CN112214426A - VNX-based high-speed data recording module, data recording and analyzing method - Google Patents

Abstract

The invention discloses a high-speed data recording module based on VNX, a data recording and analyzing method, wherein the data recording module comprises: a module connector, a module housing, and a processor within the module housing; the processor is connected with a main CPU module of the embedded equipment through a high-speed bus, connected with a solid-state storage module of the embedded equipment through a high-speed storage interface, and connected with a PC through an Ethernet interface, wherein the PC is provided with a data analysis graphical interface; the module connector is mounted on the module shell and connected with the processor. According to the technical scheme, the independent high-speed data recording module is used for recording and analyzing the data, the computing resources of the main CPU module of the embedded equipment are not occupied, the available storage capacity is increased under the condition of the same storage resources, the expansion can be realized, the analysis function is complete, and the market demand is better met.

Description

VNX-based high-speed data recording module, data recording and analyzing method

Technical Field

The invention relates to the technical field of data recording and analysis, in particular to a high-speed data recording module based on VNX, a data recording method and a data analysis method.

Background

At present, the VITA74 is generally called "VNX", and is a small embedded computing platform architecture specially designed for a severe use environment, and an embedded device based on VNX usually needs to work for a long time in the severe use environment, and data collected when a main CPU module in the device works must be recorded and analyzed to determine the working condition and the device operation condition.

The conventional data recording methods mainly include two methods: firstly, a main CPU module in the device is provided with a memory chip, the main CPU module directly records data into the memory chip when executing work, and the memory chip only stores the data negatively. The data recording mode has the advantages of low cost and simple operation, and has the disadvantages of single function, limited capacity of a storage chip, and occupation of computing resources of a main CPU module during data storage and recording, which may cause the condition that CPU resources are not enough during the work flow. And secondly, the mode that a main CPU module in the equipment is connected with a solid-state storage module through a high-speed bus has the advantages of greatly improving the storage capacity, but has the defect of single function and occupies the computing resource of the main CPU module during data storage and recording.

Disclosure of Invention

Aiming at the problems, the invention provides a VNX-based high-speed data recording module and a data recording and analyzing method, which record and analyze data through an independent high-speed data recording module, do not occupy the computing resource of a main CPU module of an embedded device, increase the available storage capacity under the condition of equal storage resources, realize expansion, have perfect analysis function and better meet the market demand.

In order to achieve the above object, the present invention provides an VNX-based high-speed data recording module, comprising: a module connector, a module housing, and a processor within the module housing; the processor is connected with a main CPU module of the embedded equipment through a high-speed bus, connected with a solid-state storage module of the embedded equipment through a high-speed storage interface, and connected with a PC through an Ethernet interface, wherein the PC is provided with a data analysis graphical interface; the module connector is mounted on the module shell, and the module connector is connected with the processor.

In the above technical solution, preferably, the module connector and the module housing are defined by using a 19mm board card structure conforming to VNX standard.

In the above technical solution, preferably, a high-speed bus connecting the processor and the main CPU module adopts an SRIO bus, and a communication protocol between the processor and the main CPU module adopts an SRIO bus protocol.

In the above technical solution, preferably, the high-speed storage interface adopts a SATA3.0 interface.

In the foregoing technical solution, preferably, the storage capacity of the solid-state storage module is not less than 1 TB.

In the foregoing technical solution, preferably, the processor is capable of acquiring a remaining storage space of the solid-state storage module.

The invention also provides a data recording method applied to the VNX-based high-speed data recording module in any one of the above technical solutions, comprising: the main CPU module inquires the high-speed data recording module whether the data can be recorded normally; the high-speed data recording module verifies whether data can be recorded normally, and if the high-speed data recording module verifies that the residual storage space of the solid-state storage module meets the data recording requirement, the high-speed data recording module feeds back the data which can be recorded normally to the main CPU module; if the high-speed data recording module verifies that the residual storage space of the solid-state storage module does not meet the data recording requirement, feeding back reason description of data which cannot be recorded normally and data which cannot be recorded normally to the main CPU module; the main CPU module sends data to be recorded to the high-speed data recording module when the main CPU module confirms that the data can be recorded normally; and the high-speed data recording module stores the received data into the solid-state storage module.

The invention also provides a data analysis method applied to the VNX-based high-speed data recording module in any one of the above technical solutions, comprising: the PC sends a data analysis rule to the high-speed data recording module; the high-speed data recording module receives and stores the data analysis rule; the PC sends an instruction for obtaining an analysis result to the high-speed data recording module; the high-speed data recording module analyzes data according to the analysis result obtaining instruction and the data analysis rule and returns an analysis result to the PC; and the PC displays the analysis result on a data analysis graphical interface.

Compared with the prior art, the invention has the beneficial effects that: the data is recorded and analyzed through the independent high-speed data recording module, the computing resource of a main CPU module of the embedded equipment is not occupied, the available storage capacity is increased under the condition of the same storage resource, the expansion can be realized, the analysis function is complete, and the market demand is better met.

Drawings

FIG. 1 is a schematic structural diagram of a VNX-based high-speed data recording module according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the installation of VNX-based high-speed data recording module in the system according to one embodiment of the present invention;

FIG. 3 is a sequence diagram of a data recording method according to an embodiment of the present invention;

fig. 4 is a sequence diagram of a data analysis method according to an embodiment of the present invention.

In the drawings, the correspondence between each component and the reference numeral is:

1. a high-speed data recording module; 11. a processor; 12. VNX connectors; 13. a module housing; 2. a main CPU module; 3. a solid state storage module; 4. a power supply module; 5. a PC machine.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The invention is described in further detail below with reference to the attached drawing figures:

as shown in fig. 1 and 2, the VNX-based high-speed data recording module 1 according to the present invention comprises: a module connector, a module housing 13, and a processor 11 inside the module housing 13; the processor 11 is connected with a main CPU module 2 of the embedded equipment through a high-speed bus, the processor 11 is connected with a solid-state storage module 3 of the embedded equipment through a high-speed storage interface, the processor 11 is also connected with a PC (personal computer) 5 through a gigabit Ethernet interface, and the PC 5 is provided with a data analysis graphical interface; a module connector is mounted on the module housing 13, the module connector being connected to the processor 11.

In the embodiment, the data is recorded and analyzed through the independent high-speed data recording module 1, the computing resource of the main CPU module 2 of the embedded device is not occupied, the available storage capacity is increased under the condition of the same storage resource, the expansion can be realized, the analysis function is complete, and the market demand is better met.

In the above embodiment, the module connectors and the module housing 13 are preferably defined by 19mm card structures conforming to VNX standard.

In the above embodiment, preferably, the high-speed bus connecting the processor 11 and the main CPU module 2 adopts an SRIO bus, and the communication protocol between the processor 11 and the main CPU module 2 adopts an SRIO bus protocol.

In the above embodiment, preferably, the high-speed storage interface employs a SATA3.0 interface.

In the above embodiment, it is preferable that the storage capacity of the solid-state storage module 3 is not less than 1 TB.

In the above embodiment, preferably, the processor 11 is able to acquire the remaining storage space of the solid-state storage module 3.

As shown in fig. 3, the present invention further provides a data recording method, which is applied to the VNX-based high-speed data recording module 1 provided in any of the above embodiments, and includes: the main CPU module 2 inquires the high-speed data recording module 1 whether the data can be recorded normally; the high-speed data recording module 1 verifies whether data can be recorded normally, and if the high-speed data recording module 1 verifies that the residual storage space of the solid-state storage module 3 meets the data recording requirement, the high-speed data recording module feeds back the data which can be recorded normally to the main CPU module 2; if the high-speed data recording module 1 verifies that the residual storage space of the solid-state storage module 3 does not meet the data recording requirement, the reason description that the data cannot be recorded normally and the data cannot be recorded normally is fed back to the main CPU module 2; the main CPU module 2 sends data to be recorded to the high-speed data recording module 1 when confirming that the data can be normally recorded; the high-speed data recording module 1 stores the received data in the solid-state storage module 3.

According to the data recording method, whether the solid-state storage module 3 has enough storage space for normally recording data is verified by the high-speed data recording module 1, if the data cannot be normally recorded, the reason why the data cannot be normally recorded is fed back to the main CPU module 2 and explained, and if the data can be normally recorded, the part of data is stored in the solid-state storage module 3 through the high-speed data recording module 1. In the recording process, the computing resource of the main CPU module 2 is not required to be occupied, and the independent and perfect data recording function is realized.

As shown in fig. 4, the present invention further provides a data analysis method, which is applied to the VNX-based high-speed data recording module 1 provided in any of the above embodiments, and includes: the PC 5 sends a data analysis rule to the high-speed data recording module 1; the high-speed data recording module 1 receives and stores data analysis rules; the PC 5 sends an instruction for obtaining an analysis result to the high-speed data recording module 1; the high-speed data recording module 1 analyzes the data according to the instruction for obtaining the analysis result and the data analysis rule and returns the analysis result to the PC 5; the PC 5 displays the analysis result on a data analysis graphical interface.

According to the data analysis method, the data is analyzed by the high-speed data recording module 1, the data analysis rule sent in advance by the PC 5 is adopted in the analysis process, the calculation resource of the main CPU module 2 is not occupied in the data analysis process, the data is independently analyzed by the high-speed data recording module 1, and the analysis result is directly sent to the PC 5, so that the available storage capacity is increased under the condition of the same storage resource, the expansion is realized, and the analysis function is complete.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An VNX-based high speed data recording module, comprising: a module connector, a module housing, and a processor within the module housing;

the processor is connected with a main CPU module of the embedded equipment through a high-speed bus, connected with a solid-state storage module of the embedded equipment through a high-speed storage interface, and connected with a PC through an Ethernet interface, wherein the PC is provided with a data analysis graphical interface;

the module connector is mounted on the module shell, and the module connector is connected with the processor.

2. An VNX-based high-speed data recording module according to claim 1, wherein the module connector and the module housing are defined using a 19mm card structure conforming to the VNX standard.

3. The VNX-based high-speed data recording module according to claim 1, wherein the high-speed bus connecting the processor and the main CPU module is SRIO bus, and the communication protocol between the processor and the main CPU module is SRIO bus protocol.

4. The VNX-based high-speed data recording module according to claim 1, wherein the high-speed storage interface is a SATA3.0 interface.

5. A VNX-based high-speed data recording module according to claim 1, wherein the storage capacity of the solid-state storage module is not less than 1 TB.

6. VNX-based high-speed data recording module according to claim 1, wherein the processor is capable of obtaining the remaining storage space of the solid-state storage module.

7. A data recording method applied to the VNX-based high-speed data recording module of any one of claims 1-6, comprising:

the main CPU module inquires the high-speed data recording module whether the data can be recorded normally;

the high-speed data recording module verifies whether data can be normally recorded,

if the high-speed data recording module verifies that the residual storage space of the solid-state storage module meets the data recording requirement, feeding back data which can be recorded normally to the main CPU module;

if the high-speed data recording module verifies that the residual storage space of the solid-state storage module does not meet the data recording requirement, feeding back reason description of data which cannot be recorded normally and data which cannot be recorded normally to the main CPU module;

the main CPU module sends data to be recorded to the high-speed data recording module when the main CPU module confirms that the data can be recorded normally;

and the high-speed data recording module stores the received data into the solid-state storage module.

8. A data analysis method applied to the VNX-based high-speed data recording module of any one of claims 1-6, comprising:

the PC sends a data analysis rule to the high-speed data recording module;

the high-speed data recording module receives and stores the data analysis rule;

the PC sends an instruction for obtaining an analysis result to the high-speed data recording module;

the high-speed data recording module analyzes data according to the analysis result obtaining instruction and the data analysis rule and returns an analysis result to the PC;

and the PC displays the analysis result on a data analysis graphical interface.

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