JP2021093581A - Mining system and method for mining of cryptocurrency and method for providing reward - Google Patents

Abstract

To provide a mining system which is environmentally friendly enough to attain a low power, a low noise, and a low heat generation and is also efficient.SOLUTION: The problem is solved by a mining system of a cryptocurrency that includes means for preparing (1) coded data for mining and storing the data in a storage medium. The mining system for a cryptocurrency according to the present invention preferably includes: (2) means for acquiring mining information from a wallet; (3) means for searching the coded data for a target by the mining information acquired from the wallet; and (4) means for calculating a deadline time from the target and providing the deadline time to the wallet.SELECTED DRAWING: None

Description

The present invention relates to a cryptocurrency mining system, a mining method, and a reward granting method. According to the present invention, mining can be performed with very low power consumption as compared with conventional mining of Bitcoin and the like.

Cryptocurrency mining is an important system for establishing a blockchain in cryptocurrencies. In the blockchain, falsification of transaction information can be prevented by introducing technologies such as encryption and digital signatures for information related to transactions.

For example, in Bitcoin, the consensus algorithm PoW (Proof of Work) is used for mining. For example, mining is performed using GPU, and dedicated hardware equipped with ASIC (Application Specific Integrated Circuit) is used. The mining using is performed (Patent Document 1).
However, in this PoW mining method, each time each block of the block chain is generated, advanced and high-speed calculation using GPU or ASIC is required, and there are problems such as power consumption, noise, and heat generation. For example, in Bitcoin's PoW, the power consumption by mining is said to reach 60 TWh or more per year, which is the annual power consumption level of Switzerland and Austria. That is, 0.25% of the world's total electricity consumption is used for Bitcoin mining. Such extremely large power consumption causes environmental problems due to the increase in carbon dioxide. In addition, the financial burden was heavy.

Japanese Unexamined Patent Publication No. 2019-106612

Therefore, an object of the present invention is to provide an environment-friendly and efficient mining system such as low power, low noise, and low calorific value.

As a result of diligent research on an environment-friendly and efficient mining system, the present inventor surprisingly creates encrypted data for mining in advance and stores it in a storage medium, which puts a load on the environment. It was found that efficient mining can be carried out without any problems.
The present invention is based on these findings.
Therefore, the present invention
[1] (1) A cryptocurrency mining system that includes means for creating cryptographic data for mining and storing it in a storage medium.
[2] (2) means for acquiring mining information from the wallet, (3) means for searching the target from the cryptographic data based on the mining information acquired from the wallet, and (4) calculating the deadline time from the target. Cryptocurrency mining system according to [1], further including means provided to the wallet.
[3] (5) The cryptocurrency mining system according to [2], which further includes a means for receiving a reward when the deadline is the lowest.
[4] The cryptocurrency mining system according to any one of [1] to [3], wherein the cryptographic data is a plot file.
[5] The cryptocurrency mining system according to any one of [2] to [4], wherein the mining information is block information.
[6] (1) Cryptocurrency mining method including the steps of creating cryptographic data for mining and storing it in a storage medium.
[7] (2) The process of acquiring mining information from the wallet, (3) The process of searching for a target from the stored cryptographic data based on the mining information acquired from the wallet, and (4) Calculate the deadline time from the target. And the process of providing to the wallet, including cryptocurrency mining methods,
[8] (5) The cryptocurrency mining method according to [7], which further includes a process of receiving a reward when the deadline is the lowest.
[9] The method for mining a cryptocurrency according to any one of [6] to [8], wherein the crypto data is a plot file.
[10] The method for mining a cryptocurrency according to any one of [7] to [9], wherein the mining information is block information.
[11] (6) Cryptocurrency mining according to any one of [6] to [10], further comprising a process of adding crypto data for creating additional mining crypto data and storing it in a storage medium. Method,
[12] (1) The wallet prepares the mining information requested by the miner, (2) transmits the mining information to the miner, (3) the wallet receives the deadline time from the miner, and ( 4) A method of giving a reward for cryptocurrency including a step of giving a reward to a miner who submitted the lowest deadline after the lowest deadline has elapsed, and [13] the mining information is block information, [12] ], How to give cryptocurrency rewards,
Regarding.

According to the cryptocurrency mining system of the present invention, since the cryptographic data for mining is created in advance and stored in the storage medium, it is not necessary to use dedicated hardware such as an ASIC (Application Specific Integrated Circuit), which is low. Power, low noise, and low calorific value mining can be performed. That is, it is possible to carry out mining with less load on the environment. In addition, since encrypted data created in advance can be used, more efficient mining can be performed as compared with mining such as Bitcoin, which calculates data each time a block is generated. Further, since encrypted data can be added, efficient mining can be performed from this point as well.
Further, since a general-purpose hard disk (HDD) or the like can be used as the storage medium, a large investment in dedicated hardware is not required. Further, when mining is not performed, a general-purpose storage medium can be used for other purposes, which is efficient.

It is a figure which showed one Embodiment of the mining system of this invention. It is a figure which showed one Embodiment of the mining method of this invention. It is a figure which showed the network which consists of a wallet and a miner.

[1] Cryptocurrency Mining System The cryptocurrency mining system of the present invention includes (1) means for creating cryptographic data for mining and storing it in a storage medium. The cryptocurrency mining system of the present invention preferably includes (2) means for acquiring mining information from the wallet, (3) means for searching for a target from cryptographic data based on the mining information acquired from the wallet, and (4) the above. It further includes means of calculating the deadline time from the target and providing it to the wallet. The cryptocurrency mining system of the present invention more preferably (5) further includes means of receiving a reward when the deadline is the lowest.
In the present specification, "cryptocurrency" means "cryptocurrency", "cryptocurrency", "virtual currency" and the like.

(1) Creation / preservation means In the creation / preservation means, encrypted data for mining is created and stored in a storage medium. Mining is the process by which the blockchain authenticates and protects transactions on the network. In the present invention, encrypted data for mining that can be used for block authentication is created and stored in advance. By creating and saving the encrypted data in advance, it is not necessary to perform a huge amount of calculation for each block of the blockchain. Therefore, energy efficiency such as electric power can be reduced to 1/400 as compared with PoW such as Bitcoin.

《Cryptographic data》
The cryptographic data for mining cryptocurrencies is not particularly limited, and examples thereof include plot files.
The plot file contains one or more data groups, for example referred to as nonces, and one nonce contains, for example, 8192 hashes. Usually, a hash is composed of pairs, and the pair of hashes is called a scoop. The scoop is assigned a number from 0 to 4095. The nonce has its own number, and this numerical range is 0 to 184467444073709551615.

"How to make"
The method of creating the encrypted data for mining is not particularly limited as long as the plot file or the like can be created. For example, a nonce including the hash and a creation means (software or the like) capable of creating a plot file including the nonce can be mentioned.

The created plot file is associated with a specific account ID. This account ID varies from miner to miner. Therefore, it can be seen that even if the nonce numbers are the same, they are different minors. The combination of this nonce number and account ID is called a seed.

The storage medium for storing the encrypted data is not particularly limited as long as the encrypted data of the cryptocurrency can be stored, and examples thereof include a hard disk drive, SSD, and SSHD.

(2) Mining information acquisition means In the mining information acquisition means, a miner acquires mining information from a wallet.

《Wallet》
The wallet is not particularly limited as long as it can provide mining information to the miner, and examples thereof include a pool wallet and a local wallet. The miner accesses the pool wallet and requests mining information, or accesses the local wallet and requests mining information. The local wallet is in an online state connected to the Internet.
Mining performed by accessing the pool wallet is called pool mining. Pool mining is basically a method in which a plurality of miners participate and the rewards won by the participants are distributed among the participating miners.
On the other hand, mining performed by accessing the local wallet is called solo mining. In the case of solo mining, all rewards are obtained by a single miner.
Both the miner accessing the pool wallet and the miner accessing the local wallet share mining information on the network.

<< Mining information >>
The mining information is specifically newly generated block information. This block information is not particularly limited, and examples thereof include a generation signature (new generation signature) of the block to be generated next, a base target, and a block height.
For example, the wallet gets the signature of the previous block with the previous block generator, creates the next block signature, runs this on Shabal256, and makes a new one, before sending the block information to the miner. Get the hash. The miner gets the next block signature of 32 bytes and the block height of 8 bytes and puts them together as a seed of Shabal256. The result is a hash value called a generation hash.
Also, the base target is calculated from the last 24 blocks. The base target adjusts the difficulty of the miner, and the lower the base target, the harder it is for the miner to find the deadline. It is adjusted so that it takes a certain amount of time to generate blocks of cryptocurrency.

(3) Target search means The target search means searches for a target from encrypted data using mining information acquired from the wallet.
For example, using the new generation signature and block height, a hash function is calculated to create a generation hash for the next block. The generation hash is calculated by modulo 4096 to get the scoop number. The scoop number is used to read all scoops from all nonces in all plot files. All nonces are executed individually by the hash function, using the new generation signature and scoop. As a result, a hash value called a target is searched for from all encrypted data.

(4) Deadline time providing means The deadline time providing means calculates the deadline time from the target and provides it to the wallet. The deadline time can be obtained, for example, by dividing the obtained target by the base target. The deadline is the first 8 bytes of the obtained numerical value.
The deadline time providing means transmits the obtained deadline time to the wallet. Specifically, along with the deadline time, a nonce number including a numerical account ID associated with the plot file and scoop data used to generate the deadline time is transmitted.
In the case of solo mining, the miner also sends the passphrase of the account ID used in the plot file. If the passphrase is not sent during solo mining, the wallet will not be able to authenticate the block for that account. In the case of pool mining, the passphrase of the pool account ID is used.

(5) Reward receiving means The reward receiving means receives a reward from the wallet when the deadline provided to the wallet is the shortest. That is, the miner who submits the lowest deadline can receive the reward. The reward is not particularly limited, but is, for example, a cryptographic asset cryptocurrency or a virtual currency.

<< Configuration of mining system >>
The configuration of the mining system is not particularly limited, and includes, for example, a computer connected to a network and a storage medium for storing encrypted data. Although not limited, FIG. 1 shows one embodiment of a mining system.
As shown in FIG. 1, for example, the mining system of the present invention may have a plurality of HDDs connected to a personal computer (PC) via a plurality of HUBs. The capacity and number of HDDs are not limited, and the larger the capacity and the larger the number, the more encrypted data can be created and stored, which is advantageous for mining. As the HDD, an external HDD may be used, or a built-in HDD may be used here. Further, instead of the HDD, a storage medium such as SSD or SSHD can be used. As shown in FIG. 1, the mining system of the present invention is connected to a network and can mine cryptocurrencies as a miner.

《Action》
In the mining system of the present invention, the PoW method for calculating the hash value is not used for each block production, but from the encrypted data created in advance (for example, a plot file containing a nonce including a scoop consisting of a pair of hash values). , The method of searching the hash value is used. Therefore, as compared with the PoW method, mining with low power consumption, low noise, and low calorific value can be performed, and the system is excellent in energy efficiency. Further, since a hard disk drive can be used as a storage medium for storing encrypted data, for example, compared with dedicated hardware such as ASIC, a large investment is not required, many miners can participate, and it is relatively equal. Mining is carried out.

[2] Cryptocurrency Mining Method The cryptocurrency mining method of the present invention includes (1) a step of creating cryptographic data for mining and storing it in a storage medium.
As one embodiment of the cryptocurrency mining method of the present invention, a target is searched from the stored cryptographic data by (2) a step of acquiring mining information from the wallet and (3) mining information acquired from the wallet. It includes (4) a step of calculating a deadline time from the target and providing it to the wallet. In addition, one embodiment of the cryptocurrency mining method of the present invention preferably further includes (5) a step of receiving a reward when the deadline is the shortest. In addition, one embodiment of the cryptocurrency mining method of the present invention preferably further includes (6) a cryptographic data addition step of creating additional cryptographic data for mining and storing it in a storage medium.
That is, the cryptocurrency mining method of the present invention may be carried out, for example, with (2) a mining information acquisition step, (3) a target search step, and (4) a deadline time providing step as one embodiment. Further, after these steps (2) to (4), (5) reward receiving step may be continuously carried out. Further, the (1) encrypted data creation / saving step may be continuously performed before the steps (2) to (4), and the (1) encrypted data creation / saving step may be performed before the steps (2) to (5). May be carried out continuously. Further, (6) the encryption data addition step may be carried out simultaneously with the combination of the plurality of steps described above, or may be carried out separately.

(1) Cryptographic data creation and storage process In the encryption data creation and storage process, encrypted data for mining is created and stored in a storage medium. In the cryptocurrency mining method of the present invention, "cryptocurrency data for mining", "cryptocurrency data", "creation method", "storage medium" and the like are described in the section "[1] Cryptocurrency mining system". Same as described.

(2) Mining information acquisition process In the mining information acquisition process, mining information is acquired from the wallet. The "wallet", "mining information", and the like in the cryptocurrency mining method of the present invention are the same as those described in the section "[1] Cryptocurrency mining system".

(3) Target search process In the target search process, the target is searched from the stored encrypted data by the mining information acquired from the wallet. The “target” and the like in the cryptocurrency mining method of the present invention are the same as those described in the above-mentioned “[1] Cryptocurrency mining system”.

(4) Deadline time providing step In the deadline time providing step, the deadline time is calculated from the target and provided to the wallet. The "deadline time" and the like in the cryptocurrency mining method of the present invention are the same as those described in the section "[1] Cryptocurrency mining system".

(5) Reward receiving process In the reward receiving process, the reward is received when the deadline is the shortest. The "reward" and the like in the cryptocurrency mining method of the present invention are the same as those described in the section "[1] Cryptocurrency mining system".

(6) Cryptographic data addition step In the cryptographic data addition step, additional cryptographic data for mining is created and stored in a storage medium. Specifically, a plot file is created and saved as encrypted data. The plot file contains one or more data groups, for example referred to as nonces, and one nonce contains, for example, 8192 hashes. Usually, a hash is composed of pairs, and the pair of hashes is called a scoop. The method of creating encrypted data for mining is not particularly limited, but for example, a creation means (software or the like) capable of creating a nonce including the hash and a plot file including the nonce can be used. The created plot file is associated with a specific account ID. This account ID varies from miner to miner. Therefore, it can be seen that even if the nonce numbers are the same, they are different minors. The combination of this nonce number and account ID is called a seed.
Since the encrypted data is stored in a storage medium, for example, a hard disk drive, the amount of encrypted data used for mining can be increased by increasing the number of hard disk drives. Since adding encrypted data and mining are separate tasks, they can be performed at the same time or separately.

One embodiment of the cryptocurrency mining method of the present invention will be described with reference to FIG.
First, the hard disk (HDD) is connected to the computer (PC), and the plot creation software is started. Select the CPU or GPU, and select the amount of memory used.
Then, the encrypted data is created and saved by "starting plot creation" and "completion of plot creation". Register the obtained HDD in the mining software. Next, for example, link the address of the pool wallet with your passphrase and register it in the pool. This process may be to link the address of the local wallet with your passphrase and register it in the local wallet. Next, start the mining software and start mining. First, the mining information is acquired from the pool wallet. Examples of mining information include a generation signature (new generation signature), a base target, and a block height. Next, the target is searched from the encrypted data by the mining information acquired from the wallet. Specifically, the hash function is calculated using the new generation signature and the block height, and the generation hash of the next block is created. The generation hash is calculated by modulo 4096 to get the scoop number. For all nonces, perform a search using the new generation signature and scoop to get the target (hash value). Next, for example, the obtained target is divided by the base target to calculate the deadline time and sent to the wallet. Wait for the deadline you submitted. The miner who submits the lowest deadline wins the block. This will give you a block reward.

[3] Cryptocurrency Reward Granting Method The cryptocurrency reward granting method of the present invention includes (1) a step in which the wallet prepares the mining information requested by the miner, and (2) a step of transmitting the mining information to the miner. ,
It includes (3) a step in which the wallet receives the deadline from the miner, and (4) a step in rewarding the miner who submitted the lowest deadline after the lowest deadline has elapsed. The mining information is preferably block information.
"Cryptocurrency data for mining", "cryptocurrency data", "creation method", "storage medium", "wallet", "mining information", "target", "deadline time" in the method of granting a reward for cryptocurrency of the present invention , And "reward" are the same as those described in the above-mentioned "[1] Cryptocurrency mining system" and "[2] Cryptocurrency mining method".
FIG. 3 shows a wallet and a network formed by a plurality of miners. In the pool wallet shown in FIG. 3A, a plurality of miners are connected to the pool wallet on the network. In addition, the pool wallet is connected to the network. Each miner associates the wallet address of the pool with his / her passphrase and registers it in the pool.
On the other hand, FIG. 3B shows solo mining on the network. Each miner has his / her own wallet (local wallet), links his / her wallet address and his / her passphrase, and registers them in the local wallet. Cryptocurrency users (cryptocurrency traders) are also connected to the network.
In the method of giving a reward for cryptocurrency of the present invention, "minor" means "a mining means capable of calculating a deadline from a plot file" in a terminal connected to a network (or pool wallet).

In the deadline time receiving process, the wallet receives "a numerical account ID bound to the plot file" and "a nonce containing scoop data used to generate the deadline time" in addition to the deadline time. From the information received from the miner, the wallet creates a nonce, checks the deadline, and checks if the deadline has expired.

When the wallet confirms the deadline, it waits until the deadline expires to see if a new valid block has already been announced on the network. On the other hand, if another miner submits a new deadline, the wallet will adopt a lower deadline if the new deadline is lower than the previous deadline. After the lowest deadline, the wallet forges the block and rewards the miner who submits the lowest deadline.

The mining system, the mining method, and the reward giving method of the present invention can be effectively used for mining cryptocurrencies.

Claims (13)

(1) A means for creating encrypted data for mining and storing it in a storage medium,
Cryptocurrency mining system including. (2) Means of acquiring mining information from the wallet,
(3) means for searching a target from the encrypted data based on mining information acquired from the wallet, and (4) means for calculating a deadline time from the target and providing it to the wallet.
The cryptocurrency mining system according to claim 1, further comprising. (5) Means of receiving rewards when the deadline is the lowest,
The cryptocurrency mining system according to claim 2, further comprising. The cryptocurrency mining system according to any one of claims 1 to 3, wherein the crypto data is a plot file. The cryptocurrency mining system according to any one of claims 2 to 4, wherein the mining information is block information. (1) The process of creating encrypted data for mining and storing it in a storage medium.
Cryptocurrency mining methods including. (2) The process of acquiring mining information from the wallet,
(3) A process of searching for a target from stored encrypted data based on mining information acquired from the wallet, and (4) a process of calculating a deadline time from the target and providing it to the wallet.
Cryptocurrency mining methods including. (5) The process of receiving a reward when the deadline is the lowest,
The cryptocurrency mining method according to claim 7, further comprising. The method for mining a cryptocurrency according to any one of claims 6 to 8, wherein the crypto data is a plot file. The method for mining a cryptocurrency according to any one of claims 7 to 9, wherein the mining information is block information. (6) Cryptographic data addition process of creating additional mining cryptographic data and storing it in a storage medium,
The method for mining a cryptocurrency according to any one of claims 6 to 10, further comprising. (1) The process in which the wallet prepares the mining information requested by the miner.
(2) The process of transmitting the mining information to the miner,
(3) The process in which the wallet receives the deadline from the miner, and (4) the process of rewarding the miner who submitted the lowest deadline after the lowest deadline has elapsed.
How to reward cryptocurrencies including. The method for granting a reward for cryptocurrency according to claim 12, wherein the mining information is block information.

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