Innosilicon A10 Pro ETH (500Mh)
Innosilicon A10 Pro ETH (500Mh) vs Innosilicon A6 LTCMaster
Side-by-side specs, profitability, and home mining comparison.
Specifications Comparison
| Innosilicon A10 Pro ETH (500Mh) | Specification | Innosilicon A6 LTCMaster |
|---|---|---|
| 500.0 MH/s | Taux de hachage | 1.2 GH/s |
| 960 W | Consommation électrique | 1,500 W |
| 1,920,000.0 J/TH | Efficiency | 1,219,512.2 J/TH |
| — | Niveau de bruit | — |
| 8,100.0 kg | Weight | 7,550.0 kg |
| 3,276 BTU/hr | BTU Output | 5,118 BTU/hr |
| 31/100 | Home Mining Score | 34/100 |
| — | Release Year | — |
| EtHash | Algorithme | Scrypt |
| Innosilicon | Manufacturer | Innosilicon |
Profitability Comparison
Innosilicon A10 Pro ETH (500Mh)
Innosilicon A6 LTCMaster
Based on BTC price of $78,237 and current network difficulty as of May 16, 2026. Actual results vary.
Verdict
Our scoring model gives the nod to the Innosilicon A6 LTCMaster, which leads on 2 of 4 weighted factors (efficacité, score de minage domestique). Its biggest concrete edge: 146% more hashrate (0.0 vs 0.0 TH/s). That said, the Innosilicon A10 Pro ETH (500Mh) isn't beaten everywhere — it still wins consommation électrique and rapport qualité-prix. Review the detailed specs and profitability calculations above to determine which miner best fits your specific setup.
Spec Deltas
Here is every spec where the Innosilicon A10 Pro ETH (500Mh) and Innosilicon A6 LTCMaster actually differ, with the gap quantified:
- Innosilicon A6 LTCMaster 146% more hashrate (0.0 vs 0.0 TH/s)
- Innosilicon A10 Pro ETH (500Mh) 36% better power draw (960 vs 1,500 W)
- Innosilicon A6 LTCMaster 36% better efficacité (1,920,000 vs 1,219,512 J/TH)
- Innosilicon A6 LTCMaster 7% better weight (8,100 vs 7,550 kg)
- Innosilicon A6 LTCMaster 56% more heat output (3,276 vs 5,118 BTU/hr)
- Innosilicon A6 LTCMaster 10% more score de minage domestique (31.0 vs 34.0)
Cost & ROI Over Time
Sticker price versus what the miner actually earns back: the table below projects cumulative net profit at a $0.10/kWh electricity rate.
| Innosilicon A10 Pro ETH (500Mh) | Metric | Innosilicon A6 LTCMaster |
|---|---|---|
| $469 | Upfront cost (MSRP) | $1,299 |
| -$2.30 | Daily net profit | -$3.60 |
| -$1,310 | Net after 1 year | -$2,613 |
| -$2,151 | Net after 2 years | -$3,927 |
| -$2,992 | Net after 3 years | -$5,241 |
| Does not pay back at current rates (negative daily profit) | Payback period | Does not pay back at current rates (negative daily profit) |
Projections assume continuous operation, a flat $0.10/kWh rate, and no hardware degradation, pool fees, or BTC price change. Real-world ROI varies.
Best For...
Best for Profitability
TieBoth miners produce similar daily profit.
Best for Home Mining
Innosilicon A6 LTCMasterScore: 34/100. 0 dB noise level.
Best for Efficiency
Innosilicon A6 LTCMaster1,219,512.2 J/TH — lower electricity cost per terahash.
Frequently Asked Questions
Innosilicon A10 Pro ETH (500Mh) vs Innosilicon A6 LTCMaster: which one earns more per day?
At the current BTC price and a $0.10/kWh electricity rate, the Innosilicon A10 Pro ETH (500Mh) is more profitable at $-2.30/day compared to $-3.60/day for the Innosilicon A6 LTCMaster. Profitability depends heavily on your electricity rate — use the selector above to calculate with your actual costs.
Innosilicon A10 Pro ETH (500Mh) vs Innosilicon A6 LTCMaster: which runs at a lower noise level?
Both miners have similar noise levels. Check the specs table above for exact decibel readings.
For mining at home, should I pick the Innosilicon A10 Pro ETH (500Mh) or the Innosilicon A6 LTCMaster?
The Innosilicon A6 LTCMaster scores 34/100 on our Home Mining Score (vs 31/100 for the Innosilicon A10 Pro ETH (500Mh)). This composite score factors in noise, power requirements, heat output, size, and setup ease — all critical for residential mining.
How far apart are the Innosilicon A10 Pro ETH (500Mh) and Innosilicon A6 LTCMaster on J/TH?
The Innosilicon A10 Pro ETH (500Mh) runs at 1,920,000.0 J/TH while the Innosilicon A6 LTCMaster runs at 1,219,512.2 J/TH — a difference of 700,487.8 J/TH. Lower efficiency means less electricity per terahash of mining power, directly reducing operating costs. In relative terms that is 36% better efficacité (1,920,000 vs 1,219,512 J/TH).
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