CN106296788A - A kind of deployment across machine room Cluster Rendering realizes system - Google Patents

Abstract

The invention provides a kind of deployment across machine room Cluster Rendering and realize system, including client, the rendering server master control assembly being connected with described client, the rendering server submodule that some and described rendering server master control assembly is connected, what some and described rendering server submodule was connected renders scheduler module, should dispose, across machine room Cluster Rendering, the system that realizes and can render Service controll by convenient carrying out, the monitoring management of precise procedural, become more meticulous the distribution of rendering task, use Distributed Rendering Environment device, render time can be greatly saved, alleviate and render labor intensity, compatible good, stability is strong.

Description

A kind of deployment across machine room Cluster Rendering realizes system

Technical field

The present invention relates to graphics rendering techniques field, particularly relate to a kind of deployment across machine room Cluster Rendering and realize system.

Background technology

Along with the rise of virtual reality technology is with perfect, a lot of enterprises use virtual reality technology to carry out product of promoting and market Product, wherein, the client using 3D technology to carry out house Size Dwelling Design also gets more and more.Along with a large amount of growths of usage amount, produce Substantial amounts of image rendering demand, and then rendering server is produced the biggest pressure；But to a certain extent, every renders clothes The rendering capability of business device is certain, in this case, it is necessary to use large batch of rendering server cluster.But, Current, one very well can be to large batch of rendering server machine monitors, the scheme of management；

The image rendering of existing virtual reality, has the disadvantage in that

(1), not enough to the monitoring capacity rendering machine, a machine can not carry out when having multiple process separating control；

(2) distribution ratio of rendering task is rougher, rendering task can not reasonable distribution, cause rendering resources to waste；

Therefore, the technical staff in field needs badly and works out one and render Service controll more easily, is accurate to the prison of process Control way to manage, the distribution of the rendering task that becomes more meticulous across machine room Cluster Rendering dispose implementation method.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of deployment across machine room Cluster Rendering and realizes system, should be across machine room collection Group renders deployment and realizes system and convenient can carry out rendering Service controll, and the monitoring management of precise procedural, become more meticulous rendering task Distribution.

For solving above-mentioned technical problem, the invention provides a kind of deployment across machine room Cluster Rendering and realize system, including visitor The rendering server master control assembly that family end is connected with described client, some and described rendering server master control assembly company What the rendering server submodule connect, some and described rendering server submodule were connected renders scheduler module, described client Design house type and submit to rendering task data to described rendering server master control assembly, described rendering server master control group Part collect rendering task, be assigned in rendering task queue, described in render scheduler module band render process identification (PID) and pass through described Rendering Attendant sub-module and ask rendering task to described rendering server master control assembly, described rendering server submodule receives After request task, described rendering server submodule asks rendering task to described rendering server master control assembly, described Rendering server master control assembly carries out progress recognizing, after mating with the process of presetting, distributes a corresponding task to wash with watercolours Dye process unit, described rendering server submodule returns after receiving the rendering task that described rendering server master control assembly returns Render scheduler module back to described, described in render scheduler module and receive rendering task performing, simultaneously to described rendering server Master control assembly carry out information synchronized update preserve, after rendering end, described in render scheduler module produce render picture Being sent to described rendering server submodule, described rendering server submodule receives and renders picture and picture is sent to render Server master control assembly preserves.

Preferably, described rendering server master control assembly include user scheduling program servers, calculate node side, for Order is sent to described user scheduling program servers query node information and rendering task information and to described calculating node side Server end, the data base of various information calculating node that collects for storage, described calculating node side is used for accepting The instruction of described server end carries out the collection of relevant information and the data collected is sent to described data base or user circle Face, described calculating node side is arranged on calculating node, and described calculating node side and server end are configured by user respectively, Described server end is inquired about current rendering task and nodal information to described user scheduling program servers and calculates joint to described Point end sends dependent instruction, and described calculating node side begins to take on relevant information and relevant information sent after receiving user instruction To data base.

Preferably, described server end includes: Data Frontend processing module, data internal processing modules and described data The systemic-function configuration module that front end processing block connects, described Data Frontend processing module and described calculating node side, described User scheduling program servers and data internal processing modules connect, described data internal processing modules and described data base and institute Stating calculating node side to connect, described systemic-function configuration module is connected with described calculating node side and Data Frontend processing module, Described calculating node side sends data parameters to described systemic-function configuration module, and described server end passes through described Data Frontend Processing module sends data collection instruction to each calculating node of described calculating node side, and described server end passes through described number On described user scheduling program servers, inquire about rendering task according to front end processing block and calculate the situation of node, described data Query Result is sent to described data internal processing modules by front end processing block, and described data internal processing modules is looked into described Knot inquiry fruit sends described database purchase and gets up and send control instruction according to described Query Result to described calculating node side.

Preferably, described calculating node side is carried out initially by described systemic-function configuration module according to the data parameters received Change.

Preferably, described systemic-function configuration module is configured with data acquisition formula, and described Data Frontend processing module is led to Crossing described data acquisition formula and carry out data acquisition to described calculating node side, described data acquisition formula is T=T0* (1+a), Wherein T0 is the data acquisition base interval time that systemic-function configuration module is specified, and a is the random offset between-1 to 1 Value.

Preferably, described Data Frontend processing module includes data query unit, instruction Dispatching Unit, described server end Send data collection by described instruction Dispatching Unit to each calculating node of described calculating node side to instruct, described server Hold and on described user scheduling program servers, inquire about rendering task by described data query unit and calculate the situation of node, Query Result is sent to described data internal processing modules by described data query unit.

Preferably, described data internal processing modules includes data analysis unit and data outputting unit, before described data End processing module Query Result is sent to described data analysis unit and data outputting unit, described data analysis unit according to Described Query Result sends control instruction to described calculating node side, and the described inquiry fruit that comes to an end is sent institute by described data outputting unit State database purchase.

Preferably, described across machine room Cluster Rendering dispose realize system also include for machine room Cluster Rendering engine be correlated with The data acquisition unit that data are acquired, described data acquisition unit is connected with described rendering server master control assembly, described number Rendering engine data acquisition module and system performance information acquisition module, described rendering engine data acquisition module is included according to harvester Block is for obtaining the basic data of each rendering task of final calculating, and described system performance information acquisition module is used for obtaining confession Monitor in real time or upload to data base's use for deliberation data.

After have employed said system, described Client Design go out house type and submit to rendering task data to described in render clothes Business device master control assembly, described rendering server master control collect components rendering task, it is assigned in rendering task queue, described Render scheduler module band to render process identification (PID) and render Attendant sub-module to described rendering server master control assembly described in passing through Request rendering task, after described rendering server submodule receives request task, described rendering server submodule is again to institute Stating rendering server master control assembly request rendering task, described rendering server master control assembly carries out progress recognizing, with pre- If after process is mated, distributing a corresponding task to rendering process unit, described rendering server submodule receives institute State rendering server master control assembly return rendering task after return to described in render scheduler module, described in render scheduler module Receive rendering task and perform, carrying out the synchronized update preservation of information simultaneously to described rendering server master control assembly, render After end, described in render scheduler module produce the picture that renders be sent to described rendering server submodule, described in render clothes Business device submodule receives to render picture and picture is sent to rendering server master control assembly and preserves；Should be across machine room Cluster Rendering Deployment realizes system convenient can carry out rendering Service controll, the monitoring management of precise procedural, and the distribution of the rendering task that becomes more meticulous makes Using Distributed Rendering Environment device, it is possible to be greatly saved render time, alleviate and render labor intensity, compatible good, stability is strong.

Accompanying drawing explanation

Fig. 1 is a kind of block mold schematic diagram disposing the system that realizes across machine room Cluster Rendering of the present invention；

Fig. 2 is the structural representation of the rendering server master control assembly corresponding with the block mold schematic diagram of Fig. 1.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, right The present invention is further elaborated.Should be appreciated that specific embodiment described herein is only used for explaining the present invention, not For limiting the present invention.

Embodiment 1

Refer to a kind of block mold disposing the system that realizes across machine room Cluster Rendering that Fig. 1 to Fig. 2, Fig. 1 are the present invention Schematic diagram；Fig. 2 is the structural representation of the rendering server master control assembly corresponding with the block mold schematic diagram of Fig. 1.

The invention discloses a kind of deployment across machine room Cluster Rendering and realize system, connect including client and described client The rendering server submodule that the rendering server master control assembly connect, some and described rendering server master control assembly are connected What block, some and described rendering server submodule were connected renders scheduler module, and described Client Design goes out house type and submits wash with watercolours to Dye task data, to described rendering server master control assembly, described rendering server master control collect components rendering task, is divided Be fitted in rendering task queue, described in render scheduler module band and render process identification (PID) and render Attendant sub-module to institute described in passing through State rendering server master control assembly request rendering task, after described rendering server submodule receives request task, described Rendering server submodule asks rendering task, described rendering server master control group to described rendering server master control assembly Part carries out progress recognizing, with presetting after process mates, distribute one corresponding task to rendering process unit, described in render Server submodule renders process mould described in returning to after receiving the rendering task that described rendering server master control assembly returns Block, described in render scheduler module and receive rendering task performing, carry out information to described rendering server master control assembly simultaneously Synchronized update preserve, after rendering end, described in render scheduler module produce render picture be sent to described in render service Device submodule, described rendering server submodule receives to render picture and picture is sent to rendering server master control assembly and protects Deposit.

Described rendering server master control assembly includes user scheduling program servers, calculates node side, for described User scheduling program servers query node information and rendering task information also send the service of order to described calculating node side Device end, the data base of the various information calculating node collected for storage, described calculating node side is used for accepting described clothes The instruction of business device end carries out the collection of relevant information and the data collected is sent to described data base or user interface, described Calculating node side to be arranged on calculating node, described calculating node side and server end are configured by user respectively, described clothes Business device end is inquired about current rendering task and nodal information to described user scheduling program servers and sends out to described calculating node side Sending dependent instruction, described calculating node side begins to take on relevant information and sends relevant information to data after receiving user instruction Storehouse.

Described server end includes: Data Frontend processing module, data internal processing modules and described Data Frontend process The systemic-function configuration module that module connects, described Data Frontend processing module and described calculating node side, described user scheduling Program servers and data internal processing modules connect, described data internal processing modules and described data base and described calculating joint Point end connects, and described systemic-function configuration module is connected with described calculating node side and Data Frontend processing module, described calculating Node side sends data parameters to described systemic-function configuration module, and described server end is by described Data Frontend processing module Sending data collection instruction to each calculating node of described calculating node side, described server end is by described Data Frontend Reason module is inquired about rendering task on described user scheduling program servers and calculates the situation of node, and described Data Frontend processes Query Result is sent to described data internal processing modules by module, and the described inquiry fruit that comes to an end is sent out by described data internal processing modules Send described database purchase to get up and send control instruction according to described Query Result to described calculating node side.

Described calculating node side is initialized by described systemic-function configuration module according to the data parameters received.

Described systemic-function configuration module is configured with data acquisition formula, and described Data Frontend processing module passes through described number Carrying out data acquisition according to gathering formula to described calculating node side, described data acquisition formula is T=T0* (1+a), and wherein T0 is The data acquisition base interval time that systemic-function configuration module is specified, a is the random offset value between-1 to 1.

Described Data Frontend processing module includes data query unit, instruction Dispatching Unit, and described server end passes through institute Stating instruction Dispatching Unit and send data collection instruction to each calculating node of described calculating node side, described server end passes through Described data query unit is inquired about rendering task on described user scheduling program servers and calculates the situation of node, described number According to query unit, Query Result is sent to described data internal processing modules.

Described data internal processing modules includes data analysis unit and data outputting unit, and described Data Frontend processes mould Query Result is sent to described data analysis unit and data outputting unit by block, and described data analysis unit is according to described inquiry Result sends control instruction to described calculating node side, and the described inquiry fruit that comes to an end is sent described data base by described data outputting unit Store.

Described deployment across machine room Cluster Rendering realizes system and also includes for entering machine room Cluster Rendering engine related data The data acquisition unit that row gathers, described data acquisition unit is connected with described rendering server master control assembly, described data acquisition Device includes that rendering engine data acquisition module and system performance information acquisition module, described rendering engine data acquisition module are used for Obtaining the basic data of final each rendering task calculated, described system performance information acquisition module is used for obtaining for prison in real time Control or upload to data base's use for deliberation data.

After have employed said system, described Client Design go out house type and submit to rendering task data to described in render clothes Business device master control assembly, described rendering server master control collect components rendering task, it is assigned in rendering task queue, described Render scheduler module band to render process identification (PID) and render Attendant sub-module to described rendering server master control assembly described in passing through Request rendering task, after described rendering server submodule receives request task, described rendering server submodule is again to institute Stating rendering server master control assembly request rendering task, described rendering server master control assembly carries out progress recognizing, with pre- If after process is mated, distributing a corresponding task to rendering process unit, described rendering server submodule receives institute State rendering server master control assembly return rendering task after return to described in render scheduler module, described in render scheduler module Receive rendering task and perform, carrying out the synchronized update preservation of information simultaneously to described rendering server master control assembly, render After end, described in render scheduler module produce the picture that renders be sent to described rendering server submodule, described in render clothes Business device submodule receives to render picture and picture is sent to rendering server master control assembly and preserves；Should be across machine room Cluster Rendering Deployment realizes system convenient can carry out rendering Service controll, the monitoring management of precise procedural, and the distribution of the rendering task that becomes more meticulous makes Using Distributed Rendering Environment device, it is possible to be greatly saved render time, alleviate and render labor intensity, compatible good, stability is strong.

Simultaneously, it should be appreciated that these are only the preferred embodiments of the present invention, it is impossible to therefore limit the patent of the present invention Scope, every equivalent structure utilizing description of the invention and accompanying drawing content to be made or equivalence implementation method, or directly or indirectly It is used in other relevant technical fields, is the most in like manner included in the scope of patent protection of the present invention.

Claims (8)

1. one kind realizes system across the deployment of machine room Cluster Rendering, it is characterised in that: include what client was connected with described client If the rendering server submodule that rendering server master control assembly, some and described rendering server master control assembly are connected Dry be connected with described rendering server submodule render scheduler module, described Client Design goes out house type and submits rendering task to Data, to described rendering server master control assembly, described rendering server master control collect components rendering task, are assigned to wash with watercolours In dye task queue, described in render scheduler module band and render process identification (PID) and render Attendant sub-module described in passing through and render to described Server master control assembly request rendering task, after described rendering server submodule receives request task, described in render clothes Business device submodule asks rendering task to described rendering server master control assembly, and described rendering server master control assembly is carried out Progress recognizing, after mating with the process of presetting, distributes a corresponding task to rendering process unit, described rendering server Submodule renders scheduler module described in returning to after receiving the rendering task that described rendering server master control assembly returns, described Render scheduler module receive rendering task and perform, carry out the synchronization of information more to described rendering server master control assembly simultaneously New preserve, after rendering end, described in render scheduler module the picture that renders produced be sent to described rendering server submodule, Described rendering server submodule receives to render picture and picture is sent to rendering server master control assembly and preserves.

The most according to claim 1 deployment across machine room Cluster Rendering realizes system, it is characterised in that: described rendering server Master control assembly includes user scheduling program servers, calculates node side, for inquiring about to described user scheduling program servers Nodal information and rendering task information also send the server end of order, based on storing and collecting to described calculating node side The data base of the various information of operator node, described calculating node side carries out relevant information for the instruction accepting described server end Collection and the data collected are sent to described data base or user interface, described calculating node side is arranged on calculating node On, described calculating node side and server end are configured by user respectively, and described server end is to described user scheduling program The current rendering task of server lookup and nodal information also send dependent instruction, described calculating node side to described calculating node side Begin to take on relevant information and send relevant information to data base after receiving user instruction.

The most according to claim 2 deployment across machine room Cluster Rendering realizes system, it is characterised in that: described server end bag Include: the systemic-function configuration that Data Frontend processing module, data internal processing modules are connected with described Data Frontend processing module At module, described Data Frontend processing module and described calculating node side, described user scheduling program servers and data are internal Reason module connects, and described data internal processing modules is connected with described data base and described calculating node side, described systemic-function Configuration module is connected with described calculating node side and Data Frontend processing module, and described calculating node side is joined to described systemic-function Put module and send data parameters, described server end by described Data Frontend processing module to each of described calculating node side Calculate node send data collection instruction, described server end by described Data Frontend processing module in described user scheduling journey Inquiring about rendering task on sequence server and calculate the situation of node, Query Result is sent to institute by described Data Frontend processing module Stating data internal processing modules, the described inquiry fruit that comes to an end is sent described database purchase and gets up also by described data internal processing modules Control instruction is sent to described calculating node side according to described Query Result.

The most according to claim 3 deployment across machine room Cluster Rendering realizes system, it is characterised in that: described systemic-function is joined Put module according to the data parameters received, described calculating node side to be initialized.

The most according to claim 4 deployment across machine room Cluster Rendering realizes system, it is characterised in that: described systemic-function is joined Putting module and be configured with data acquisition formula, described Data Frontend processing module calculates joint by described data acquisition formula to described Point end carries out data acquisition, and described data acquisition formula is T=T0* (1+a), and wherein T0 is that systemic-function configuration module is specified The data acquisition base interval time, a is the random offset value between-1 to 1.

The most according to claim 4 deployment across machine room Cluster Rendering realizes system, it is characterised in that: at described Data Frontend Reason module include data query unit, instruction Dispatching Unit, described server end by described instruction Dispatching Unit to described meter Each of operator node end calculates node transmission data collection instruction, and described server end passes through described data query unit described Inquiring about rendering task on user scheduling program servers and calculate the situation of node, Query Result is sent out by described data query unit Give described data internal processing modules.

The most according to claim 4 deployment across machine room Cluster Rendering realizes system, it is characterised in that: at described data are internal It is described that reason module includes that Query Result is sent to by data analysis unit and data outputting unit, described Data Frontend processing module Data analysis unit and data outputting unit, described data analysis unit is sent out to described calculating node side according to described Query Result Sending control instruction, the described inquiry fruit that comes to an end is sent described database purchase by described data outputting unit.

8. realize system according to arbitrary described the disposing across machine room Cluster Rendering of claim 1 to 7, it is characterised in that: described across The deployment of machine room Cluster Rendering realizes system and also includes the data acquisition for being acquired machine room Cluster Rendering engine related data Storage, described data acquisition unit is connected with described rendering server master control assembly, and described data acquisition unit includes rendering engine Data acquisition module and system performance information acquisition module, described rendering engine data acquisition module is for obtaining final calculating The basic data of each rendering task, described system performance information acquisition module is used for obtaining for monitoring in real time or uploading to number According to storehouse use for deliberation data.