CN112905349A - Instruction set-oriented high-availability computing control method - Google Patents

Abstract

The invention realizes a high-availability calculation control method facing to instruction set, under the condition of high concurrency of calculation request, the resource group management service can also dynamically create a new special instruction extension set Worker for service module to use according to the monitored hardware resource, if the hardware resource is enough, and the special instruction extension set Worker with the same calculation capability can be deployed in the same special instruction extension set resource group. Thereby achieving the purpose of facilitating resource management.

Description

Instruction set-oriented high-availability computing control method

Technical Field

The invention belongs to the field of energy chain open permission chains, and particularly relates to a high-availability computing control method based on an instruction set.

Background

The special instruction extension set is applied as a trusted computing resource, generally, the same function only needs to be realized by deploying one special instruction extension set computing node, and once a single point deployment fails, service interruption can be caused. In an actual production environment, high availability and horizontal expandability of special instruction extension set computing resources need to be achieved, and the available special instruction extension set computing resources are guaranteed to be used at the moment of service, so that a high-availability scheme needs to be designed, and the computing resources can be dynamically expanded according to computing capacity in the high-availability scheme.

Disclosure of Invention

In the invention, the technical problems solved by the invention are as follows: a high-availability calculation control method facing an instruction set is provided, and the threshold of using a block chain by a user is reduced.

In order to overcome the defects of the prior art, the invention provides an instruction set-oriented high-availability calculation control method, which comprises the following steps: step one, a special instruction extension set is applied as a trusted computing resource, and a high-availability trusted computing network environment of the special instruction extension set is constructed in a trusted computing service of the special instruction extension set so as to meet the requirement of ensuring that enough trusted computing resources are always available for service; constructing a special instruction expansion set trusted computing environment, wherein the special instruction expansion set trusted computing environment consists of a special instruction expansion set resource registration center, a special instruction expansion set resource group management service and a special instruction expansion set computing node Worker; the special instruction extension set resource registration center is mainly responsible for managing all computing resources in the whole special instruction extension set network, and a plurality of special instruction extension set computing nodes Worker in a special instruction extension set resource group management service management function group; step three, respectively deploying two types of services in a special instruction expansion set resource group, wherein the special instruction expansion set resource group management service and a plurality of special instruction expansion set computing nodes Worker; step four, computing nodes Worker by a plurality of special instruction extension sets in the cloud management functional group for the special instruction extension set resource group management service, and acquiring the state of the computing nodes Worker by the special instruction extension sets in real time; fifthly, the state of the special instruction expansion set computing node Worker comprises idle state, working state and unavailable state, hardware resource information of a special instruction expansion set resource group is obtained, the hardware resource information of the special instruction expansion set resource group comprises the use conditions of a CPU (Central processing Unit) and a memory, the state of the special instruction expansion set computing node Worker and the hardware resource information of the special instruction expansion set resource group are reported to a special instruction expansion set resource registration center, if a service computing request exists, the special instruction expansion set resource group is distributed from the special instruction expansion set resource registration center, and then the special instruction expansion set computing node Worker which executes computing most is distributed by the special instruction expansion set resource group to process the computing request; after the special instruction expansion set resource registration center and the special instruction expansion set resource group management are operated, the special instruction expansion set resource group management comprises special instruction expansion set resource group management service and a group of special instruction expansion set computing node Worker; the special instruction extension set computing node Worker in the special instruction extension set resource group can support elastic expansion, when a certain special instruction extension set computing node Worker resource in the group is unavailable, the resource management service tries to restart the unavailable special instruction extension set computing node Worker, and if the special instruction extension set computing node Worker cannot be started, a new special instruction extension set computing node Worker is created again; judging the condition of high concurrency of the calculation request, and starting to dynamically create a new special instruction extension set calculation node Worker for a service module according to the monitored hardware resource by the special instruction extension set resource group management service under the condition that the hardware resource is enough; in order to facilitate resource management, a special instruction expansion set computing node Worker with the same computing power is usually deployed in the same special instruction expansion set resource group; step eight, when the special instruction expansion set computing node Worker is started, registering the information of the special instruction expansion set computing node Worker to the special instruction expansion set resource group management service, establishing a heartbeat mechanism between the special instruction expansion set computing node Worker and the special instruction expansion set resource group management service, and sending the state of the special instruction expansion set computing node Worker to the resource management service at regular time; step nine, the resource management service reports the use condition of the special instruction extended set resource group to the special instruction extended set resource registration center at regular time; the special instruction extension set resource registration center can record the state information of the special instruction extension set resource group into the database, and after the service of the special instruction extension set resource registration center is restarted, the special instruction extension set resource registration center can actively acquire the state information from the managed special instruction extension set resource group.

Detailed Description

The technical solution of the present invention will be further described with reference to the following embodiments. The technical scheme of the invention comprises the following steps: the special instruction extension set is applied as a trusted computing resource, and a high-availability trusted computing network environment of the special instruction extension set is constructed in the trusted computing service of the special instruction extension set so as to meet the requirement of ensuring that enough trusted computing resources are always used for the service; constructing a special instruction expansion set trusted computing environment, wherein the special instruction expansion set trusted computing environment consists of a special instruction expansion set resource registration center, a special instruction expansion set resource group management service and a special instruction expansion set computing node Worker; the special instruction extension set resource registration center is mainly responsible for managing all computing resources in the whole special instruction extension set network, and a plurality of special instruction extension set computing nodes Worker in a special instruction extension set resource group management service management function group; respectively deploying two types of services in a special instruction expansion set resource group, wherein the special instruction expansion set resource group management service and a plurality of special instruction expansion set computing nodes Worker; the special instruction expansion set resource group management service calculates node Worker by using a plurality of special instruction expansion sets in the cloud management function group, and obtains the state of the special instruction expansion set calculation node Worker in real time; the state of the special instruction expansion set computing node Worker comprises idle state, working state and unavailable state, hardware resource information of a special instruction expansion set resource group is obtained at the same time, the hardware resource information of the special instruction expansion set resource group comprises the use conditions of a CPU (Central processing Unit) and a memory, the state of the special instruction expansion set computing node Worker and the hardware resource information of the special instruction expansion set resource group are reported to a special instruction expansion set resource registration center, if a service computing request exists, the special instruction expansion set resource group is distributed from the special instruction expansion set resource registration center, and then the special instruction expansion set computing node Worker which executes computing in the most is distributed by the special instruction expansion set resource group to process the computing request; after the special instruction expansion set resource registration center and the special instruction expansion set resource group management are operated, the special instruction expansion set resource group management comprises special instruction expansion set resource group management service and a group of special instruction expansion set computing node Worker; the special instruction extension set computing node Worker in the special instruction extension set resource group can support elastic expansion, when a certain special instruction extension set computing node Worker resource in the group is unavailable, the resource management service tries to restart the unavailable special instruction extension set computing node Worker, and if the special instruction extension set computing node Worker cannot be started, a new special instruction extension set computing node Worker is created again; judging the condition of high concurrency of the calculation request, and starting to dynamically create a new special instruction expansion set calculation node Worker for a service module according to the monitored hardware resource by the special instruction expansion set resource group management service under the condition that the hardware resource is enough; in order to facilitate resource management, a special instruction expansion set computing node Worker with the same computing power is usually deployed in the same special instruction expansion set resource group; when the special instruction expansion set computing node Worker is started, the information of the special instruction expansion set computing node Worker is registered to the special instruction expansion set resource group management service, meanwhile, a heartbeat mechanism is established between the special instruction expansion set computing node Worker and the special instruction expansion set resource group management service, and the state of the special instruction expansion set computing node Worker is sent to the resource management service at regular time; the resource management service can report the use condition of the special instruction extended set resource group to the special instruction extended set resource registration center at regular time; the special instruction extension set resource registration center can record the state information of the special instruction extension set resource group into the database, and after the service of the special instruction extension set resource registration center is restarted, the special instruction extension set resource registration center can actively acquire the state information from the managed special instruction extension set resource group.

The special instruction extension set is applied as a trusted computing resource, generally, the same function only needs to be realized by deploying one special instruction extension set computing node, and once a single point deployment fails, service interruption can be caused. In an actual production environment, high availability and horizontal expandability of special instruction extension set computing resources need to be achieved, and the available special instruction extension set computing resources are guaranteed to be used at the moment of service, so that a high-availability scheme needs to be designed, and the computing resources can be dynamically expanded according to computing capacity in the high-availability scheme.

In the special instruction extension set trusted computing service, in order to meet the requirement of ensuring that enough trusted computing resources are always available for service, a high-availability special instruction extension set trusted computing network environment can be designed. The trusted computing environment consists of a special instruction expansion set resource registry, a resource group management service and a special instruction expansion set Worker (computing node). The special instruction expansion set resource registration center is mainly responsible for managing all computing resources in the whole special instruction expansion set network, and the resource group management service is a plurality of special instruction expansion sets Worker in the management function group. Two types of services, namely resource group management service and a plurality of special instruction expansion sets Worker, are respectively deployed in the resource groups. The resource group management service manages a plurality of special instruction extension set workers in the group by using the cloud, can acquire the states (idle, working and unavailable) of the special instruction extension set workers in real time, can acquire hardware resource information (such as the use conditions of a CPU (Central processing Unit) and a memory) of the resource group at the same time, reports the information to a special instruction extension set resource registration center, and can allocate the resource group from the special instruction extension set resource registration center if a service calculation request exists, and then allocate the special instruction extension set Worker which executes the calculation most by the resource group to process the calculation request.

The high availability scheme of the special instruction extension set is divided into two parts, namely a special instruction extension set resource registry and special instruction extension set resource group management. The special instruction extension set resource group management comprises a resource group management service and a special instruction extension set Worker. Typically, the set of special instruction extension set resources is a high performance computer server that supports the special instruction extension set. The special instruction extension set Worker in the special instruction extension set resource group can support elastic expansion, when certain special instruction extension set Worker resource is unavailable, the resource management service can try to restart the unavailable special instruction extension set Worker, and if the unavailable special instruction extension set Worker can not be started, a new special instruction extension set Worker can be created again; under the condition of high concurrency of calculation requests, the resource group management service can also dynamically create a new special instruction extension set Worker for the service module to use according to the monitored hardware resources, if the hardware resources are enough. To facilitate resource management, the special instruction extension set Worker, which typically has the same computational power, is deployed within the same special instruction extension set resource group.

The data flow is as follows:

when the special instruction expansion set Worker is started, the information of the special instruction expansion set Worker is registered to the resource group management service, meanwhile, a heartbeat is established between the special instruction expansion set Worker and the resource group management service, and the state of the special instruction expansion set Worker is sent to the resource management service at regular time;

the resource management service reports the service condition of the resource group to the special instruction extended set resource registration center at regular time;

the special instruction extension set resource registration center can record the state information of the resource groups into the database, and can also actively acquire the state information from the managed resource groups after the service of the special instruction extension set resource registration center is restarted.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Has the advantages that: under the condition of high concurrency of calculation requests, the resource group management service can also dynamically create a new special instruction expansion set Worker for a service module to use according to the monitored hardware resources, and the special instruction expansion set Worker with the same calculation capacity can be deployed in the same special instruction expansion set resource group. Thereby achieving the purpose of facilitating resource management.

Claims (1)

1. An instruction set-oriented high-availability computing control method is characterized in that_，Comprises the following steps: step one, a special instruction extension set is applied as a trusted computing resource, and a high-availability trusted computing network environment of the special instruction extension set is constructed in a trusted computing service of the special instruction extension set so as to meet the requirement of ensuring that enough trusted computing resources are always available for service; constructing a special instruction expansion set trusted computing environment, wherein the special instruction expansion set trusted computing environment consists of a special instruction expansion set resource registration center, a special instruction expansion set resource group management service and a special instruction expansion set computing node Worker; the special instruction extension set resource registration center is mainly responsible for managing all computing resources in the whole special instruction extension set network, and a plurality of special instruction extension set computing nodes Worker in a special instruction extension set resource group management service management function group; step three, respectively deploying two types of services in the special instruction expansion set resource group, the special instruction expansion set resource group management service and a plurality of special instructionsCalculating a node Worker by a special instruction expansion set; step four, computing nodes Worker by a plurality of special instruction extension sets in the cloud management functional group for the special instruction extension set resource group management service, and acquiring the state of the computing nodes Worker by the special instruction extension sets in real time; fifthly, the state of the special instruction expansion set computing node Worker comprises idle state, working state and unavailable state, hardware resource information of a special instruction expansion set resource group is obtained, the hardware resource information of the special instruction expansion set resource group comprises the use conditions of a CPU (Central processing Unit) and a memory, the state of the special instruction expansion set computing node Worker and the hardware resource information of the special instruction expansion set resource group are reported to a special instruction expansion set resource registration center, if a service computing request exists, the special instruction expansion set resource group is distributed from the special instruction expansion set resource registration center, and then the special instruction expansion set computing node Worker which executes computing most is distributed by the special instruction expansion set resource group to process the computing request; after the special instruction expansion set resource registration center and the special instruction expansion set resource group management are operated, the special instruction expansion set resource group management comprises special instruction expansion set resource group management service and a group of special instruction expansion set computing node Worker; the special instruction extension set computing node Worker in the special instruction extension set resource group can support elastic expansion, when a certain special instruction extension set computing node Worker resource in the group is unavailable, the resource management service tries to restart the unavailable special instruction extension set computing node Worker, and if the special instruction extension set computing node Worker cannot be started, a new special instruction extension set computing node Worker is created again; judging the condition of high concurrency of the calculation request, and starting to dynamically create a new special instruction extension set calculation node Worker for a service module according to the monitored hardware resource by the special instruction extension set resource group management service under the condition that the hardware resource is enough; in order to facilitate resource management, a special instruction expansion set computing node Worker with the same computing power is usually deployed in the same special instruction expansion set resource group; step eight, when the special instruction expansion set computing node Worker is started, the information of the Worker is registered to the special instruction expansion set resource group management service, and meanwhile, the special instructionEstablishing a heartbeat mechanism between the extension set computing node Worker and the special instruction extension set resource group management service, and sending the state of the special instruction extension set computing node Worker to the resource management service at regular time; step nine, the resource management service reports the use condition of the special instruction extended set resource group to the special instruction extended set resource registration center at regular time; the special instruction extension set resource registration center can record the state information of the special instruction extension set resource group into the database, and after the service of the special instruction extension set resource registration center is restarted, the special instruction extension set resource registration center can actively acquire the state information from the managed special instruction extension set resource group.