CN110401652B - Digital media data processing method based on super-fusion storage - Google Patents

Abstract

The application discloses a digital media data processing method, a device and a system based on super-fusion storage and super-fusion storage equipment, wherein the scheme comprises the following steps: determining digital media data to be processed in a local storage unit; receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol; and executing processing operation corresponding to the target function on the digital media data by using the virtual computing server according to the calling request to obtain the target digital media data. Therefore, the scheme is realized based on the super-fusion storage equipment, not only is the storage function of digital media data provided, but also rich digital media data creation tools are provided, the computing server is virtualized through a virtualization technology and is used for executing various functions in the creation tools called by the client, the problems of high creation tool cost and few acquisition ways are avoided, and the convenience of a user in the media creation process is greatly improved.

Description

Digital media data processing method based on super-fusion storage

Technical Field

The present application relates to the field of computer technologies, and in particular, to a method, an apparatus, a system, and a super-fusion storage device for processing digital media data based on super-fusion storage.

Background

With the continuous development of economy in China, the technology level is gradually improved, the development of information technology is particularly rapid, microblogs, WeChat, web portals, forums and various short video applications become an essential part in life, and self-media gradually becomes a new occupation appearing in the visual field of people.

However, decentralized digital media data is not conducive to supervision. In addition, for some media workers, personalized authoring is often completed by means of authoring tools, and the authoring tools have the problems of high cost and few acquisition ways, so that troubles are brought to the media workers.

Disclosure of Invention

The application aims to provide a digital media data processing method, a device and a system based on super-fusion storage and super-fusion storage equipment, which are used for solving the problems that traditional distributed digital media data are not beneficial to supervision, and an creation tool is high in cost and few in acquisition way. The specific scheme is as follows:

in a first aspect, the present application provides a digital media data processing method based on super-fusion storage, applied to super-fusion storage devices, including:

determining digital media data to be processed in a local storage unit;

receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol;

and executing processing operation corresponding to the target function on the digital media data by using a virtual computing server according to the calling request to obtain the target digital media data.

Preferably, the executing, by the virtual computing server, the processing operation corresponding to the target function on the digital media data according to the call request includes:

according to the calling request, performing resource scheduling on a plurality of local virtual computing servers to determine a target virtual resource server;

and executing processing operation corresponding to the target function on the digital media data by utilizing the target virtual computing server.

Preferably, the target function comprises any one or more of: video rendering, video clipping, adding subtitles.

Preferably, before determining the digital media data to be processed in the local storage unit, the method further includes:

and responding to an uploading request of the client, and storing the digital media data to be uploaded to a target partition of the local storage unit.

Preferably, the digital media data comprises any one or more of: audio data, video data, text data, image data.

Preferably, the executing, by the virtual computing server, the processing operation corresponding to the target function on the digital media data according to the call request includes:

generating a processing task of the digital media data according to the calling request;

determining the processing time length and the processing time limit required by the processing task;

and when the local storage IO pressure is smaller than a preset threshold value or the time length between the current time and the processing deadline is smaller than or equal to the processing time length, executing the processing operation corresponding to the target function on the digital media data by using a virtual computing server.

Preferably, after the performing, by using the virtual computing server, the processing operation corresponding to the target function on the digital media data according to the call request to obtain the target digital media data, the method further includes:

and responding to the data migration request, and migrating the digital media data to be migrated from the current hyper-converged storage device to the target hyper-converged storage device.

In a second aspect, the present application further provides a digital media data processing apparatus based on super-fusion storage, applied to a super-fusion storage device, including:

a data determination module: the method comprises the steps of determining digital media data to be processed in a local storage unit;

a request receiving module: the system comprises a client, a network sharing protocol and a server, wherein the client is used for receiving a call request for a target function of a local authoring tool sent by the client according to the network sharing protocol;

a data processing module: and the virtual computing server is used for executing processing operation corresponding to the target function on the digital media data according to the calling request to obtain target digital media data.

In a third aspect, the present application provides a super-fusion storage device, comprising:

a memory: for storing a computer program;

a processor: for executing said computer program for implementing the steps of a data media data processing method based on hyper-fusion storage as described above.

In a fourth aspect, the present application provides a digital media data processing system based on super-fusion storage, comprising a client and a super-fusion storage device, wherein the super-fusion storage device comprises a virtual computing server, a storage unit and an authoring tool set;

the client is used for sending a call request for a target function of an authoring tool in the super-fusion storage equipment to the super-fusion storage equipment through a network sharing protocol; the hyper-fusion storage device is used for determining digital media data to be processed in a local storage unit and executing processing operation corresponding to the target function on the digital media data by using a virtual computing server according to the calling request to obtain target digital media data.

The application provides a digital media data processing method, a device and a system based on super-fusion storage and super-fusion storage equipment, and the scheme comprises the following steps: determining digital media data to be processed in a local storage unit; receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol; and executing processing operation corresponding to the target function on the digital media data by using the virtual computing server according to the calling request to obtain the target digital media data. Therefore, the scheme is realized based on the super-fusion storage device, not only is the storage function of digital media data provided, but also rich digital media data creation tools are provided, the computing server is virtualized through a virtualization technology and is used for executing various functions in the creation tools called by the client, the problems of high creation tool cost and few acquisition ways are avoided, the convenience of a user in the media creation process is greatly improved, and the method has the characteristics of low cost and high execution efficiency.

Drawings

For a clearer explanation of the embodiments or technical solutions of the prior art of the present application, the drawings needed for the description of the embodiments or prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a flowchart of a first implementation of a digital media data processing method based on hyper-fusion storage;

FIG. 2 is a flowchart of a second implementation of a digital media data processing method based on hyper-fusion storage;

FIG. 3 is a flowchart of a third implementation of a digital media data processing method based on hyper-fusion storage;

FIG. 4 is a functional block diagram of an embodiment of a digital media data processing apparatus based on hyper-fusion storage;

FIG. 5 is a schematic diagram of an embodiment of a super-converged memory device;

FIG. 6 is a block diagram of an embodiment of a digital media data processing system based on hyper-fusion storage.

Detailed Description

The core of the application is to provide a digital media data processing method, a device and a system based on super-fusion storage and super-fusion storage equipment, the scheme provides a data storage function based on the super-fusion storage equipment, also provides a tool for digital media data creation, and executes corresponding data processing operation by utilizing a virtual computing server, thereby greatly improving the convenience of user media creation and having the characteristics of low cost and high execution efficiency.

In order that those skilled in the art will better understand the disclosure, the following detailed description will be given with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, a first embodiment of a digital media data processing method based on super-fusion storage provided in the present application is described below, where the first embodiment is applied to a super-fusion storage device, and the method includes the following steps:

s101, determining digital media data to be processed in a local storage unit;

as described above, in this embodiment, the present invention is implemented based on a super-fusion storage device, and a huge amount of digital media data is stored by using a super-fusion storage device, where the super-fusion storage device includes not only resources and technologies such as computing, network, storage, and server virtualization, but also elements such as cache acceleration, backup software, and snapshot technology, and multiple individual devices are aggregated through a network, so that a modular seamless horizontal extension can be implemented, and a uniform resource pool is formed. The digital media data in this embodiment includes but is not limited to: the system comprises audio, video, characters, pictures and links, and is characterized in that the data are aggregated and converged and uniformly stored in a super-fusion storage device, so that the management of information resources is facilitated, and the supervision on media information can be enhanced.

S102, receiving a call request for a target function of a local authoring tool sent by a client according to a network sharing protocol;

specifically, the super-converged storage device of the embodiment includes a plurality of the above-mentioned authoring tools, which are called authoring tool sets. The authoring tool set is mainly oriented to self-media workers and provides big data analysis such as collection and arrangement of picture materials, collection and arrangement of video materials, splicing of pictures, typesetting of webpages, video rendering, subtitle addition, recommendation and selection of front cover pictures, personal play amount and time analysis and the like for the self-media workers. In this embodiment, the authoring tool set is deployed on the computing server of the super-fusion storage device to provide services for the self-media workers in a renting manner, and the self-media workers can complete corresponding processing operations on the digital media data by using the authoring tool set deployed on the computing server of the super-fusion storage device only by accessing the computing server of the cloud through the network without deploying relevant application programs on their own computers or workstations.

S103, according to the calling request, the virtual computing server is used for executing processing operation corresponding to the target function on the digital media data to obtain target digital media data.

In this embodiment, the super-fusion storage device not only provides basic storage functions such as data reading and data writing, but also provides a virtual computing server. The virtual computing server is mainly used for providing a function that storage cannot provide, as described above, storage can only be used for writing and reading data, and for other operations, for example, installation and deployment of third-party software, processing of data, rendering of video, clipping, splicing, video scheduling, and the like, operations that require the physical computing server can be completed by the virtual computing server in this embodiment. For the super-fusion storage device, the physical computing server and the virtual computing server are the same, and the virtual computing server can adjust the resource occupation of the virtual computing server according to the load condition of the super-fusion storage device, so that the storage performance is not influenced, and under the conditions that the storage IO pressure of the super-fusion storage device is low and the utilization rate of a CPU and a memory is low, the virtual computing server can utilize idle resources through a virtualization technology.

The embodiment provides a digital media data processing method based on super-fusion storage, which comprises the following steps: determining digital media data to be processed in a local storage unit; receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol; and executing processing operation corresponding to the target function on the digital media data by using the virtual computing server according to the calling request to obtain the target digital media data. Therefore, the scheme is realized based on the super-fusion storage device, not only is the storage function of digital media data provided, but also rich digital media data creation tools are provided, the computing server is virtualized through a virtualization technology and is used for executing various functions in the creation tools called by the client, the problems of high creation tool cost and few acquisition ways are avoided, the convenience of a user in the media creation process is greatly improved, and the method has the characteristics of low cost and high execution efficiency.

The second embodiment of the digital media data processing method based on super-fusion storage provided by the present application is described in detail below, and the second embodiment is implemented based on the first embodiment and is expanded to a certain extent on the basis of the first embodiment.

Referring to fig. 2, the second embodiment is applied to the super-fusion storage device, and includes the following steps:

s201, responding to an uploading request of a client, and storing digital media data to be uploaded to a target partition of a local storage unit;

specifically, the super-fusion storage device in this embodiment provides an access service of data information to an external user through a network sharing protocol, and a self-media user may upload authoring materials accumulated by the self-media user to the super-fusion storage device through a client, including but not limited to: audio, video, text, pictures, links, etc. The super-fusion storage device in the embodiment has a storage partition function, and the storage and arrangement of the created materials, the manufacture of the final finished product and the playing of each function requirement of a user are not interfered by each other by utilizing the function, so that the capability of the whole super-fusion storage device is utilized to the maximum extent. In addition, the super-fusion storage device in this embodiment aggregates and aggregates various digital media data and stores the aggregated data in the storage unit in a unified manner, which facilitates management of information resources and enhances monitoring of media information.

S202, determining digital media data to be processed in a local storage unit;

s203, receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol;

as described above, the self-media user can utilize the authoring tool set installed in the super-fusion storage device to perform personalized authoring, thereby accelerating the authoring speed, improving the authoring quality and saving the cost for purchasing high-performance device configuration.

S204, according to the calling request, performing resource scheduling on a plurality of local virtual computing servers, and determining a target virtual resource server;

in the embodiment, computing server resources are erected on the super-fusion storage equipment at the rear end, and a plurality of computing servers are built in the same set of storage through a virtualization technology, so that the computing resources and the computing capacity of the super-fusion storage equipment are utilized to the maximum extent.

S205, executing processing operation corresponding to the target function on the digital media data by using the target virtual computing server to obtain target digital media data;

s206, responding to the playing request, and playing the target digital media data;

and S207, responding to the data migration request, and migrating the digital media data to be migrated from the current hyper-fusion storage device to the target hyper-fusion storage device.

In this embodiment, the super-fusion storage device has a data migration function, and can realize that the original data information is stored in another super-fusion storage device at a high speed, and the information security of the whole digital media platform is ensured through backup technologies such as multiple copies, snapshots, and the like, so that the utilization efficiency of the data information is improved, and the security of the data stored in the super-fusion storage device is ensured.

In the digital media data processing method based on the super-fusion storage provided by the embodiment, through the digital media application based on the super-fusion storage, data information of a digital media application platform can be integrated and converged into the same set of storage equipment, and compared with a platform with a computing server and a storage separated platform, the super-fusion storage equipment is low in cost and convenient and fast to deploy, and the time for deploying the application on line is saved. Meanwhile, the computing server and the storage are integrated in the same set of equipment, operation and maintenance are simple, management and maintenance are easy for an administrator, the power consumption cost of the whole set of equipment is greatly reduced, the space is saved, more equipment can be deployed in the space with the same size, and the space utilization rate is improved.

The third embodiment of the digital media data processing method based on super-fusion storage provided by the present application is described in detail below, and the third embodiment is implemented based on the first embodiment and is expanded to a certain extent on the basis of the first embodiment.

Referring to fig. 3, the third embodiment is applied to the super-fusion storage device, and includes the following steps:

s301, determining digital media data to be processed in a local storage unit;

s302, receiving a call request for a target function of a local authoring tool sent by a client according to a network sharing protocol;

s303, generating a processing task of the digital media data according to the calling request;

s304, determining the processing time length and the processing time limit required by the processing task;

s305, when the local storage IO pressure is smaller than a preset threshold value or the time length between the current time and the processing deadline is smaller than or equal to the processing time length, the virtual computing server is used for executing the processing operation corresponding to the target function on the digital media data.

In the digital media data processing method based on super-fusion storage provided by the embodiment, the virtual computing server automatically adjusts configuration according to the storage load condition, and when the storage is idle or the IO pressure is not large, the virtual computing server can fully utilize the stored configuration; when the storage IO pressure is large, the virtual computing server occupies less resources, only provides basic service, and ensures the storage performance to the maximum extent.

In the following, a digital media data processing device based on super-fusion storage according to an embodiment of the present application is introduced, and a digital media data processing device based on super-fusion storage described below and a digital media data processing device based on super-fusion storage described above may be referred to correspondingly.

As shown in fig. 4, the digital media data processing apparatus based on super-fusion storage is applied to a super-fusion storage device, and includes:

the data determination module 401: the method comprises the steps of determining digital media data to be processed in a local storage unit;

the request receiving module 402: the system comprises a client, a network sharing protocol and a server, wherein the client is used for receiving a call request for a target function of a local authoring tool sent by the client according to the network sharing protocol;

the data processing module 403: and the virtual computing server is used for executing processing operation corresponding to the target function on the digital media data according to the calling request to obtain target digital media data.

The digital media data processing apparatus based on super-fusion storage of the present embodiment is used to implement the foregoing digital media data processing method based on super-fusion storage, and therefore specific implementations of the apparatus can be seen in the foregoing portions of the digital media data processing method based on super-fusion storage, for example, the data determining module 401, the request receiving module 402, and the data processing module 403 are respectively used to implement steps S101, S102, and S103 in the foregoing digital media data processing method based on super-fusion storage. Therefore, specific embodiments thereof may be referred to in the description of the corresponding respective partial embodiments, and will not be described herein.

In addition, since the digital media data processing apparatus based on super-fusion storage of this embodiment is used to implement the foregoing digital media data processing method based on super-fusion storage, its role corresponds to that of the foregoing method, and is not described herein again.

In addition, the present application also provides a super-fusion storage device, as shown in fig. 5, including:

the memory 501: for storing a computer program;

the processor 502: for executing said computer program for implementing the steps of a data media data processing method based on hyper-fusion storage as described above.

Finally, the present application provides a digital media data processing system based on super-fusion storage, as shown in fig. 6, comprising a client 601 and a super-fusion storage device 602, where the super-fusion storage device 602 comprises a virtual computing server, a storage unit, and an authoring tool set;

the client 601 is configured to send a call request for a target function of an authoring tool in the super-fusion storage device 602 to the super-fusion storage device 602 through a network sharing protocol; the super-fusion storage device 602 is configured to determine digital media data to be processed in a local storage unit, and further configured to execute, by using a virtual computing server, a processing operation corresponding to the target function on the digital media data according to the call request, so as to obtain target digital media data.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above detailed descriptions of the solutions provided in the present application, and the specific examples applied herein are set forth to explain the principles and implementations of the present application, and the above descriptions of the examples are only used to help understand the method and its core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (9)

1. A digital media data processing method based on super-fusion storage is characterized in that the method is applied to super-fusion storage equipment and comprises the following steps:

determining digital media data to be processed in a local storage unit;

receiving a calling request for a target function of a local authoring tool sent by a client according to a network sharing protocol;

according to the calling request, a virtual computing server is utilized to execute processing operation corresponding to the target function on the digital media data to obtain target digital media data;

the executing, by the virtual computing server, the processing operation corresponding to the target function on the digital media data according to the call request includes:

generating a processing task of the digital media data according to the calling request;

determining the processing time length and the processing time limit required by the processing task;

and when the local storage IO pressure is smaller than a preset threshold value or the time length between the current time and the processing deadline is smaller than or equal to the processing time length, executing the processing operation corresponding to the target function on the digital media data by using a virtual computing server.

2. The method of claim 1, wherein performing, with a virtual computing server, a processing operation corresponding to the target function on the digital media data according to the invocation request comprises:

according to the calling request, performing resource scheduling on a plurality of local virtual computing servers to determine a target virtual resource server;

and executing processing operation corresponding to the target function on the digital media data by utilizing the target virtual computing server.

3. The method of claim 2, wherein the target function comprises any one or more of: video rendering, video clipping, adding subtitles.

4. The method of claim 1, wherein prior to said determining digital media data to be processed in the local storage unit, further comprising:

and responding to an uploading request of the client, and storing the digital media data to be uploaded to a target partition of the local storage unit.

5. The method of claim 4, wherein the digital media data comprises any one or more of: audio data, video data, text data, image data.

6. The method of claim 1, wherein after the performing, by the virtual computing server, the processing operation corresponding to the target function on the digital media data according to the call request to obtain target digital media data, further comprises:

and responding to the data migration request, and migrating the digital media data to be migrated from the current hyper-converged storage device to the target hyper-converged storage device.

7. A digital media data processing device based on super-fusion storage is characterized in that the device is applied to super-fusion storage equipment and comprises:

a data determination module: the method comprises the steps of determining digital media data to be processed in a local storage unit;

a request receiving module: the system comprises a client, a network sharing protocol and a server, wherein the client is used for receiving a call request for a target function of a local authoring tool sent by the client according to the network sharing protocol;

a data processing module: the virtual computing server is used for executing processing operation corresponding to the target function on the digital media data according to the calling request to obtain target digital media data;

the data processing module is used for: generating a processing task of the digital media data according to the calling request; determining the processing time length and the processing time limit required by the processing task; and when the local storage IO pressure is smaller than a preset threshold value or the time length between the current time and the processing deadline is smaller than or equal to the processing time length, executing the processing operation corresponding to the target function on the digital media data by using a virtual computing server.

8. A super-converged storage device, comprising:

a memory: for storing a computer program;

a processor: for executing said computer program for carrying out the steps of a data media data processing method based on hyper-fusion storage according to any of the claims 1-6.

9. A digital media data processing system based on super-fusion storage is characterized by comprising a client and super-fusion storage equipment, wherein the super-fusion storage equipment comprises a virtual computing server, a storage unit and an authoring tool set;

the client is used for sending a call request for a target function of an authoring tool in the super-fusion storage equipment to the super-fusion storage equipment through a network sharing protocol; the hyper-fusion storage equipment is used for determining digital media data to be processed in a local storage unit and executing processing operation corresponding to the target function on the digital media data by using a virtual computing server according to the calling request to obtain target digital media data;

the hyper-fusion storage equipment is used for generating a processing task of the digital media data according to the calling request; determining the processing time length and the processing time limit required by the processing task; and when the local storage IO pressure is smaller than a preset threshold value or the time length between the current time and the processing deadline is smaller than or equal to the processing time length, executing the processing operation corresponding to the target function on the digital media data by using a virtual computing server.

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