Autolykos Calculator

Mining Profitability Tool

Estimate Autolykos mining output, energy cost, revenue, and net profit using your hashrate, power usage, ERG price, network hashrate, block reward, and pool fee. This calculator is designed for miners who want a practical view of daily and projected returns.

What an Autolykos calculator does and why miners use it

An autolykos calculator is a profitability tool used to estimate how much ERG a miner can expect to earn when mining on the Autolykos proof of work algorithm, along with the likely revenue, power cost, and net profit. In practical terms, it turns a handful of operating variables into a clear decision framework. If you know your hashrate, electricity rate, power draw, mining pool fee, the current ERG price, and a reasonable estimate for network hashrate and block reward, you can quickly model whether a rig is operating efficiently or simply burning power without producing acceptable returns.

That matters because mining economics change constantly. Token prices can move sharply in a single day. Network hashrate can climb as more miners join. Block rewards can evolve according to protocol rules. Electricity pricing can differ dramatically by country, state, provider, and even by time of day. A high quality autolykos calculator helps you separate headline excitement from actual operating numbers. It is useful for GPU miners, home hobbyists, mining farm operators, and anyone evaluating a used graphics card for Ergo mining.

Autolykos is commonly associated with Ergo, and miners often prefer it because they want an alternative proof of work ecosystem with different hardware behavior, memory requirements, and market dynamics than other algorithms. The core idea is simple: your share of the network hashrate determines your expected share of block rewards over time. The calculator on this page estimates that expected share, subtracts pool fees and electricity cost, and shows the resulting profit profile over a selected number of days.

How the calculator works

The engine behind an autolykos calculator is not complicated, but each input matters. First, the tool converts your hashrate and the network hashrate into the same unit. If your rig runs at 190 MH/s and the network runs at 15 TH/s, the calculator converts the network figure into MH/s so your share is mathematically consistent. It then computes your expected fraction of all blocks found by the network.

Core logic: expected ERG per day is roughly your share of network hashrate multiplied by the number of blocks found per day multiplied by the block reward, then adjusted for pool fees.

Once expected coin output is estimated, the calculator multiplies that figure by the ERG market price to produce gross revenue. It then estimates daily electricity cost with a standard energy calculation:

1. Convert watts to kilowatts by dividing by 1,000.
2. Multiply by 24 hours to estimate daily energy use.
3. Multiply by your local electricity price per kWh.

The difference between gross revenue and electricity cost is your daily net profit. If you enter a hardware cost, the calculator can also estimate a simple payback period, assuming conditions remain static. That last assumption is important because in real mining markets, conditions never remain static for long.

Inputs you should update frequently

• ERG price: revenue rises and falls directly with the token price.
• Network hashrate: more competition means a smaller share of rewards for your rig.
• Block reward: protocol level emissions affect expected coin output.
• Pool fee: this can vary between pools and affects realized returns.
• Electricity rate: many miners underestimate how strongly power pricing affects net margin.

Why electricity cost is often the deciding factor

For many miners, the biggest error is focusing only on coins mined while ignoring power economics. Mining may still produce ERG every day, but profit can disappear if the electricity rate is too high or if a GPU is not tuned for efficiency. A miner paying $0.07 per kWh and another miner paying $0.22 per kWh can run identical hardware and get very different business outcomes. That is why an autolykos calculator should always be treated as a revenue and expense tool, not just a coin output estimator.

If you want a better sense of how to calculate energy consumption and electric costs, the U.S. Department of Energy provides a straightforward guide on estimating electricity use at energy.gov. For broader context on electricity pricing, the U.S. Energy Information Administration maintains useful explanatory resources at eia.gov. And for readers who want a trustworthy explanation of cryptographic hashing concepts that underpin mining systems, NIST offers a practical overview at nist.gov.

Real world electricity statistics and what they imply for mining

The table below summarizes commonly cited U.S. electricity pricing by end use category based on annual averages reported by the U.S. Energy Information Administration for 2023. Residential rates are usually the most relevant for home miners. Industrial rates matter more for commercial scale operators with access to lower priced power contracts. The spread is large enough to determine whether the same rig is attractive or unprofitable.

U.S. End Use Sector	Average Retail Price in 2023	Mining Relevance
Residential	About 16.00 cents per kWh	Typical benchmark for home miners. Margins can be thin at this rate.
Commercial	About 12.47 cents per kWh	Better than residential, but still requires efficient rigs.
Industrial	About 8.26 cents per kWh	Much more favorable for scaling if uptime and cooling are managed well.
Transportation	About 12.73 cents per kWh	Less relevant for mining, but useful for energy market context.

Source context: annual U.S. average retail electricity price data published by the U.S. Energy Information Administration.

What do these figures mean in practice? If your rig draws 300 watts, daily consumption is 7.2 kWh. At 16 cents per kWh, that is about $1.15 per day in power. At 8.26 cents per kWh, the same rig costs about $0.59 per day to operate. That difference may look modest, but over a 30 day period it becomes substantial. In competitive mining markets, a few dozen cents per day can determine whether you should keep a card online, retune it, or shut it down.

Typical GPU performance on Autolykos

The next table lists common tuned benchmark ranges often discussed by miners for Autolykos workloads. These numbers are not protocol guarantees and should be treated as realistic field estimates rather than fixed specifications. Your actual results will depend on memory type, silicon quality, overclock settings, undervolting, driver version, miner software, ambient temperature, and power limit configuration.

GPU Model	Typical Autolykos Hashrate	Typical Power Draw	Efficiency
NVIDIA RTX 3060 Ti	125 to 135 MH/s	115 to 130 W	About 1.0 to 1.15 MH/W
NVIDIA RTX 3070	160 to 175 MH/s	125 to 140 W	About 1.2 to 1.3 MH/W
NVIDIA RTX 3080	220 to 250 MH/s	190 to 230 W	About 1.0 to 1.15 MH/W
AMD RX 6600 XT	58 to 65 MH/s	55 to 70 W	About 0.95 to 1.1 MH/W
AMD RX 6700 XT	85 to 100 MH/s	95 to 120 W	About 0.85 to 1.0 MH/W

How to interpret your result correctly

A common mistake is treating the daily result as guaranteed output. In reality, mining is probabilistic. Pool mining reduces variance because rewards are distributed more steadily than solo mining, but even pool earnings will deviate from the clean average used in a calculator. Think of the result as an expected value based on current assumptions, not a promise.

You should also understand that network hashrate is often a proxy input. Some miners prefer to use network difficulty directly if they can get reliable current data. Others use a recent estimate of total network hashrate and average block time. Both approaches are reasonable if the data is fresh. The quality of the output always depends on the quality of the input.

Best practices for better estimates

• Use your measured wall power, not software reported core power, whenever possible.
• Update ERG price and network hashrate before each calculation.
• Account for pool fees and any withdrawal or exchange costs.
• Benchmark the rig after tuning memory clocks, voltage, and fan settings.
• Revisit numbers during heat waves or seasonal changes because cooling overhead can rise.

Scenario analysis: what changes profitability fastest?

For most miners, three factors dominate: token price, network competition, and electricity rate. If ERG price increases while network hashrate remains stable, revenue improves immediately. If network hashrate rises sharply while price stays flat, your share of rewards shrinks and daily output declines. If your local electricity rate increases, net profit compresses even if coin output stays the same. A good autolykos calculator lets you test all three without rebuilding a spreadsheet every time.

Below is an illustrative sensitivity table for a 300 watt rig. These rows demonstrate how electricity cost alone can change the economics of the exact same mining setup.

Electricity Rate	Daily Energy Cost at 300 W	30 Day Energy Cost	Operational Impact
$0.06 per kWh	$0.43	$12.96	Usually favorable for efficient hardware.
$0.12 per kWh	$0.86	$25.92	Requires disciplined tuning and current market awareness.
$0.18 per kWh	$1.30	$38.88	Often marginal unless ERG price is strong or hardware is very efficient.
$0.24 per kWh	$1.73	$51.84	High risk of negative net profit in weak market conditions.

How miners improve Autolykos efficiency

Experienced miners rarely chase raw hashrate alone. They focus on the ratio of hashrate to watts. A lower power limit, moderate memory tuning, stable undervolt, and good airflow often deliver a better profitability profile than pushing a card to its thermal edge. Better efficiency reduces direct energy costs and may also reduce fan wear, thermal throttling, and hardware degradation over time.

1. Measure baseline hashrate and wall power before tuning.
2. Apply small, controlled memory adjustments.
3. Reduce core voltage or power limit carefully while testing stability.
4. Monitor rejected shares, temperature, and uptime.
5. Keep the best stable setting rather than the highest momentary hashrate.

Autolykos calculator limitations you should know

No calculator can fully predict future profitability. The output is a snapshot built from current conditions and assumptions. It does not know tomorrow’s ERG price, next week’s network hashrate, exchange slippage, hardware failure risk, or your cooling expense if you run multiple rigs in a hot room. It also does not account for taxes, accounting treatment, resale value, or the opportunity cost of holding mined coins instead of selling them immediately.

That said, a strong calculator is still one of the best decision tools available. It gives you a fast and consistent method for comparing hardware, testing electricity scenarios, projecting monthly output, and identifying when a rig is barely breaking even. For miners who manage several GPUs, the difference between guessing and calculating can be the difference between disciplined operation and slow hidden losses.

Final takeaway

An autolykos calculator is most useful when it is updated often and interpreted conservatively. Use it to estimate expected ERG mined, compare efficiency across GPUs, calculate true electricity cost, and understand the margin between gross revenue and net profit. If your result is strong only under optimistic token pricing or unrealistically low power assumptions, the setup may not be robust enough for sustained operation. If your result remains positive under conservative inputs, that is a much healthier signal.

The calculator above is designed to make those tradeoffs visible. Enter fresh numbers, test different market and power scenarios, and use the chart to see how revenue, cost, and profit evolve over your selected time horizon. That simple discipline is one of the most effective ways to mine more intelligently.