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Nonlinear cloud editing system

An editing system and nonlinear technology, applied in the field of nonlinear cloud editing system, can solve the problem that the computing power of multiple virtual machines cannot be combined and supported, and achieve the effect of solving the problem of effective image transmission and improving the utilization rate of funds.

Active Publication Date: 2013-06-19
BEIJING DAYANG TECH DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Moreover, with the virtual machine solution, it is impossible to combine the computing power of multiple virtual machines to support a complex processing task, which is an important function originally expected to be realized in the cloud editing environment

Method used

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  • Nonlinear cloud editing system

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Experimental program
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Embodiment 1

[0032] This embodiment is a nonlinear cloud editing system, the schematic diagram is as follows figure 1 shown (due to the limitations of drawing, figure 1 Only one client and two computing servers in the computing server cluster are drawn in the figure, but there are actually many clients, and there can be many computing servers in the computing server cluster). This embodiment includes: a plurality of clients, the clients are connected to two task scheduling and distribution servers through a local area network or a wide area network, and the task scheduling and distribution servers are connected to computing server clusters that can directly send data to each client , the computing server cluster is connected to the data storage matrix, and the data storage matrix is ​​connected to each client through a local area network or a wide area network. Such as figure 1 The shown task scheduler allocates servers, computer clusters and data storage matrix in the cloud.

[0033] T...

Embodiment 2

[0069] This embodiment implements the improvement of the first embodiment, which is the refinement of the first embodiment about the client. The client described in this embodiment is also provided with a device for establishing a connection for the client. The device for establishing a connection for the client is used to actively request the task scheduling and distribution server to establish a connection after the client is turned on. If it is not started, the device will automatically connect every once in a while until the connection is established.

[0070] The client is connected to two task scheduling and allocation servers at the same time, and any one of the task allocation and scheduling servers is defaulted to be the master task scheduling and allocation server, and the other is the slave task scheduling and allocation server. When the server sends a task, if the master task dispatching server does not respond, the client resends the task to the slave task dispatc...

Embodiment 3

[0072]This embodiment is an improvement of the second embodiment, and is a refinement of the second embodiment about the client. The client described in this embodiment is also provided with an audio-visual interface board connected to the monitor.

[0073] In this embodiment, the client is connected to a monitor, and the editing rendering and edited video images can be seen on the monitor. Because the client of traditional cloud editing system is a remote desktop, it cannot be connected to the video and audio interface card, so it cannot be connected to the monitor. It is very difficult for editors to check the editing process during the editing process. This implementation solves this problem. On the editing interface of the client, editors can do various editing operations, and at the same time on the monitor, editors can see the edited and rendered video images in real time, which effectively improves the editing efficiency.

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Abstract

The invention relates to a nonlinear cloud editing system. The nonlinear cloud editing system comprises a plurality of client sides, wherein the client sides are connected with two task scheduling distribution servers through a local area network or a wide area network, the task scheduling distribution servers are connected with calculation server clusters which can directly send data to each client side, the calculation server clusters are connected with a data storage matrix, and the data storage matrix is connected with each client side through the local area network or the wide area network. The nonlinear cloud editing system performs all file edit operations of rendering removing and composite packing on the client sides, places complex calculations such as rendering and composite packing on a cloud end for running, and uses whole cloud system resources to the greatest extent, and accordingly resources of the task scheduling distribution servers and the front end client sides are fully used. Due to the fact that an intelligent allocation scheme is used, heavy tasks of rendering and composite calculations are distributed onto each server of each calculation server cluster as uniformly as possible, resources of the calculation server clusters are fully used, and fund utilization rate is improved.

Description

technical field [0001] The present invention relates to a nonlinear cloud editing system, which is a network computer system, and is a network computer system applied to video and audio nonlinear editing. Background technique [0002] The traditional non-linear video and audio cloud editing system adopts the method of virtual machine, abstracts the hardware processing capability of the server into a standardized logical processing capability through virtualization technology, forms a computing pool, and then assigns different types of processing tasks to the computing pool correspondingly In this way, the dynamic allocation of server computing and processing capabilities is realized. Logical processing units are added for tasks with high loads, and logical processing units are reduced for tasks with light loads, thereby improving the average utilization of server processing resources. . But there are many limitations and deficiencies in this scheme. [0003] First of all, ...

Claims

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Application Information

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IPC IPC(8): H04N5/222H04N5/262H04L29/08G06F17/30
Inventor 谷显峰骆萧萧
Owner BEIJING DAYANG TECH DEV
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