledger: deployed with discipline and heat reuse it can be a cog in resilient, lower‑impact infrastructure, deployed without such discipline it contributes to a hinterland of thermal and electronic detritus-operators therefore must adopt rigorous planning, monitoring and end‑to‑end responsibility as part of any program that brings the raw hashing power of the M56S into the world.
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Technical Specifications
Detailed hardware specifications and mining capabilities for MicroBT WhatsMiner M56S WhatsMiner M56S-212T
Basic Information
Performance
Physical Dimensions
Mineable Cryptocurrencies
Algorithm Information: SHA-256
Learn more about the SHA-256 algorithm and how it works.
SHA-256 is a cryptographic hash function that serves as the backbone of Fractal Bitcoin proof-of-work consensus mechanism. This algorithm processes input data of any length and produces a fixed hash value, ensuring security and integrity in the mining process.
Crypto Mining Pools
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Frequently Asked Questions
Everything you need to know about the MicroBT WhatsMiner M56S WhatsMiner M56S-212T
How efficient is the MicroBT WhatsMiner M56S 212TH/s?
What are the electricity costs for the MicroBT WhatsMiner M56S 212TH/s (USD)?
How much power does the MicroBT WhatsMiner M56S 212TH/s use?
Who manufactures the WhatsMiner M56S?
What is the hashrate of the MicroBT WhatsMiner M56S?
Which cryptocurrencies can be mined with the MicroBT WhatsMiner M56S 212TH/s?
NiceHash (BTC)
Bitcoin (BTC)
Bitcoin Cash (BCH)
Fractal Bitcoin (FB)
