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●
Nvidia
·
GPU
Nvidia RTX 4060 Laptop GPU — AI Rental
Profit /day
RENTAL
1 offer
$-0.13
Income /day
RENTAL
1 offer
$0.15
128 CLORE/day
Cost $0.28 @ $0.1/kWh
RENTAL
$0.01/h
GPU marketplace
Power · Efficiency
115W
Nvidia RTX 4060 Laptop GPU loses $0.13 a day renting on AI GPU marketplaces at $0.01/h, pulling 115 W from the wall. That's after subtracting power at $0.10/kWh — not quite breaking even at today's rates.
Tap to switch · 6 sections AI Rental 2/6
Today's best income
AI Rental · $-0.13/day net
$
★ Winner
AI Rental
GPU marketplace
$-0.13
//Day net
Income $0.15 · 1 offer
See details →
⛏
Not available
Crypto Mining
Direct chain mining
No mineable algorithms with live coin price for this rig.
⇄
Not available
Market Hashrate
Sell raw hashpower
No active marketplace lists hashpower for this rig at consumer scale.
Profitability over time · best of rig
Daily projection
Daily winners across all income streams — averaged from your rig's recorded history at $0.1/kWh
Loading...
| Period | /Day | /Month |
|---|---|---|
| Income | $0.15 | $4.61 |
|
Cost
$0.1/kWh
|
$0.28 | $8.40 |
| Profit | $-0.13 | $-3.79 |
Internal consensus blend — derived from external sources, not a raw quote from any single market.
Similar rigs
More Nvidia miners
Profit vs cost
cost 186.67%
Full specifications
Nvidia RTX 4060 Laptop GPU
· Nvidia
Power draw
115 W
Best efficiency
—
Algos supported
0
Device type
GPU
Manufacturer
Nvidia
Cost / day
$0.28
at $0.1/kWh
LP Agent
Rental income over time
Net rental income history
Loading...
| Period | /Day | /Month |
|---|---|---|
| Income | $0.15 | $4.50 |
|
Cost
$0.1/kWh
|
$0.28 | $8.40 |
| Profit | $-0.13 | $-3.90 |
Internal consensus blend — derived from external sources, not a raw quote from any single market.
AI rental
Clore Ai
GPU marketplace
RTX 4060 Laptop GPU
· $0.008/h
· 1 offer
· 100% utilized
Income
$0.15
128 CLORE
Cost
−$0.28
fee −$0.03
Profit
$-0.13
| Provider | GPU | Income | Cost | Profit |
|---|---|---|---|---|
|
Clore Ai
GPU marketplace
|
RTX 4060 Laptop GPU
$0.008/h ·
1 offer
|
$0.15
128 CLORE/day
1 CLORE ≈ $0.00120
|
$0.28 |
$-0.13
★
Visit →
|
Revenue flow How Nvidia RTX 4060 Laptop GPU earns renting on the AI GPU marketplace how we got $-0.13/day · ▾
Gross rate
$0.18
$0.008/h × 24
128 CLORE/day
→
Platform fee
-$0.03
Clore Ai · ~15%
=
Host income
$0.15
Take-home after fee
Power cost
-$0.28
115 W · $0.1/kWh
=
Net profit
$-0.13
/Day
Uptime scenario
85%
$0.10/kWh
/Day
—
/Week
—
/Month
—
/Year
—
Break-even electricity
—
Rental marketplaces pay only while a renter is using the GPU. Real-world uptime for consumer hosts is typically 60–85%; enterprise hosts target 95%+.
Similar rigs · best AI rental
More Nvidia miners
Top provider today
Clore Ai
RTX 4060 Laptop GPU
Gross rate
$0.008/h
Active offers
1
Utilization
100%
Net / day
$-0.13
List your rig on Clore Ai →
Mining Profitability Simulator
No on-chain data for this rig's algorithm.
Profitability simulation needs a fresh chain snapshot (block reward, network hashrate). Once a chain adapter is available for this coin, this view will populate automatically.
Price vs Profitability
No live price data for this rig's coin.
This view needs a fresh price for the canonical coin. Once one is available it will populate automatically.
ROI calculator
ROI calculator for Nvidia RTX 4060 Laptop GPU
Model payback, electricity, and first-year return for this rig.
Hardware cost
$5,000
Electricity rate
$0.10/kWh
Runtime per day
24
Pool fee
2.0%
Difficulty growth /yr
+0%
Net profit /day
$0.00
after electricity & fees
Payback period
—
—
First-year return
$0
—
Projected cumulative profit
The line crosses $0 on the day you break even. Everything above is pure profit.
Monthly P&L · 3-year horizon
Capital cost is booked in month 1. Cumulative columns include the rig purchase, so Net goes positive at true breakeven.
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
Carbon footprint
Yearly emissions by energy source
Based on the rig's annual power draw and the carbon intensity of common grid mixes.
| Energy source | CO₂e / yr |
|---|---|
| Wind | 10.93 kg |
| Nuclear | 11.92 kg |
| Hydroelectric | 23.85 kg |
| Geothermal | 37.76 kg |
| Solar | 44.71 kg |
| Biofuels | 228.53 kg |
| Gas | 486.86 kg |
| Coal | 814.75 kg |
Estimates only — actual emissions vary by hardware, cooling, and grid mix.
What does that actually mean?
At the world-average grid intensity of about 475 g CO₂e/kWh, Nvidia RTX 4060 Laptop GPU running 24/7 for a year releases about 472 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
1,168 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
21 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
0.1 yrs
Equivalent to the yearly emissions of an average household's electricity.
Where you plug in matters
Electricity is not one thing. A kilowatt-hour from a coal plant carries roughly 820 g of CO₂; the same kilowatt-hour from a hydro reservoir carries about 24 g. That's a 34× difference — large enough that Nvidia RTX 4060 Laptop GPU's annual footprint swings from roughly 815 kg on coal-heavy grids down to about 24 kg on hydro-dominated grids. The single biggest lever a miner has on their carbon footprint is choosing where to plug in.
Regions commonly used for low-carbon crypto mining include Quebec and British Columbia (hydro-dominated, typically <50 g CO₂/kWh), Iceland and Norway (geothermal + hydro, often <30 g), Paraguay (Itaipú hydro), and parts of the US Pacific Northwest. Coal-heavy grids — Kazakhstan, Inner Mongolia, Poland, parts of Australia — sit at the opposite end, often above 700 g CO₂/kWh.
Some operators also reduce their net impact by using otherwise-wasted energy: flare gas at oil wells (burning methane that would be vented anyway), curtailed renewables (wind or solar that the grid can't absorb), or behind-the-meter hydro during off-peak hours. These arrangements can drop effective emissions below the local grid average because the energy would have been wasted or flared without the mining load.
How to reduce this rig's footprint
- Pick a greener ASIC. The efficiency column above matters as much as the grid: a 15 J/TH rig emits roughly half the CO₂ of a 30 J/TH rig for the same hashrate.
- Choose a low-carbon host. Data centres advertising hydro, geothermal, or nuclear power typically sit at <100 g CO₂/kWh.
- Look for stranded or curtailed energy. Flare-gas miners, wind-curtailment co-location, and off-peak hydro arrangements use energy that would otherwise be wasted.
- Use heat recovery. Capturing the heat for greenhouse agriculture, pool heating, or district warmth offsets fossil-fuel heating that would have been burned anyway.
- Time-shift your uptime. In grids with high daytime solar, running more during the day and less at night lowers your effective intensity even if you don't switch providers.
- Purchase verifiable offsets. Treat this as a last resort, not a substitute — and favour additional, permanent, third-party-verified projects (Gold Standard, Verra VCS).
Frequently asked questions
How do you calculate these numbers?
Yearly electricity use = rig power (W) × 24 × 365 ÷ 1000. We multiply that by each row's grid intensity in grams CO₂-equivalent per kWh and convert to kilograms. Intensities are representative averages — real emissions depend on your specific utility mix, time of day, and local transmission losses.
Is crypto mining bad for the environment?
It depends almost entirely on where the electricity comes from. A single rig plugged into hydro in Quebec emits less over a year than an average family's two cars in a month. The same rig on a coal-dominated grid can exceed that in a few days. The hardware is the same — the grid is what changes the answer.
What about the Bitcoin network as a whole?
Network-wide estimates vary by methodology; the Cambridge Centre for Alternative Finance's Bitcoin Electricity Consumption Index is the most widely cited reference. As of recent reporting, the network's sustainable-energy share has grown as more hashrate migrates to hydro, wind, solar, and stranded-gas sites. This page just estimates a single rig — for the big picture, CCAF's dashboard is the best source.
Do pool fees or mining difficulty affect the footprint?
Not directly. The rig draws the same wattage regardless of which pool it joins or how difficulty trends — so its electricity use, and therefore its emissions, stay constant. Those factors change revenue, not power consumption.
Tap to switch · 6 sections AI Rental 2/6
Today's best income
AI Rental · $-0.13/day net
$
★ Winner
AI Rental
GPU marketplace
$-0.13
//Day net
Income $0.15 · 1 offer
See details →
⛏
Not available
Crypto Mining
Direct chain mining
No mineable algorithms with live coin price for this rig.
⇄
Not available
Market Hashrate
Sell raw hashpower
No active marketplace lists hashpower for this rig at consumer scale.
Profitability over time · best of rig
Daily projection
Daily winners across all income streams — averaged from your rig's recorded history at $0.1/kWh
Loading...
| Period | /Day | /Month |
|---|---|---|
| Income | $0.15 | $4.61 |
|
Cost
$0.1/kWh
|
$0.28 | $8.40 |
| Profit | $-0.13 | $-3.79 |
Internal consensus blend — derived from external sources, not a raw quote from any single market.
Profit vs cost
cost 186.67%
Full specifications
Nvidia RTX 4060 Laptop GPU
· Nvidia
Power draw
115 W
Best efficiency
—
Algos supported
0
Device type
GPU
Manufacturer
Nvidia
Cost / day
$0.28
at $0.1/kWh
Similar rigs
More Nvidia miners
Rental income over time
Net rental income history
Loading...
| Period | /Day | /Month |
|---|---|---|
| Income | $0.15 | $4.50 |
|
Cost
$0.1/kWh
|
$0.28 | $8.40 |
| Profit | $-0.13 | $-3.90 |
Internal consensus blend — derived from external sources, not a raw quote from any single market.
AI rental
Clore Ai
GPU marketplace
RTX 4060 Laptop GPU
· $0.008/h
· 1 offer
· 100% utilized
Income
$0.15
128 CLORE
Cost
−$0.28
fee −$0.03
Profit
$-0.13
| Provider | GPU | Income | Cost | Profit |
|---|---|---|---|---|
|
Clore Ai
GPU marketplace
|
RTX 4060 Laptop GPU
$0.008/h ·
1 offer
|
$0.15
128 CLORE/day
1 CLORE ≈ $0.00120
|
$0.28 |
$-0.13
★
Visit →
|
Revenue flow How Nvidia RTX 4060 Laptop GPU earns renting on the AI GPU marketplace how we got $-0.13/day · ▾
Gross rate
$0.18
$0.008/h × 24
128 CLORE/day
→
Platform fee
-$0.03
Clore Ai · ~15%
=
Host income
$0.15
Take-home after fee
Power cost
-$0.28
115 W · $0.1/kWh
=
Net profit
$-0.13
/Day
Uptime scenario
85%
$0.10/kWh
/Day
—
/Week
—
/Month
—
/Year
—
Break-even electricity
—
Rental marketplaces pay only while a renter is using the GPU. Real-world uptime for consumer hosts is typically 60–85%; enterprise hosts target 95%+.
Similar rigs · best AI rental
More Nvidia miners
Top provider today
Clore Ai
RTX 4060 Laptop GPU
Gross rate
$0.008/h
Active offers
1
Utilization
100%
Net / day
$-0.13
List your rig on Clore Ai →
Mining Profitability Simulator
No on-chain data for this rig's algorithm.
Profitability simulation needs a fresh chain snapshot (block reward, network hashrate). Once a chain adapter is available for this coin, this view will populate automatically.
Price vs Profitability
No live price data for this rig's coin.
This view needs a fresh price for the canonical coin. Once one is available it will populate automatically.
ROI calculator
ROI calculator for Nvidia RTX 4060 Laptop GPU
Model payback, electricity, and first-year return for this rig.
Hardware cost
$5,000
Electricity rate
$0.10/kWh
Runtime per day
24
Pool fee
2.0%
Difficulty growth /yr
+0%
Net profit /day
$0.00
after electricity & fees
Payback period
—
—
First-year return
$0
—
Projected cumulative profit
The line crosses $0 on the day you break even. Everything above is pure profit.
Monthly P&L · 3-year horizon
Capital cost is booked in month 1. Cumulative columns include the rig purchase, so Net goes positive at true breakeven.
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
Carbon footprint
Yearly emissions by energy source
Based on the rig's annual power draw and the carbon intensity of common grid mixes.
| Energy source | CO₂e / yr |
|---|---|
| Wind | 10.93 kg |
| Nuclear | 11.92 kg |
| Hydroelectric | 23.85 kg |
| Geothermal | 37.76 kg |
| Solar | 44.71 kg |
| Biofuels | 228.53 kg |
| Gas | 486.86 kg |
| Coal | 814.75 kg |
Estimates only — actual emissions vary by hardware, cooling, and grid mix.
What does that actually mean?
At the world-average grid intensity of about 475 g CO₂e/kWh, Nvidia RTX 4060 Laptop GPU running 24/7 for a year releases about 472 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
1,168 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
21 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
0.1 yrs
Equivalent to the yearly emissions of an average household's electricity.
Where you plug in matters
Electricity is not one thing. A kilowatt-hour from a coal plant carries roughly 820 g of CO₂; the same kilowatt-hour from a hydro reservoir carries about 24 g. That's a 34× difference — large enough that Nvidia RTX 4060 Laptop GPU's annual footprint swings from roughly 815 kg on coal-heavy grids down to about 24 kg on hydro-dominated grids. The single biggest lever a miner has on their carbon footprint is choosing where to plug in.
Regions commonly used for low-carbon crypto mining include Quebec and British Columbia (hydro-dominated, typically <50 g CO₂/kWh), Iceland and Norway (geothermal + hydro, often <30 g), Paraguay (Itaipú hydro), and parts of the US Pacific Northwest. Coal-heavy grids — Kazakhstan, Inner Mongolia, Poland, parts of Australia — sit at the opposite end, often above 700 g CO₂/kWh.
Some operators also reduce their net impact by using otherwise-wasted energy: flare gas at oil wells (burning methane that would be vented anyway), curtailed renewables (wind or solar that the grid can't absorb), or behind-the-meter hydro during off-peak hours. These arrangements can drop effective emissions below the local grid average because the energy would have been wasted or flared without the mining load.
How to reduce this rig's footprint
- Pick a greener ASIC. The efficiency column above matters as much as the grid: a 15 J/TH rig emits roughly half the CO₂ of a 30 J/TH rig for the same hashrate.
- Choose a low-carbon host. Data centres advertising hydro, geothermal, or nuclear power typically sit at <100 g CO₂/kWh.
- Look for stranded or curtailed energy. Flare-gas miners, wind-curtailment co-location, and off-peak hydro arrangements use energy that would otherwise be wasted.
- Use heat recovery. Capturing the heat for greenhouse agriculture, pool heating, or district warmth offsets fossil-fuel heating that would have been burned anyway.
- Time-shift your uptime. In grids with high daytime solar, running more during the day and less at night lowers your effective intensity even if you don't switch providers.
- Purchase verifiable offsets. Treat this as a last resort, not a substitute — and favour additional, permanent, third-party-verified projects (Gold Standard, Verra VCS).
Frequently asked questions
How do you calculate these numbers?
Yearly electricity use = rig power (W) × 24 × 365 ÷ 1000. We multiply that by each row's grid intensity in grams CO₂-equivalent per kWh and convert to kilograms. Intensities are representative averages — real emissions depend on your specific utility mix, time of day, and local transmission losses.
Is crypto mining bad for the environment?
It depends almost entirely on where the electricity comes from. A single rig plugged into hydro in Quebec emits less over a year than an average family's two cars in a month. The same rig on a coal-dominated grid can exceed that in a few days. The hardware is the same — the grid is what changes the answer.
What about the Bitcoin network as a whole?
Network-wide estimates vary by methodology; the Cambridge Centre for Alternative Finance's Bitcoin Electricity Consumption Index is the most widely cited reference. As of recent reporting, the network's sustainable-energy share has grown as more hashrate migrates to hydro, wind, solar, and stranded-gas sites. This page just estimates a single rig — for the big picture, CCAF's dashboard is the best source.
Do pool fees or mining difficulty affect the footprint?
Not directly. The rig draws the same wattage regardless of which pool it joins or how difficulty trends — so its electricity use, and therefore its emissions, stay constant. Those factors change revenue, not power consumption.
Frequently asked
About the Nvidia RTX 4060 Laptop GPU
Can the Nvidia RTX 4060 Laptop GPU earn from AI rental?
Yes. The Nvidia RTX 4060 Laptop GPU rents for $0.15/day host take-home on AI GPU marketplaces (Vast.ai, RunPod, io.net) after the platform's fee. You install the marketplace's host agent and the card earns while it is running an AI renter's job.
Which AI rental marketplace pays the most for the Nvidia RTX 4060 Laptop GPU?
We track Vast.ai, RunPod, io.net and other AI compute marketplaces. The table above ranks them by daily host take-home for the Nvidia RTX 4060 Laptop GPU after platform fees. Best provider varies by GPU model — datacenter cards like H100/B200 usually clear higher on Vast.ai, while consumer cards often utilize better on RunPod.
How long until the Nvidia RTX 4060 Laptop GPU pays back via AI rental?
At $0.1/kWh and current host-net rates, the ROI calculator on this site projects payback months for the Nvidia RTX 4060 Laptop GPU. Real payback depends on AI demand cycles — utilization swings with the broader compute market, so plan around 30–80% utilization rather than 100%.