Cazkys
08-03-19, 12:08 PM
WEBSITE (https://dequant.online) | WHITEPAPER (https://dequant.online/tools/Whitepaper1.0.pdf) | ROADMAP (https://dequant.online/roadmap.html) | FACEBOOK (http://fb.me/DEQ.Dequant) | TWITTER (https://twitter.com/Dequant1) | DISCORD (https://discord.gg/39b7Mzg) | EXPLORER 1 (http://80.211.108.235:3001/) | EXPLORER 2 (http://217.61.106.213:3001/) | GITHUB (https://github.com/dequant-project/dequant) | WALLETS (https://github.com/dequant-project/dequant/releases)
COIN INFORMATION
TPYE: POS / MN
Coin name: DEQUANT
Coin Symbol: DEQ
Algo: Quark
Rewards: MN - 80%, PoS - 20%
MAX COIN SUPPLY: 40.000.000
Coin Lock: 20.000.000
MN REQUIRED COINS: 5000
Block Time: 90 Seconds
https://i.imgur.com/X8IjsNu.png (https://p2p-coins.pro/coins/deq/presale)
PRESALE Start 11.03.2019 (https://p2p-coins.pro/coins/deq/presale)
https://i.imgur.com/nMmXWGC.jpg (https://dequant.online)
The approach of DEQUANT is to solve this problem with a quantum computer to protect all Masterternodes.
https://i.imgur.com/Dot5vrA.png (https://dequant.online/tools/Whitepaper1.0.pdf)
https://dequant.online/img/pic1.png (https://dequant.online/)
Quantum offers us a powerful mechanism. There is still no Coin that protects your Masterternodes on Quantum level.
WEBSITE (https://dequant.online/)
WHITEPAPER (https://dequant.online/tools/Whitepaper1.0.pdf)
ROADMAP (https://dequant.online/roadmap.html)
FACEBOOK (http://fb.me/DEQ.Dequant)
TWITTER (https://twitter.com/Dequant1)
DISCORD (https://discord.gg/39b7Mzg)
EXPLORER 1 (http://80.211.108.235:3001/)
EXPLORER 2 (http://217.61.106.213:3001/)
GITHUB (https://github.com/dequant-project/dequant)
WALLETS (https://github.com/dequant-project/dequant/releases)
https://i.imgur.com/Fjwlz6o.png (https://dequant.online/roadmap.html)
https://i.imgur.com/IeJzLJW.png (https://github.com/dequant-project/dequant/releases)
https://i.imgur.com/yOF2FqH.png (https://dequant.online/roadmap.html)
The quantum computer has long been a predominantly theoretical concept. There are several suggestions on how a quantum computer could be realized and on a small scale, some of these concepts were tested in the laboratory and quantum computers with a few qubits were realized.
In addition to the number of qubits, however, it is also important, for example, to have a low error rate for calculating and reading, and for how long can the states in the qubits be maintained. Currently (2018), many large computer companies invest in the development of quantum computers and the record is around 50 to 70 qubits.
COIN INFORMATION
TPYE: POS / MN
Coin name: DEQUANT
Coin Symbol: DEQ
Algo: Quark
Rewards: MN - 80%, PoS - 20%
MAX COIN SUPPLY: 40.000.000
Coin Lock: 20.000.000
MN REQUIRED COINS: 5000
Block Time: 90 Seconds
https://i.imgur.com/X8IjsNu.png (https://p2p-coins.pro/coins/deq/presale)
PRESALE Start 11.03.2019 (https://p2p-coins.pro/coins/deq/presale)
https://i.imgur.com/nMmXWGC.jpg (https://dequant.online)
The approach of DEQUANT is to solve this problem with a quantum computer to protect all Masterternodes.
https://i.imgur.com/Dot5vrA.png (https://dequant.online/tools/Whitepaper1.0.pdf)
https://dequant.online/img/pic1.png (https://dequant.online/)
Quantum offers us a powerful mechanism. There is still no Coin that protects your Masterternodes on Quantum level.
WEBSITE (https://dequant.online/)
WHITEPAPER (https://dequant.online/tools/Whitepaper1.0.pdf)
ROADMAP (https://dequant.online/roadmap.html)
FACEBOOK (http://fb.me/DEQ.Dequant)
TWITTER (https://twitter.com/Dequant1)
DISCORD (https://discord.gg/39b7Mzg)
EXPLORER 1 (http://80.211.108.235:3001/)
EXPLORER 2 (http://217.61.106.213:3001/)
GITHUB (https://github.com/dequant-project/dequant)
WALLETS (https://github.com/dequant-project/dequant/releases)
https://i.imgur.com/Fjwlz6o.png (https://dequant.online/roadmap.html)
https://i.imgur.com/IeJzLJW.png (https://github.com/dequant-project/dequant/releases)
https://i.imgur.com/yOF2FqH.png (https://dequant.online/roadmap.html)
The quantum computer has long been a predominantly theoretical concept. There are several suggestions on how a quantum computer could be realized and on a small scale, some of these concepts were tested in the laboratory and quantum computers with a few qubits were realized.
In addition to the number of qubits, however, it is also important, for example, to have a low error rate for calculating and reading, and for how long can the states in the qubits be maintained. Currently (2018), many large computer companies invest in the development of quantum computers and the record is around 50 to 70 qubits.