Best X11 Miners for Quiet Mining 2026 — Ranked
Updated June 10, 2026 with live profitability data
Pairing the X11 algorithm with quiet mining is a deliberate trade-off, not a default. X11 is a chained hashing algorithm that runs 11 different hash functions sequentially (hence "X11"): blake, bmw, groestl, jh, keccak, skein, luffa, cubehash, shavite, simd, and echo. Created by Dash (DASH) founder Evan Duffield in 2014, X11 was designed to distribute the hashing workload across multiple functions, making ASICs harder to develop. While X11 ASICs eventually emerged, the multi-algorithm approach creates unique power and heat characteristics.
Quiet mining prioritizes acoustic stealth over maximum hashrate, targeting residential operation in shared spaces like apartments, home offices, and bedrooms. The quietest miners achieve 30-45 dB operation (library to quiet conversation levels) through fanless designs, oversized heatsinks, low-RPM cooling, and power-limited chips that sacrifice peak performance for heat reduction. Quiet mining proves Bitcoin isn't just for warehouse operations—it works in homes, too.
Before committing to X11 for quiet mining, weigh the algorithm's fixed traits against the realities of the use case. X11 mining appeals to Dash supporters who value instant transactions and privacy features, those seeking altcoin diversification with established ASIC markets, and miners interested in multi-algorithm approaches to proof-of-work.
At a Glance: X11 Miners for Quiet Mining
Our database has 25 X11 miners that qualify for quiet mining, scored on use-case-weighted criteria — the top pick scores 57.6/100. Efficiency across this set ranges from 0.3 to 225.0 J/TH, with the Baikal Miner Cube drawing the least power per terahash. If noise is your constraint, the Antminer D7 is the quietest option here at 70 dB. For raw output, the Bitmain Antminer D9 (1770Gh) leads at 1,770.0 GH/s.
Top X11 Miners for Quiet Mining
| Rank | Miner | Hashrate | Power | Efficiency | Noise | Score | |
|---|---|---|---|---|---|---|---|
| 1 | Baikal Mini Miner | 150.0 MH/s | 50W | 0.3 J/TH | — | 57.6/100 | View Details |
| 2 | Baikal Miner Cube | 300.0 MH/s | 90W | 0.3 J/TH | — | 57.2/100 | View Details |
| 3 | PinIdea DR-3 | 600.0 MH/s | 345W | 0.6 J/TH | — | 56.8/100 | View Details |
| 4 | Baikal Quadruple Mini Miner | 600.0 MH/s | 192W | 0.3 J/TH | — | 56.6/100 | View Details |
| 5 | FusionSilicon X7 Miner | 262.0 GH/s | 1,420W | 5.4 J/TH | — | 56.2/100 | View Details |
| 6 | Baikal Giant A900 | 900.0 MH/s | 270W | 0.3 J/TH | — | 56.2/100 | View Details |
| 7 | Bitmain Antminer D5 (119Gh) | 119.0 GH/s | 1,566W | 13.2 J/TH | — | 55.6/100 | View Details |
| 8 | StrongU STU-U6 | 440.0 GH/s | 2,200W | 5.0 J/TH | — | 55.2/100 | View Details |
| 9 | Bitmain Antminer D9 (1770Gh) | 1,770.0 GH/s | 2,839W | 1.6 J/TH | — | 54.4/100 | View Details |
| 10 | Innosilicon A5 DashMaster | 32.5 GH/s | 750W | 23.1 J/TH | — | 50.2/100 | View Details |
| 11 | iBeLink DM56G | 56.0 GH/s | 2,100W | 37.5 J/TH | — | 48.8/100 | View Details |
| 12 | Dayun Zig D1 | 48.0 GH/s | 2,200W | 45.8 J/TH | — | 46.0/100 | View Details |
| 13 | iBeLink DM22G | 22.0 GH/s | 810W | 36.8 J/TH | — | 43.8/100 | View Details |
| 14 | Baikal BK-G28 | 28.0 GH/s | 1,300W | 46.4 J/TH | — | 42.8/100 | View Details |
| 15 | PinIdea DR-100 Pro | 21.0 GH/s | 900W | 42.9 J/TH | — | 42.4/100 | View Details |
Score Methodology: Miners are ranked using a weighted algorithm that prioritizes noise levels (60%), home compatibility (20%), efficiency (10%), and hashrate (10%).
Why X11 for Quiet Mining?
Noise Profile: X11 miners operate at 60-72 dB. The moderate power density allows for balanced cooling solutions—not as aggressive as SHA-256 but louder than ultra-low-power algorithms.
Power Characteristics: X11 miners consume 600W-1,500W producing 3-70 GH/s. The sequential hashing creates efficiency ranges of 10-25 J/GH depending on chip optimization—some manufacturers excel at specific sub-algorithms within the X11 chain.
Heat Output: X11 ASICs generate 2,000-5,100 BTU/hr. The distributed computation across 11 algorithms creates more even heat dissipation compared to single-function ASICs, reducing hotspot formation.
Use Case Fit: Quiet miners sacrifice hashrate-per-dollar and sometimes efficiency for acoustic comfort. A 50 dB miner might cost $600 for 15 TH/s, while a 75 dB equivalent delivers 25 TH/s for the same price. The hashrate penalty is the "silence tax"—acceptable for residential mining, dealbreaker for profit-maximizers.
For quiet mining specifically, that means weighing these traits against the practical checklist: Quiet mining requires: (1) Acceptance of 40-60% hashrate reduction compared to loud equivalents, (2) Investment in acoustic enclosures or aftermarket cooling ($50-200 additional), (3) Moderate power targets (400W-1,200W) that don't overwhelm passive/quiet cooling, (4) Temperature monitoring to ensure quiet cooling remains adequate, and (5) Realistic expectations—silent 100 TH/s doesn't exist at consumer prices.
Need Help Choosing the Right X11 Miner?
Our mining experts can help you select the perfect hardware for your specific situation, electricity rates, and goals.
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Last reviewed 16 avril 2026.