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IceRiver AE3 (600MH) Profitability

Calculate the value of your AE3 (600MH) with our easy to use ASIC miner calculator!

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The IceRiver ALEO AE3 brings 600 Mh/s of pure zkSNARK mining capability to your operation, designed specifically for Aleo’s computational requirements. With only 1000W of power draw, it maintains a sleek 1.667 J/Mh efficiency—exceptional for modern proof systems.

Search for the AE3 (600MH) on millionminer (click here).

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⛏️ Income ⛏️
DAY	MONTH	YEAR
$4.74	$142.20	$1,730.10

⚡ Electricity Costs ⚡
DAY	MONTH	YEAR
$1.92	$57.60	$700.80

💰 Profit 💰
DAY	MONTH	YEAR
$2.82	$84.60	$1,029.30

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The IceRiver AE3 (600MH) is currently mining $2.82 profit a day. The calculations is based on $4.74 income per day from which we deducted $1.92 electricity costs. This means the AE3 (600MH) is able to generate up to $142.20 income per month. After you would deduct the electricity price of $57.60 you will have an estimated profit of $84.60 per month.

Hint: With our Hosting Plans you will only pay around 0.08 USD per kWh.

If the BTC price reaches $138294 you would earn estimated $5.19 per day.

More Information

Compact and efficient, the AE3 runs whisper-quiet at 45 dB and operates smoothly from 5–45°C with up to 95% humidity. With Ethernet connectivity and universal voltage input, it's tailored for next-gen Aleo miners who demand quiet, consistent performance.

Algorithm Information: zkSNARK

zkSNARK (Zero-Knowledge Succinct Non-Interactive Argument of Knowledge) is an advanced cryptographic proof system that allows data verification without exposing underlying information. This makes it essential for privacy-focused blockchain applications like Aleo, ensuring secure, confidential transactions. The algorithm relies on complex elliptic curve computations, demanding high-performance mining setups optimized for cryptographic workloads. Miners employ GPU and ASIC acceleration to enhance proof generation efficiency, reducing the time needed to compute and verify transactions. FPGA-based implementations also improve energy efficiency, enabling scalable zkSNARK mining. As adoption grows, further optimizations focus on parallelizing proof generation while minimizing memory bottlenecks.