1070 Ti Mining Calculator

Estimate daily, monthly, and yearly mining profitability for the NVIDIA GeForce GTX 1070 Ti. Adjust hashrate, power draw, electricity cost, pool fee, coin selection, and the number of GPUs to model a realistic setup before you commit to tuning, overclocking, or scaling your rig.

Coin / Algorithm Profile

Selecting a profile auto-fills common GTX 1070 Ti baseline figures. You can still edit every field manually.

Number of GPUs

Hashrate per GPU

Use MH/s for ETC, RVN, ERG and Sol/s equivalent input for Flux based on the selected preset.

Power Draw per GPU (Watts)

Electricity Cost ($ per kWh)

Pool Fee (%)

Coin Price (USD)

Estimated Coin Yield per Unit per Day

This is the estimated coins earned per hashrate unit per day. Example: 0.0004 ETC per MH/s per day.

Other Daily Operating Costs ($)

Rig Overhead Power (Watts)

Optional motherboard, CPU, fan, and PSU overhead added once per rig, not per GPU.

Daily Revenue $0.00

Daily Electricity $0.00

Daily Net Profit $0.00

Monthly Net Profit $0.00

How to Use a 1070 Ti Mining Calculator the Right Way

A good 1070 Ti mining calculator does more than multiply hashrate by coin price. It helps you model the real business case behind a GTX 1070 Ti mining rig by combining hashrate, algorithm efficiency, electricity price, rig overhead, and pool fees into one practical profitability estimate. That matters because the 1070 Ti is an older but still capable GPU, and older cards are far more sensitive to electricity rates than newer, more efficient models.

The NVIDIA GeForce GTX 1070 Ti remains popular with hobby miners, repurposed gaming rigs, and budget-focused operators because it has 8 GB of VRAM, decent memory bandwidth, mature overclocking profiles, and a large used-market supply. Those strengths make it a flexible GPU for algorithms such as Etchash, KawPow, Autolykos, and ZelHash, depending on current network economics. However, profitability can swing sharply when network difficulty rises or when power costs move even a few cents per kWh. That is exactly why a calculator is essential.

What the calculator on this page measures

This 1070 Ti mining calculator estimates:

Daily gross mining revenue based on your hashrate, selected coin, coin price, and yield assumption
Daily electricity cost based on GPU wattage, number of cards, rig overhead, and your utility rate
Net daily, monthly, and yearly profitability after power and pool fees
Estimated coin output per day for planning wallet inflows and payout thresholds

The output is only as accurate as the inputs, so the smartest approach is to enter your own tuned hashrate and power figures from the exact 1070 Ti model you own. A factory-overclocked ASUS, EVGA, MSI, Gigabyte, or Zotac board can behave differently depending on memory vendor, cooling quality, undervolt headroom, and ambient temperature.

Key GTX 1070 Ti specifications that affect mining

Specification	GTX 1070 Ti Value	Why It Matters for Mining
GPU architecture	NVIDIA Pascal	Pascal cards are older but still tunable, stable, and widely supported in mining software.
CUDA cores	2,432	Core-heavy algorithms can benefit from the compute balance of the 1070 Ti.
Memory capacity	8 GB GDDR5	Enough VRAM for several modern and legacy mining algorithms still used today.
Memory bus	256-bit	Memory subsystem quality impacts memory-sensitive algorithms such as Etchash-derived workloads.
Memory bandwidth	256 GB/s	Bandwidth helps sustain better performance on memory-bound mining tasks.
Reference TDP	180 W	Stock power is high by modern standards, so undervolting is critical for profitability.

Typical tuned mining performance for a 1070 Ti

Real-world performance varies by silicon quality, thermal conditions, memory manufacturer, miner software, driver version, and overclock profile. Even so, the ranges below are commonly reported by miners using conservative, stable settings rather than unstable leaderboard numbers. These figures are useful as a starting benchmark when entering values into your calculator.

Coin / Algorithm	Typical Hashrate	Typical Tuned Power	Efficiency Notes
Ethereum Classic / Etchash	31 to 33 MH/s	120 to 140 W	Usually one of the better efficiency profiles for the card when memory is tuned well.
Ravencoin / KawPow	13 to 15 MH/s	145 to 165 W	More core-intensive and hotter to run, often reducing net profit at high power rates.
Ergo / Autolykos	60 to 75 MH/s	95 to 115 W	Historically attractive because of lower power draw and good efficiency on Pascal.
Flux / ZelHash	45 to 55 Sol/s	130 to 150 W	Can be viable depending on market conditions, but power cost remains decisive.

Why electricity cost matters more for the 1070 Ti than for newer GPUs

The biggest profitability trap with an older GPU is focusing on gross revenue instead of net profit. A GTX 1070 Ti can still mine, but its efficiency is no longer elite by current standards. If your power price is $0.06 per kWh, the card may remain viable on selected coins. If your rate is $0.18 per kWh or higher, that same setup may become unprofitable unless market conditions improve or you undervolt aggressively.

This is why the calculator includes both per-GPU wattage and a one-time rig overhead field. Many miners underestimate the power draw of the motherboard, CPU, SSD, risers, and case or rack fans. On a single-GPU system, that overhead can materially change profitability. On a six-card rig, it still matters, just less on a per-card basis.

A small change in power draw makes a measurable difference over time. Cutting 20 watts from a 1070 Ti saves 0.48 kWh per day. At $0.12 per kWh, that is about $0.058 per day, roughly $1.73 per month, and over $21 per year per GPU.

Inputs you should verify before trusting any profitability estimate

Hashrate: Use your stable average, not a peak screenshot.
Wall power: Measure actual wattage at the wall if possible, since software readings can underreport.
Electricity tariff: Include taxes, delivery charges, and time-of-use pricing if your utility applies them.
Pool fee: Most pools charge around 0.5% to 2.0%, which should be included in your estimate.
Coin yield assumption: This changes with network difficulty and block production, so update it regularly.
Coin price: A mining calculator is highly sensitive to the market price used.

How to interpret the results from a 1070 Ti mining calculator

When you click calculate, focus on four numbers: daily revenue, daily electricity cost, daily net profit, and monthly net profit. If daily net profit is only a few cents above break-even, you are operating with a very thin margin. In that situation, any of the following can erase profitability:

Coin price dropping 5% to 10%
Network difficulty rising as more miners join
Hot weather causing higher fan speed and power use
Lower effective hashrate from stale shares, thermal throttling, or unstable memory clocks

For older cards, a strong rule of thumb is to avoid overcommitting capital based on one profitable snapshot. Instead, run a sensitivity check. Try the same calculation at two or three different electricity rates and two or three different coin prices. If the rig is still acceptable across those scenarios, your forecast is much more robust.

Best practices for improving 1070 Ti mining profitability

Undervolt first, then overclock gradually. Reducing wasted power usually improves net profit more than chasing an extra fraction of hashrate.
Test multiple algorithms. The 1070 Ti can shift value depending on market rotations between ETC, RVN, ERG, and FLUX.
Keep memory temperatures and core temperatures under control. Thermal stability protects both uptime and resale value.
Use a quality PSU with sufficient headroom. Efficient power delivery reduces waste and improves system stability.
Track real payout history rather than relying solely on estimated pool dashboards.

Comparing the 1070 Ti to mining alternatives

The 1070 Ti sits in an interesting position. It often outperforms lower-end legacy GPUs while offering lower acquisition cost than newer cards. On the other hand, newer architectures generally deliver more performance per watt. If you already own a 1070 Ti, mining can still make sense under favorable power rates. If you are buying hardware purely for mining, the decision becomes more nuanced and depends heavily on purchase price, energy cost, and expected resale value.

When a 1070 Ti makes sense

You already own the card and want to monetize idle hardware
You have below-average electricity rates
You prefer lower upfront capital exposure
You are comfortable tuning older Pascal GPUs for efficiency

When it may not make sense

You must pay a premium for used hardware
Your electricity cost is high
You need best-in-class efficiency
You want a long future runway compared with newer GPUs

Step-by-step example using this calculator

Assume you have one GTX 1070 Ti mining Ethereum Classic at 32 MH/s, drawing 130 watts, with an additional 60 watts of system overhead, a pool fee of 1%, electricity at $0.12 per kWh, and a coin yield estimate of 0.0004 ETC per MH/s per day. If ETC is priced at $28, your gross daily revenue is:

32 × 0.0004 × 28 = $0.3584 gross per day before pool fee.

After a 1% pool fee, the effective gross becomes about $0.3548. Your total power use is 190 watts, or 4.56 kWh per day. At $0.12 per kWh, electricity costs about $0.5472 per day. In this example, the setup would be operating at a daily net loss before counting any additional expenses. That simple exercise shows how crucial it is to align coin choice, tuning, and local electricity price.

Common mistakes people make with a 1070 Ti mining calculator

Entering the card’s stock TDP instead of tuned power
Ignoring rig overhead on small builds
Using outdated profitability assumptions for a coin that has seen difficulty increase
Forgetting pool fees or exchange withdrawal fees
Assuming all 1070 Ti cards reach the same hashrate with the same memory overclock
Comparing gross revenue snapshots instead of net income after all costs

Authoritative data sources to improve your assumptions

For better estimates, verify your local electricity pricing and energy assumptions with primary sources. Helpful references include the U.S. Energy Information Administration’s electricity data at eia.gov, energy efficiency guidance from the U.S. Department of Energy, and cybersecurity best practices for connected devices and mining rigs from CISA. These are especially useful when you are evaluating operating cost, power budgeting, and the security of wallet-connected systems.

Final verdict: is the GTX 1070 Ti still worth mining with?

The honest answer is that the 1070 Ti can still be worth mining with, but only under the right conditions. It is no longer a set-and-forget profit machine. Instead, it is a card that rewards careful optimization. If you already own one, use a mining calculator regularly, track your actual power use, and be willing to switch algorithms when market conditions change. If you are considering buying one for mining, run scenarios using conservative assumptions and compare your breakeven point against a newer GPU with better efficiency.

Ultimately, the best 1070 Ti mining calculator is not the one that shows the biggest number. It is the one that gives you a realistic number. With accurate inputs, conservative assumptions, and a disciplined approach to cost control, you can make a much smarter decision about whether your GTX 1070 Ti should be mining, gaming, resold, or repurposed into another workload.