CN106559474B - High-throughput data processing method and system for distributed general ledger - Google Patents

Abstract

The invention discloses a high-throughput data processing method and a high-throughput data processing system for a distributed general ledger, wherein the method comprises the following steps: generating an asset transfer record between two user terminals in a distributed general ledger network to establish a high-speed asset data processing channel; generating or updating a high-speed asset data processing channel routing table to form a derivative network based on the allowed digital asset values preset by the two user terminals and the established high-speed asset data processing channel between the two user terminals; the two user terminals transfer the digital assets on the derivative network through the high-speed asset data processing channel; and revoking the high-speed asset data processing channel, and transferring the digital asset recovery in the high-speed asset data processing channel to the digital asset accounts in the distributed general ledger network by the two user terminals.

Description

High-throughput data processing method and system for distributed general ledger

Technical Field

The present invention relates to a data processing method, and more particularly, to a data processing method capable of achieving high throughput.

Background

At present, with the rapid development of global information technology, internet digital assets are more and more concerned and valued by people, and meanwhile, the problem of how to ensure the security of digital asset transactions also becomes a concern of people.

In a traditional distributed general ledger system, the purposes of decentralization, transparency improvement, safety and reliability can be achieved by adopting technologies such as a block chain, but the following defects still exist: (1) the general ledger achieves the overall network consensus time, and a bottleneck exists in the data processing throughput; (2) if the transaction amount is too small, most of the distributed general ledgers do not allow the transaction to occur; (3) for small transactions, the transaction cost is high, which may be several times or even ten times the transaction amount itself.

Therefore, it is desirable to provide a data processing method capable of not only supporting the transfer of small-amount digital assets, but also greatly improving the data processing speed and throughput of the distributed general ledger.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a high-throughput data processing method of a distributed general ledger, so as to greatly improve the data processing speed and throughput of the distributed general ledger.

In order to achieve the above object, a first object of the present invention is to provide a high-throughput data processing method of a distributed general ledger, including: (1) generating an asset transfer record between two user terminals in a distributed general ledger network to establish a high-speed asset data processing channel; (2) generating or updating a high-speed asset data processing channel routing table to form a derivative network based on the allowed digital asset values preset by the two user terminals and the established high-speed asset data processing channel between the two user terminals; (3) the two user terminals carry out the transfer of the digital assets on the derivative network through the high-speed asset data processing channel; and (4) revoking the high-speed asset data processing channel, and transferring the digital asset recovery in the high-speed asset data processing channel to the digital asset accounts in the distributed general ledger network by the two user terminals.

The two user terminals for processing the asset data refer to operations such as transfer, payment, settlement or settlement of the digital asset between the two user terminals.

Optionally, step (1) comprises: (1-1) one of the two user terminals sending an invitation to perform asset data processing to the other user terminal, the other user terminal receiving the invitation to establish an intention of a high-speed asset data processing channel between the two user terminals, and generating an intention channel address through a multiple signature technology; and (1-2) respectively transferring digital assets with appointed numerical values from digital asset accounts in the distributed general ledger network to the intention channel addresses by the two user terminals, carrying out joint signature, and generating asset transfer records to establish a high-speed asset data processing channel.

Optionally, the information of the asset transfer record includes an asset transfer record ID, transfer records for transferring agreed-upon values of the digital assets from digital asset accounts each in the distributed ledger network to the intentional channel addresses by the two user terminals, respectively, a time at which the asset transfer record is generated or updated, a time at which a notification of the asset transfer record is sent to the distributed shared ledger network, and joint signatures of the two user terminals.

Alternatively, the asset transfer record is notified of the asset transfer record by either of the two user terminals to the distributed shared ledger.

Alternatively, the two user terminals are set as two general user terminals that are equal in rank in the distributed general ledger network.

Alternatively, one of the two user terminals is set as a service provider of the high-speed asset data processing channel, and the other is set as a general user terminal.

Optionally, the intent channel address is set to a valid address recognized by the distributed ledger network.

Optionally, at least one user terminal in the distributed general ledger network is configured to send an invitation to perform asset data processing to one of the plurality of other user terminals, and at least one of the plurality of other user terminals receives the invitation to respectively achieve corresponding high-speed asset data processing channel establishment intents, and generates a plurality of different intention channel addresses to establish a plurality of different high-speed asset data processing channels.

Optionally, step (2) comprises: (2-1) at least one user terminal in the distributed general ledger network sending a notification of all high-speed asset data processing channels which are respectively formed with other user terminals to the distributed general ledger network; and (2-2) generating or updating a high speed asset data processing channel routing table to form a derivative network based on all high speed asset data processing channels of the at least one user terminal.

Alternatively, the step (2-2) includes: (2-2-1) calculating the weight of a derivative network of at least one user terminal, wherein the weight of the derivative network of the at least one user terminal is set as the sum of preset digital asset values of digital asset transfer of the user terminal to corresponding intention channel addresses in all high-speed asset data processing channels of the user terminal; (2-2-2) setting a high-speed asset data processing channel of at least one user terminal to an edge of the derivative network, respectively; and (2-2-3) traversing the derivative network to generate a high-speed asset data processing channel routing table of each user terminal, wherein the high-speed asset data processing channel routing table comprises the destination user terminal, the next-hop user terminal of the destination user terminal and the maximum digital asset transfer limit transferred to the digital asset account of the destination user terminal.

Optionally, the maximum digital asset transfer quota is a minimum value of the derived network weight of each subscriber terminal on the high speed asset data processing path route.

Optionally, step (3) comprises: (3-1) one of the two user terminals sending a request for digital asset transfer to the other user terminal, wherein the request for digital asset transfer comprises a numerical value for digital asset transfer; and (3-2), inquiring a high-speed asset data processing channel route from a sending user terminal of a user terminal sending the digital asset transfer request to a receiving user terminal of another user terminal receiving the digital asset transfer request in the derivative network, and if the quota of the digital asset transfer is less than or equal to the maximum digital asset transfer quota in the route from the sending user terminal to the receiving user terminal, performing the digital asset transfer along at least one high-speed asset data processing channel route from the sending user terminal to the receiving user terminal; and if the numerical value of the digital asset transfer is larger than the maximum digital asset transfer limit in the route from the sending user terminal to the receiving user terminal, carrying out asset transfer data processing on the distributed general ledger network.

Optionally, all user terminals in the high-speed asset data processing channel route from the sending user terminal to the receiving user terminal are tested on line, if the tested high-speed asset data processing channel route has the user terminal offline state, the high-speed asset data processing channel route is judged to be invalid, other high-speed asset data processing channel routes are continuously searched until all the user terminals on the searched high-speed asset data processing channel route are on line, and then asset transfer data processing is carried out.

Alternatively, the high-speed asset data processing channel is selected in which the difference between the value of the maximum digital asset transfer amount of the high-speed asset data processing channel and the preset maximum allowable transfer amount of the digital asset transfer is minimized.

Optionally, if it is determined that the generation of the asset transfer record in any one of the high-speed asset data processing channel routes for performing asset transfer data processing fails, the transfer operation of all the digital assets in the high-speed asset data processing channel routes for performing asset transfer data processing is disabled, and the digital assets in the high-speed asset data processing channels of all the user terminals in the high-speed asset data processing channel routes are transferred to the digital asset accounts in the distributed general ledger network.

Optionally, step (4) comprises: (4-1) after the broadcasting time of the asset transfer record is reached, sending the asset transfer record to a distributed shared general ledger network to complete the effectiveness of the asset transfer record; and (4-2), each user terminal transferring the digital assets in the intention channel addresses in all the high-speed asset data processing channels to the digital asset accounts in the distributed general ledger network.

A second object of the present invention is to provide a high-throughput data processing system of a distributed ledger, comprising: at least two user terminals in the distributed general ledger network for asset data processing; the asset transfer record generating unit is arranged on the user terminal and used for generating asset transfer records to form an asset data processing channel when asset data processing is carried out; the data processing channel route forming unit is arranged on the user terminals and used for generating or updating an asset data processing channel route table to form a derivative network according to the digital asset value which is preset by each of the two user terminals and allows asset data processing and an asset data processing channel established between the two user terminals; the digital asset transfer unit is arranged on the user terminal and used for transferring the digital assets between the two user terminals which form the asset data processing channel; and the data processing channel canceling unit is arranged on the user terminal and is used for canceling the data processing channel between the two user terminals and transferring the digital assets of the two user terminals in the asset data processing channel to digital asset accounts of the two user terminals in the distributed general ledger network.

Optionally, the method further comprises: the invitation unit is arranged on the user terminal and used for sending an invitation for processing the asset data to another user terminal; the receiving unit is arranged on the user terminal and used for confirming and receiving the invitation sent by the user terminal for carrying out the asset data processing so as to achieve the intention of establishing an asset data processing channel with the user terminal sending the invitation for carrying out the asset data processing; and the intention channel address generating unit is arranged on the user terminal and used for generating an intention channel address for the two user terminals which reach the intention of the asset data processing channel through the multiple signature technology.

The invention has the beneficial effects that: (1) by establishing a high-speed asset data processing channel, constructing a derivative network, and utilizing a mode of combining online asset transfer and offline asset transfer of the distributed general ledger, the asset transfer broadcasting time is delayed, and the data processing speed and throughput of the distributed general ledger are greatly improved; (2) the method not only can support the small-amount asset transfer, but also saves the high transaction cost required by the small-amount asset transfer.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 shows a flow diagram of a high-throughput data processing method of a distributed ledger according to one embodiment of the present invention.

FIG. 2 illustrates a schematic diagram of information contained in an asset transfer record according to one embodiment of the present invention.

FIG. 3 illustrates an information diagram of a high speed asset data processing channel routing table according to one embodiment of the present invention.

FIG. 4 illustrates an initial asset transfer record between user terminal A and user terminal B according to one embodiment of the present invention.

FIG. 5 illustrates an updated asset transfer record between user terminal A and user terminal B according to one embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application.

Aiming at the defects of the small amount digital asset transaction of the existing distributed general ledger, the invention aims to provide a high-throughput data processing method of the distributed general ledger. In the solution provided by the invention, a derivative network is constructed by establishing high-speed asset data processing channel paths among a plurality of user terminals in a distributed general ledger network, thereby completing the transaction of the small-amount digital assets and improving the data processing speed and throughput of the distributed general ledger. The specific implementation flow of the high-throughput data processing method of the distributed general ledger is shown in fig. 1.

First, referring to fig. 1, in step S1, an asset transfer record is generated between two user terminals performing asset data processing to establish a high-speed asset data processing channel. Taking user terminal a and user terminal B performing asset data processing as an example, first, user terminal a sends an invitation to perform asset data processing to user terminal B, user terminal B receives the invitation, thereby fulfilling the intention of high-speed asset data processing channel establishment between user terminal a and user terminal B, then the user terminal a and the user terminal B generate a specific intended channel Address by using the multiple signature technology, the intention-channel Address is the effective Address recognized by the distributed general ledger, which, in turn, establishing an intention according to a high-speed asset data processing channel, generating an asset transfer record between a user terminal A and a user terminal B, and exchanging signatures, wherein the two parties respectively transfer digital assets with agreed values from digital asset accounts in a distributed general ledger network to an intention channel Address, and the transaction of the digital asset transfer can be validated only by the common signatures of the two parties. The asset transfer record is also a high speed asset data processing channel.

As shown in fig. 2, the information of the asset transfer record includes an asset transfer record ID as a unique identifier of the asset transfer record, a transfer record for transferring the digital asset with agreed value from the digital asset account in the distributed general ledger network to the destination channel Address by the user terminal a, a transfer record for transferring the digital asset with agreed value from the digital asset account in the distributed general ledger network to the destination channel Address by the user terminal B, a time for generating or updating the asset transfer record, a time for broadcasting (sending a notification of the asset transfer record to the distributed shared general ledger network) the asset transfer record in the distributed shared general ledger network (for example, after 40 days), and joint signatures of the user terminal a and the user terminal B.

Therefore, when the information of the asset transfer record, namely the information of the high-speed asset data processing channel, reaches the broadcasting time of the transaction record, the information is broadcasted on the distributed general ledger, and the broadcaster can be the user terminal A or the user terminal B. In addition, in the invention, the roles of the user terminal A and the user terminal B can be two common user terminals with equal positions in the distributed general ledger network, or one side can be a service provider of a high-speed asset data processing channel, and the other side is a common user terminal.

Of course, each user terminal in the distributed general ledger network may respectively achieve the corresponding high-speed asset data processing channel establishment intention with a plurality of other user terminals, and generate a plurality of different intention channel addresses. Thereby establishing a plurality of different high-speed asset data processing channels. If a high-speed asset data processing channel is established between the user terminal A and the user terminal C, a high-speed asset data processing channel is established between the user terminal B and the user terminal C, and a high-speed asset data processing channel is also established between the user terminal B and the user terminal D.

In step S2, a high-speed asset data processing path routing table is generated or updated to form a derived network based on the allowable digital asset values previously set by each of the two user terminals performing asset data processing and the high-speed asset data processing path established between the two user terminals.

Before generating or updating the routing table of the high-speed asset data processing channel, each user terminal broadcasts the own high-speed asset data processing channel to all user terminals of the distributed general ledger network, namely all the high-speed asset data processing channels formed by the user terminal and other user terminals respectively. Then, the weight of the derived network of each user terminal is calculated, the weight of the derived network is the sum of the limits of digital asset transfer to the corresponding intention channel addresses in all the high-speed asset data processing channels of the user terminal, one high-speed asset data processing channel of each user terminal is correspondingly set as one edge of the derived network, and finally, the derived network is traversed to generate a routing table of the high-speed asset data processing channel of each user terminal.

As shown in fig. 3, the high-speed asset data processing channel routing table of the present invention includes a destination user terminal, a next-hop user terminal of the destination user terminal, and a maximum digital asset transfer amount of a digital asset account transferred to the destination user terminal, where the maximum digital asset transfer amount is a maximum asset amount that can be transferred to the destination user terminal, and is generally a minimum value of derived network weights of each user terminal on a routing path of the high-speed asset data processing channel.

Next, in step S3, the two user terminals performing asset data processing perform asset transfer data processing on the derivative network through the high-speed asset data processing channel. Firstly, one of two user terminals for processing the asset data sends an asset transfer request comprising a quota for transferring the digital asset to the other user terminal, for example, the user terminal A provides a request for transferring a 100-element digital asset to the user terminal D, then, the high-speed asset data processing channel route is inquired, if the high-speed asset data processing channel route meeting the condition is found, firstly, the user terminal is tested on line, all related user terminals are determined to be on line, because the transaction requires all the user terminals on the high-speed asset data processing channel route to be on line, if the user terminal is off line, the high-speed asset data processing channel route is invalid, and other routes are searched continuously; if all user terminals on the route for the high speed asset data processing channel are online, the next step is continued. Still taking the example that the user terminal a transfers 100-element digital assets to the user terminal D, if the found high-speed asset data processing channel route is a- > B- > C- > D, first, the transaction initiator user terminal a generates an atomic operation: the user terminal A transfers 100-element digital assets to the user terminal B, the user terminal B transfers 100-element digital assets to the user terminal C, and the user terminal C transfers 100-element digital assets to the user terminal D, namely, a high-speed asset data processing channel is generated in pairs, and mutual signature exchange is carried out. For example, user terminal a transfers 100-tuple asset transfer records to user terminal B, generated between user terminal a and user terminal B as shown in fig. 4 and 5, in a two-party signature exchange. In the asset transfer record, in addition to the transfer amount update, the timestamp and transaction record broadcast time are updated. In addition, the atomic operation means that if any high-speed transaction record fails to generate exchange, the whole operation fails, all transfer operations fail, and the digital assets of the user terminal are restored, namely, the digital assets which are respectively in the high-speed asset data processing channels are recycled and transferred to the digital asset accounts which are in the distributed general ledger network.

It should be noted that in some cases, a single high-speed asset data processing channel route may not satisfy asset transfer requirements, such as insufficient asset transfer credits for the single high-speed asset data processing channel route. In this case, multiple high-speed asset data processing channel routes may be required to be updated together, and the selection of multiple high-speed asset data processing channel routes should target the closest transfer amount. For example, high-speed asset data processing channel routing takes route A- > B- > D for A to transfer 60 elements to D, while A transfers the remaining 40 elements to D take route A- > C- > D.

Thus, user terminal a completes the transfer of the 100-ary digital assets to user terminal D via the high-speed asset data processing channel route. However, at this time, although the transfer record is not broadcast in the blockchain main chain and only takes effect in the high-speed asset data processing channel, the asset transfer is already completed, and the transaction speed is greatly improved.

If no user terminal A that satisfies the condition is found to transfer a 100-tuple high speed asset data processing channel route to user terminal B, then query if the blockchain backbone can satisfy the transaction request. If yes, generating a main chain transaction and immediately broadcasting; otherwise the transfer request is denied.

Finally, in step S4, after the broadcast time in the asset transfer record arrives, the asset transfer record broadcasts, identifies and writes the asset transfer record on the distributed general ledger network, and the asset transfer record becomes effective, and then, as the intention channel Address in the asset transfer record is commonly controlled by both user terminals, each user terminal can recycle and transfer the digital assets respectively in all the high-speed asset data processing channels to the digital asset accounts respectively in the distributed general ledger network as required.

Although preferred embodiments of the present invention have been described in detail herein, it is to be understood that this invention is not limited to the precise construction and steps herein shown and described, and that other modifications and variations may be effected by one skilled in the art without departing from the spirit and scope of the invention. In addition, various parameters disclosed may be appropriately selected within the scope disclosed in the present invention depending on the specific use conditions. Further, the order of the steps disclosed may be changed or adjusted as appropriate depending on the particular conditions of use.

Claims (17)

1. A high-throughput data processing method of a distributed general ledger comprises the following steps:

(1) generating an asset transfer record between two user terminals in a distributed general ledger network to establish a high-speed asset data processing channel, comprising: (1-1) one of the two user terminals sending an invitation to perform asset data processing to the other user terminal, the other user terminal receiving the invitation to establish an intention of a high-speed asset data processing channel between the two user terminals and generating an intention channel address through a multiple signature technology; and (1-2) the two user terminals respectively transfer digital assets with appointed numerical values from digital asset accounts in a distributed general ledger network to the intention channel addresses and jointly sign, and generate asset transfer records to establish a high-speed asset data processing channel;

(2) generating or updating a high-speed asset data processing channel routing table to form a derivative network based on the allowed digital asset values preset by the two user terminals and the high-speed asset data processing channel established between the two user terminals;

(3) the two user terminals carry out digital asset transfer on the derivative network through the high-speed asset data processing channel; and

(4) and revoking the high-speed asset data processing channel, and transferring the digital asset recovery in the high-speed asset data processing channel to the digital asset accounts in the distributed general ledger network by the two user terminals.

2. The method of high-throughput data processing of a distributed ledger of claim 1, wherein the information of the asset transfer record includes an asset transfer record ID, a transfer record of the agreed upon value of the digital asset from the digital asset account each in the distributed ledger network to the wish-channel address by the two user terminals, respectively, a time of generation or update of the asset transfer record, a time of sending a notification of the asset transfer record to the distributed ledger network, and a joint signature of the two user terminals.

3. The high-throughput data processing method of a distributed ledger of claim 2, wherein the asset transfer record is sent a notification of the asset transfer record onto the distributed ledger network through either of the two user terminals.

4. The method of claim 2, wherein the two user terminals are set as two general user terminals that are peer-to-peer in the distributed ledger network.

5. The high-throughput data processing method of the distributed general ledger of claim 3, characterized in that one of the two user terminals is set as a facilitator of the high-speed asset data processing path, and the other is set as a normal user terminal.

6. The method of distributed ledger high throughput data processing of claim 3, wherein the intent-channel address is set to an effective address recognized by the distributed ledger network.

7. The method of claim 1, wherein at least one user terminal in the distributed ledger network is configured to send an invitation to perform asset data processing to one of a plurality of other user terminals, respectively, wherein at least one of the plurality of other user terminals receives the invitation to respectively fulfill corresponding high-speed asset data processing channel establishment intents, and wherein a plurality of different intention channel addresses are generated to establish a plurality of different high-speed asset data processing channels.

8. The method for high-throughput data processing of distributed general ledgers of any of claims 1 to 7, characterized in that said step (2) comprises:

(2-1) at least one user terminal in the distributed general ledger network sending a notification of all high-speed asset data processing channels that it respectively forms with other user terminals to the distributed general ledger network; and

(2-2) generating or updating a high speed asset data processing channel routing table to form a derivative network based on all high speed asset data processing channels of the at least one user terminal.

9. The high-throughput data processing method of a distributed ledger of claim 8, characterized in that said step (2-2) comprises:

(2-2-1) calculating the derived network weight of the at least one user terminal, wherein the derived network weight of the at least one user terminal is set as the sum of preset digital asset values of digital asset transfer of the user terminal to corresponding intention channel addresses in all high-speed asset data processing channels of the user terminal;

(2-2-2) setting one high-speed asset data processing channel of the at least one user terminal to one edge of the derivative network, respectively; and

(2-2-3) traversing the derivative network to generate a high-speed asset data processing channel routing table of each user terminal, wherein the high-speed asset data processing channel routing table comprises a target user terminal, a next-hop user terminal of the target user terminal and a maximum digital asset transfer limit transferred to a digital asset account of the target user terminal.

10. The method of distributed ledger high-throughput data processing of claim 9, wherein the maximum digital asset transfer quota is a minimum value of derived network weights of respective subscriber terminals on the high-speed asset data processing path route.

11. The high-throughput data processing method of the distributed general ledger of any of claims 1 to 7, characterized by said step (3) comprising:

(3-1) one of the two user terminals transmitting a request for digital asset transfer to the other user terminal, the request for digital asset transfer including a value for digital asset transfer; and

(3-2) inquiring a high-speed asset data processing channel route from a sending user terminal of a user terminal sending the digital asset transfer request to a receiving user terminal of another user terminal receiving the digital asset transfer request in the derivative network, and if the quota of the digital asset transfer is less than or equal to the maximum digital asset transfer quota in the route from the sending user terminal to the receiving user terminal, performing the digital asset transfer along at least one high-speed asset data processing channel route from the sending user terminal to the receiving user terminal; and if the numerical value of the digital asset transfer is larger than the maximum digital asset transfer limit in the route from the sending user terminal to the receiving user terminal, carrying out the asset transfer data processing in the distributed general ledger network.

12. The high-throughput data processing method of the distributed general ledger of claim 11, wherein all user terminals in the high-speed asset data processing path route from the sending user terminal to the receiving user terminal are tested online, and if there is a user terminal offline state in the tested high-speed asset data processing path route, it is determined that the high-speed asset data processing path route is invalid, and other high-speed asset data processing path routes are continuously searched until all user terminals on the searched high-speed asset data processing path route are online, and then the asset transfer data processing is performed.

13. The method of claim 10, wherein the high-speed asset data processing channel having the smallest difference between the value of the maximum digital asset transfer amount of the high-speed asset data processing channel and the preset maximum allowable transfer value of the digital asset transfer is selected.

14. The method according to claim 8, wherein if it is determined that the generation of the asset transfer record in any one of the high-speed asset data processing channel routes for performing the asset transfer data processing fails, the transfer operation of all the digital assets in the high-speed asset data processing channel routes for performing the asset transfer data processing fails, and the digital assets in the high-speed asset data processing channel of all the user terminals in the high-speed asset data processing channel routes are transferred to the digital asset accounts each of which is in the distributed general ledger network.

15. The method for high-throughput data processing of a distributed ledger of any of claims 1-7, characterized in that said step (4) comprises:

(4-1) after the broadcasting time of the asset transfer record is reached, sending the asset transfer record to the distributed general ledger network to complete the effectiveness of the asset transfer record;

(4-2), each user terminal transferring the digital assets in the intention channel addresses of all the high-speed asset data processing channels to the digital asset accounts in the distributed general ledger network.

16. A high throughput data processing system for a distributed ledger, comprising:

at least two user terminals in the distributed general ledger network for asset data processing;

the asset transfer record generating unit is arranged on the user terminal and used for generating asset transfer records to form an asset data processing channel when asset data processing is carried out;

a data processing channel route forming unit arranged on the user terminal and used for generating or updating an asset data processing channel route table to form a derivative network according to the digital asset value which is preset by the two user terminals and allows asset data processing and the asset data processing channel established between the two user terminals;

the digital asset transfer unit is arranged on the user terminal and used for transferring the digital assets between the two user terminals which form the asset data processing channel; and

and the data processing channel cancelling unit is arranged on the user terminal and is used for cancelling the data processing channel between the two user terminals and transferring the digital assets of the two user terminals in the asset data processing channel to digital asset accounts of the two user terminals in a distributed general ledger network.

17. The high-throughput data processing system of a distributed ledger of claim 16, further comprising:

the invitation unit is arranged on the user terminal and used for sending an invitation for processing the asset data to another user terminal;

the receiving unit is arranged on the user terminal and used for confirming and receiving the invitation sent by the user terminal for carrying out the asset data processing so as to achieve the intention of establishing an asset data processing channel with the user terminal sending the invitation for carrying out the asset data processing; and

and the intention channel address generating unit is arranged on the user terminal and used for generating an intention channel address for the two user terminals which reach the intention of the asset data processing channel through the multiple signature technology.

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