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●
Jasminer
·
ASIC
·
Etchash
·
RELEASED MAY 2023
Jasminer X16-Q
Profit /day
$3.10
Revenu /day
$4.59
0.13199 ETC/day
Coût $1.49 @ $0.1/kWh
Hashrate
1.93Gh/s
Etchash
Power · Efficiency
620.0W
0.32 j/Mh
Jasminer X16-Q rapporte jusqu'à $3.10 par jour, meilleur en vente de hashpower Ethash. Également disponible : minage Etchash à 1.93 Gh/s ($-0.30/jour). Consomme 620 W au mur — à $0.10/kWh, rentable aux tarifs actuels.
●
less than a minute ago
Similar miners ↓
Touchez pour changer · 7 sections Aperçu 1/7
Meilleur revenu du jour
Marché du hashrate · $3.10/day net
$
Non disponible
Location IA
Place de marché GPU
Les ASIC exécutent une seule fonction de hachage — ils ne peuvent pas faire tourner de charges IA. Seuls les GPU à usage général peuvent être loués pour l'IA.
⛏
Minage crypto
Direct chain mining
$-0.30
//Jour net
Income $1.19 · on Etchash
Voir les détails →
⇄
★ Gagnant
Marché du hashrate
Sell raw hashpower
$3.10
//Jour net
Income $4.59 · NH 24h · NH OB · MRR
Voir les détails →
Rentabilité dans le temps · le meilleur du rig
Projection quotidienne
Gagnants quotidiens parmi tous les flux de revenus — moyenne de l'historique enregistré du rig à $0.1/kWh
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $4.59 | $137.74 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $3.10 | $93.04 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Rigs similaires
More Jasminer miners
Profit vs coût
cost 125.21%
Spécifications complètes
Jasminer X16-Q
· Jasminer
· Etchash
Power draw
620 W
Hashrate
1.93Gh/s
on Etchash
Best efficiency
0.32 J/M
on Etchash
Algos supported
2
Device type
ASIC
Released
May 2023
Manufacturer
Jasminer
Cost / day
$1.49
at $0.1/kWh
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Autre chose à partager ? Le formulaire est ouvert ci-dessous.
Best mining algorithm · 2 supported · 2 with live coin price
Etchash · $-0.30/day net
Rentabilité dans le temps
Historique des paiements de minage
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $1.19 | $35.70 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $-0.30 | $-9.00 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Tous les algorithmes minables
2 algorithmes
| Algorithme | Net / jour |
|---|---|
|
ETC
Etchash
★ Meilleur
1.93 Gh/s · 620.0 W
|
$-0.30 |
|
ETH
Ethash
1.93 Gh/s · 620.0 W
|
$-1.49 |
Mineable coins
2 algos
View all coins →
| Coin | Algorithm | Revenu | Coût | Profit |
|---|---|---|---|---|
ETC
Ethereum Classic
|
Etchash
1.93Gh · 620.0W
|
$1.19 | $1.49 | $-0.30 |
|
—
|
Ethash
1.93Gh · 620.0W
|
— | $1.49 | — |
Où miner
Données en direct lorsque disponibles
Rigs similaires · meilleur minage
More Jasminer miners
Algorithme & coin du jour
Etchash
ETC · Ethereum Classic
Hashrate du réseau
173.44 TH/s
Votre part du réseau
0.001113%
Voir la page complète du coin →
Vendre le hashpower à la place ?
Marché du hashrate
$3.10
$3.40/jour mieux que le minage
Voir les détails →
Essayez votre propre hashrate
Gh/s
W
Income/d
$0.00
Cost/d
$0.00
Profit/d
$0.00
Rentabilité dans le temps
Historique des paiements hashmarket
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $4.59 | $137.74 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $3.10 | $93.04 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Marchés
| Marché | Meilleur net / jour | |
|---|---|---|
NiceHash
|
$3.10 | Visiter → |
★
Meilleur actuellement
NiceHash
· Ethash
· $3.10/day
NiceHash
· Ethash
· $3.10/day
Ethash
★ Winner
1 source · M-rated
Best net / day
$3.10
Visiter on NiceHash →
NH
NiceHash
★ best
0.00000003058 BTC/M/d
· seller 24h-weighted avg
Income
$4.59
Cost
−$1.49
Net
$3.10
★
Historique des prix — Ethash
724 points
Loading...
Etchash
1 source · M-rated
Best net / day
$-0.42
NH
NiceHash
★ best
0.00000000715 BTC/M/d
· seller 24h-weighted avg
Income
$1.07
Cost
−$1.49
Net
$-0.42
★
Historique des prix — Etchash
724 points
Loading...
Rigs similaires · meilleur marché hashrate
More Jasminer miners
Meilleur marché du jour
Marché
NiceHash
NiceHash
Algorithme
Ethash
Net / jour
$3.10
Prix BTC
$77,928
Visiter on NiceHash →
Miner directement à la place ?
Minage crypto
$-0.30
$3.40/jour moins que la vente de hashpower
Voir les détails →
Profitability Simulator · Ethereum Classic
Ethereum Classic network →
Network hashrate
173.44 TH/s
This rig
1.93 Gh/s
Network ≈
89,865 rigs
Your share · 1 rig
—
Scenario · add 1 of this rig
vs Ethereum Classic network: 173.44 TH/s
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
Profit vs quantity added
Adjust the Quantity slider to see how adding more of this rig affects earnings.
Open in Mining Profitability Simulator — compare against other rigs
Add up to 4 rigs, plug in your own electricity rate, and stress-test network dilution at farm scale.
Profit vs coût
cost 125.21%
Price vs Profitability · Ethereum Classic
Ethereum Classic price →
Ethereum Classic price (current)
$9.0500
Rev /day (today)
$1.19
Cost /day @ $0.1/kWh
$1.49
Break-even floor
—
—
-
%
+
%
Profit vs price
Price sensitivity
Center row is today's price. Rows above model higher prices, rows below model lower. The first row in red marks the break-even floor.
Open in Price vs Profitability — compare floors across multiple rigs
Stack up to 4 rigs against the same price curve and see which survives the deepest market.
Profit vs coût
cost 125.21%
Retour sur investissement
Retour sur investissement pour Jasminer X16-Q
Modélisez l'amortissement, l'électricité et le rendement de la première année pour cet équipement.
Prix d'achat
$5,000
Électricité
$0.10/kWh
Heures/jour
24
Frais de pool
2.0%
Croissance difficulté/an
+0%
Profit quotidien
$0.00
net d'électricité + frais
Retour
—
—
Profit 12 mois
$0
—
Projection cumulée
Coût matériel récupéré quand la ligne croise zéro.
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 |
|---|
Profit vs coût
cost 125.21%
Empreinte carbone
Émissions annuelles par source
Basé sur la consommation annuelle et l'intensité carbone.
| Source d'énergie | CO₂e / an |
|---|---|
| Wind | 58.92 kg |
| Nuclear | 64.28 kg |
| Hydroelectric | 128.56 kg |
| Geothermal | 203.56 kg |
| Solar | 241.06 kg |
| Biofuels | 1,232.06 kg |
| Gas | 2,624.83 kg |
| Coal | 4,392.58 kg |
Estimations seulement.
Qu'est-ce que cela veut dire ?
At the world-average grid intensity of about 475 g CO₂e/kWh, Jasminer X16-Q running 24/7 for a year releases about 2,544 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
6,297 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
115 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
0.6 yrs
Equivalent to the yearly emissions of an average household's electricity.
Où tu branches compte
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 Jasminer X16-Q's annual footprint swings from roughly 4,393 kg on coal-heavy grids down to about 129 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.
Comment réduire l'empreinte de ce miner
- 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).
Questions fréquentes
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.
Profit vs coût
cost 125.21%
Touchez pour changer · 7 sections Aperçu 1/7
Meilleur revenu du jour
Marché du hashrate · $3.10/day net
$
Non disponible
Location IA
Place de marché GPU
Les ASIC exécutent une seule fonction de hachage — ils ne peuvent pas faire tourner de charges IA. Seuls les GPU à usage général peuvent être loués pour l'IA.
⛏
Minage crypto
Direct chain mining
$-0.30
//Jour net
Income $1.19 · on Etchash
Voir les détails →
⇄
★ Gagnant
Marché du hashrate
Sell raw hashpower
$3.10
//Jour net
Income $4.59 · NH 24h · NH OB · MRR
Voir les détails →
Rentabilité dans le temps · le meilleur du rig
Projection quotidienne
Gagnants quotidiens parmi tous les flux de revenus — moyenne de l'historique enregistré du rig à $0.1/kWh
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $4.59 | $137.74 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $3.10 | $93.04 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Profit vs coût
cost 125.21%
Spécifications complètes
Jasminer X16-Q
· Jasminer
· Etchash
Power draw
620 W
Hashrate
1.93Gh/s
on Etchash
Best efficiency
0.32 J/M
on Etchash
Algos supported
2
Device type
ASIC
Released
May 2023
Manufacturer
Jasminer
Cost / day
$1.49
at $0.1/kWh
Rigs similaires
More Jasminer miners
Best mining algorithm · 2 supported · 2 with live coin price
Etchash · $-0.30/day net
Rentabilité dans le temps
Historique des paiements de minage
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $1.19 | $35.70 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $-0.30 | $-9.00 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Tous les algorithmes minables
2 algorithmes
| Algorithme | Net / jour |
|---|---|
|
ETC
Etchash
★ Meilleur
1.93 Gh/s · 620.0 W
|
$-0.30 |
|
ETH
Ethash
1.93 Gh/s · 620.0 W
|
$-1.49 |
Mineable coins
2 algos
View all coins →
| Coin | Algorithm | Revenu | Coût | Profit |
|---|---|---|---|---|
|
ETC
Ethereum Classic
|
Etchash
1.93Gh · 620.0W
|
$1.19 | $1.49 | $-0.30 |
|
—
|
Ethash
1.93Gh · 620.0W
|
— | $1.49 | — |
Où miner
Données en direct lorsque disponibles
Rigs similaires · meilleur minage
More Jasminer miners
Algorithme & coin du jour
Etchash
ETC · Ethereum Classic
Hashrate du réseau
173.44 TH/s
Votre part du réseau
0.001113%
Voir la page complète du coin →
Vendre le hashpower à la place ?
Marché du hashrate
$3.10
$3.40/jour mieux que le minage
Voir les détails →
Essayez votre propre hashrate
Gh/s
W
Income/d
$0.00
Cost/d
$0.00
Profit/d
$0.00
Rentabilité dans le temps
Historique des paiements hashmarket
Loading...
| Période | /Jour | /Mois |
|---|---|---|
| Revenu | $4.59 | $137.74 |
|
Coût
$0.1/kWh
|
$1.49 | $44.70 |
| Profit | $3.10 | $93.04 |
Mélange de consensus interne — dérivé de sources externes, pas un cours brut d'un seul marché.
Marchés
| Marché | Meilleur net / jour | |
|---|---|---|
|
NiceHash
|
$3.10 | Visiter → |
★
Meilleur actuellement
NiceHash
· Ethash
· $3.10/day
NiceHash
· Ethash
· $3.10/day
Ethash
★ Winner
1 source · M-rated
Best net / day
$3.10
Visiter on NiceHash →
NH
NiceHash
★ best
0.00000003058 BTC/M/d
· seller 24h-weighted avg
Income
$4.59
Cost
−$1.49
Net
$3.10
★
Historique des prix — Ethash
724 points
Loading...
Etchash
1 source · M-rated
Best net / day
$-0.42
NH
NiceHash
★ best
0.00000000715 BTC/M/d
· seller 24h-weighted avg
Income
$1.07
Cost
−$1.49
Net
$-0.42
★
Historique des prix — Etchash
724 points
Loading...
Rigs similaires · meilleur marché hashrate
More Jasminer miners
Meilleur marché du jour
Marché
NiceHash
NiceHash
Algorithme
Ethash
Net / jour
$3.10
Prix BTC
$77,928
Visiter on NiceHash →
Miner directement à la place ?
Minage crypto
$-0.30
$3.40/jour moins que la vente de hashpower
Voir les détails →
Profitability Simulator · Ethereum Classic
Ethereum Classic network →
Network hashrate
173.44 TH/s
This rig
1.93 Gh/s
Network ≈
89,865 rigs
Your share · 1 rig
—
Scenario · add 1 of this rig
vs Ethereum Classic network: 173.44 TH/s
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
Profit vs quantity added
Adjust the Quantity slider to see how adding more of this rig affects earnings.
Open in Mining Profitability Simulator — compare against other rigs
Add up to 4 rigs, plug in your own electricity rate, and stress-test network dilution at farm scale.
Price vs Profitability · Ethereum Classic
Ethereum Classic price →
Ethereum Classic price (current)
$9.0500
Rev /day (today)
$1.19
Cost /day @ $0.1/kWh
$1.49
Break-even floor
—
—
-
%
+
%
Profit vs price
Price sensitivity
Center row is today's price. Rows above model higher prices, rows below model lower. The first row in red marks the break-even floor.
Open in Price vs Profitability — compare floors across multiple rigs
Stack up to 4 rigs against the same price curve and see which survives the deepest market.
Retour sur investissement
Retour sur investissement pour Jasminer X16-Q
Modélisez l'amortissement, l'électricité et le rendement de la première année pour cet équipement.
Prix d'achat
$5,000
Électricité
$0.10/kWh
Heures/jour
24
Frais de pool
2.0%
Croissance difficulté/an
+0%
Profit quotidien
$0.00
net d'électricité + frais
Retour
—
—
Profit 12 mois
$0
—
Projection cumulée
Coût matériel récupéré quand la ligne croise zéro.
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 |
|---|
Empreinte carbone
Émissions annuelles par source
Basé sur la consommation annuelle et l'intensité carbone.
| Source d'énergie | CO₂e / an |
|---|---|
| Wind | 58.92 kg |
| Nuclear | 64.28 kg |
| Hydroelectric | 128.56 kg |
| Geothermal | 203.56 kg |
| Solar | 241.06 kg |
| Biofuels | 1,232.06 kg |
| Gas | 2,624.83 kg |
| Coal | 4,392.58 kg |
Estimations seulement.
Qu'est-ce que cela veut dire ?
At the world-average grid intensity of about 475 g CO₂e/kWh, Jasminer X16-Q running 24/7 for a year releases about 2,544 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
6,297 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
115 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
0.6 yrs
Equivalent to the yearly emissions of an average household's electricity.
Où tu branches compte
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 Jasminer X16-Q's annual footprint swings from roughly 4,393 kg on coal-heavy grids down to about 129 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.
Comment réduire l'empreinte de ce miner
- 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).
Questions fréquentes
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.
Questions fréquentes
À propos du Jasminer X16-Q
Le Jasminer X16-Q est-il rentable ?
Au May 2026, le Jasminer X16-Q génère $-0.30/jour en minant Etchash à un coût électrique de $0.1/kWh. À ce tarif électrique, ce n'est pas rentable.
Combien d'électricité consomme le Jasminer X16-Q ?
Le Jasminer X16-Q consomme 620W. À $0.1/kWh, cela coûte environ $1.49/jour en électricité.
Le Jasminer X16-Q peut-il gagner avec la location IA ?
Non. Le Jasminer X16-Q est un ASIC de minage — pas de cœurs de calcul polyvalents, pas de charges IA possibles. La location IA est exclusivement GPU.
Quels algorithmes crypto le Jasminer X16-Q peut-il miner ?
Le Jasminer X16-Q peut miner 2 algorithme(s) ; Etchash est le plus rentable, générant $1.19/jour en minage direct avant électricité. Approche traditionnelle — pointer la machine sur un pool et recevoir les paiements dans la coin native.
Le Jasminer X16-Q peut-il vendre son hashrate sur NiceHash ?
Oui. NiceHash et autres marchés d'hashrate (Mining Rig Rentals, etc.) permettent au Jasminer X16-Q de vendre directement sa puissance Etchash — les acheteurs louent le calcul, tu reçois des BTC par hash délivré. Similaire au minage, mais supprime le risque prix-coin puisque tu es payé en BTC au taux NiceHash.