CN111831600A - Big data modification classification transmission processing system - Google Patents

Abstract

The invention discloses a big data modification classified transmission processing system, belonging to the big data technical field, the scheme is that the big data in a high-performance memory is analyzed by a modification converter, and a shortcut of the big data is made by a data re-modification unit, the obtained shortcut is input into a temporary classified memory by a modification input unit and is temporarily stored, and the modified data is classified and output to each data processor by a modification output unit, on one hand, the data processor can be processed by transmitting the shortcut by virtue of the characteristic that the shortcut of a data folder occupies smaller memory, thereby reducing the higher requirement on the memory of the data processor, and simultaneously, by virtue of the characteristic that the shortcut has smaller memory, the memory occupation amount of the data processor can be reduced, thereby improving the processing operation speed of the whole data processor, thereby improving the efficiency of processing big data.

Description

Big data modification classification transmission processing system

Technical Field

The invention relates to the technical field of big data, in particular to a big data modification classification transmission processing system.

Background

Big data (bigdata), an IT industry term, refers to a data set that cannot be captured, managed and processed by a conventional software tool within a certain time range, is a massive, high-growth rate and diversified information asset that needs a new processing mode to have stronger decision making power, insight discovery power and flow optimization capability, and in the big data era written by vikto meier-schenberg and kenius cusk, all data are used for analysis processing without such a shortcut as random analysis (sampling survey), and 5V characteristics of the big data (proposed by IBM) are: volume (bulk), Velocity (high speed), Variety (multiple), Value (low Value density), Veracity (authenticity).

As the cloud age has come, Big data (Big data) has attracted more and more attention, and analysts have considered that Big data (Big data) is generally used to describe a large amount of unstructured data and semi-structured data created by one company, such data can cost excessive time and money to download to a relational database for analysis, large data analysis is often tied to cloud computing, because real-time large dataset analysis requires a framework like MapReduce to distribute work to tens, hundreds, or even thousands of computers, large data requires special techniques, the method is suitable for technologies of big data, including a large-scale parallel processing (MPP) database, data mining, a distributed file system, a distributed database, a cloud computing platform, the Internet and an extensible storage system.

At present, when big data is processed, the process of processing the data is slow due to the large memory occupied by the big data, and indeed, a high-performance running computer is already appeared in the prior art, but the cost is high, so that the large-scale popularization is not facilitated, and a big data processing system with high processing efficiency and low cost is urgently needed.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a big data modification, classification, transmission and processing system, which analyzes the big data in a high-performance storage through a modification converter, makes a shortcut of the big data by a data reconstruction unit, inputs the obtained shortcut into a temporary classification storage through a modification input unit and temporarily stores the data, and classifies and outputs the modified data to each data processor through a modification output unit, and reduces the high requirement on the memory of the data processor by transmitting the shortcut to the data processor on the one hand and reduces the memory occupation amount of the data processor by the characteristic that the memory of the shortcut is small on the other hand, thereby improving the processing and operation speed of the whole data processor, thereby improving the efficiency of processing big data.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A big data modification classified transmission processing system comprises a high-performance memory, wherein big data are stored in the high-performance memory, a modification converter is electrically connected to the outer end of the high-performance memory, a plurality of data processors are electrically connected to the outer end of the modification converter, the modification converter comprises a data retrieval unit, a data analysis unit is electrically connected to the outer end of the data retrieval unit, a data reconstruction unit is electrically connected to the outer end of the data analysis unit, a modification input unit is electrically connected to the outer end of the data reconstruction unit, a data storage unit is electrically connected to the outer end of the modification input unit, a modification output unit is electrically connected to the outer end of the data storage unit, a data input line electrically connected with the modification input unit is fixedly connected to the outer end of the modification converter, a plurality of temporary classified memories which are uniformly distributed and electrically connected with the data storage unit are installed in the modification converter, the outer end of the modification converter is fixedly connected with a plurality of data output lines which are uniformly distributed and are respectively and electrically connected with the modification output unit, the data analysis is carried out on the big data in the high-performance storage through the modification converter, the shortcut of the big data is made by the data reconstruction unit, the obtained shortcut is input into the temporary classified storage through the modification input unit and is temporarily stored, the modification data is classified and output to each data processor through the modification output unit, and the high demand on the memory of the data processor is reduced by the characteristic that the memory occupied by the shortcut of the data folder is small on the one hand, the shortcut is transmitted to the data processor for processing on the other hand, and the memory occupied by the data processor is reduced by the characteristic that the memory of the shortcut is small on the other hand, so that the processing and operation speed of the whole data processor is improved, thereby improving the efficiency of processing big data.

Further, the data output line comprises a first data line and a second data line, one end of the first data line, which is close to the second data line, is fixedly connected with a pair of contact ends, the contact ends are in contact with each other in a pairwise manner, the outer ends of the first data line and the second data line are sleeved with an outer protection frame, the outer ends of the first data line and the second data line are fixedly connected with a built-in fixing ring which is positioned in the outer protection frame, a pair of outer heat absorption balloons are bolted in the built-in fixing ring, ammonium chloride powder is filled in the outer heat absorption balloons, the inner wall of each outer heat absorption balloon is fixedly connected with a plurality of uniformly distributed magnetic insulation bulges, a built-in magnet ball is arranged in each outer heat absorption balloon, one end of the two built-in fixing rings, which is close to each other, is chiseled with a heat transfer hole, the outer end of each built-in fixing ring is fixedly connected, the utility model discloses a fingerprint identification device, including outer heat absorption sacculus, the inside fixedly connected with of outer heat absorption sacculus is located the built-in draw gear of built-in magnet ball upside, when fingerprint identification fails, can make the local heat of first data line and second data line junction increase, thereby make the deformation disk resume to its high temperature looks attitude, make the inside through-hole that appears of deformation disk, thereby make heat transfer to outer heat absorption sacculus, and along with the decomposition of the ammonium chloride powder in the outer heat absorption sacculus, force outer heat absorption sacculus inflation, thereby remove the shielding state to built-in magnet ball, with this make the built-in magnet ball of two built-in fixed rings repel each other, and drive first data line and second data line and twist reverse, make the contact terminal of its outer end stagger each other, interrupt when realizing the transmission of modified data, with this security when improving data transmission.

Furthermore, the built-in traction device comprises an elastic connection rope fixedly connected with one of the magnetism-insulating bulges, a deformation air bag is fixedly connected to the bottom end of the elastic connection rope, a plurality of micro-villi are fixedly connected to the outer end of the deformation air bag and are uniformly distributed, the micro-villi are made of 400-stainless steel materials, the built-in traction device can be used for screening ammonium chloride powder in the deformation air bag when the external heat absorption air bag expands, the micro-villi are made of 400-stainless steel materials, and the built-in magnet ball can be used for magnetically attracting the deformation air bag to enable the elastic connection rope to be straightened, so that the screening efficiency of the ammonium chloride powder is improved.

Furthermore, a plurality of fingerprint identification devices are installed to the modified converter outer end, fingerprint identification device respectively with temporary classification memory and data output line electric connection, through set up fingerprint identification device in modified converter outer end, security when can improve data transmission, only obtaining the back of authorizing, just can transmit and handle data.

Further, the equal fixedly connected with of one end that first data line and second data line are close to each other supports the end piece, two the one end that supports the end piece and be close to each other all excavates spherical groove, the spherical inslot internal rotation is connected with the ball, supports the end piece through setting up, can reduce the difficult possibility that resets after first data line and the second data line stagger, through setting up spherical groove and ball, can reduce the possibility that the jam appears when supporting the rotation between the end piece.

Furthermore, the magnetism isolating protrusion is made of Fe-Ni alloy, the Ni content in the magnetism isolating protrusion is 80%, and the magnetism isolating protrusion made of Fe-Ni alloy can enable the built-in magnet ball to be in a magnetic shielding state when the magnetism isolating protrusion is tightly abutted, so that the first data line and the second data line can be conveniently reset.

Furthermore, the deformed wafer is made of a Ni-Ti memory alloy material, the deformation temperature of the deformed wafer is 40 ℃, and the deformed wafer can be restored to be in a ring shape at high temperature by using the Ni-Ti memory alloy material, so that the generated heat can be promoted to enter the built-in fixing ring to heat the external heat absorption balloon.

Further, a plurality of evenly distributed's of elastic connection rope outer end fixedly connected with screening filter screen, the mesh aperture of screening filter screen is the same with ammonium chloride powder's particle diameter, can improve the screening effect to ammonium chloride powder through setting up the screening filter screen to improve ammonium chloride powder's decomposition efficiency.

Further, the inside packing of deformation gasbag has carbon dioxide gas, through set up carbon dioxide in the deformation gasbag, can be so that the deformation gasbag is heated quick inflation to improve the effect of scattering to the stirring of ammonium chloride powder.

A use method of a big data modification classification transmission processing system comprises the following steps:

s1, analyzing the big data in the high-performance memory through the modification converter, and making a shortcut of the big data by the data reconstruction unit;

s2, inputting the obtained shortcut into a temporary classification memory through a modification input unit and temporarily storing the shortcut;

and S3, outputting the modified data to each data processor by classification through the modified output unit, and processing the modified data by transmitting the shortcut to the data processor by virtue of the characteristic that the shortcut of the data folder occupies a small memory.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) according to the scheme, the data analysis is carried out on the big data in the high-performance storage through the modification converter, the shortcut of the big data is made through the data reconstruction unit, the obtained shortcut is input into the temporary classified storage through the modification input unit and is temporarily stored, the modified data is classified and output to each data processor through the modification output unit, the occupied memory of the shortcut of the data folder is small, on one hand, the data processor can be processed through transmitting the shortcut, so that the high requirement on the memory of the data processor is reduced, on the other hand, the occupied memory of the data processor can be reduced through the small characteristic of the memory of the shortcut, so that the processing operation speed of the whole data processor is improved, and the efficiency of processing the big data is improved.

(2) The data output line comprises a first data line and a second data line, one end of the first data line, which is close to the second data line, is fixedly connected with a pair of contact ends, the contact ends are contacted with each other in pairs, the outer ends of the first data line and the second data line are sleeved with an outer protective frame, the outer ends of the first data line and the second data line are fixedly connected with a built-in fixing ring which is positioned in the outer protective frame, a pair of outer heat absorption balloons are bolted in the built-in fixing ring, ammonium chloride powder is filled in the outer heat absorption balloons, the inner wall of the outer heat absorption balloons is fixedly connected with a plurality of magnetic insulation bulges which are uniformly distributed, built-in magnet balls are arranged in the outer heat absorption balloons, heat transmission holes are drilled at one end of the two built-in fixing rings, the outer ends of the built-in fixing rings are fixedly connected with deformation disks which are positioned outside the heat transmission holes, and a built-in traction device which is, when fingerprint identification fails, can make the local heat of first data line and second data line junction increase, thereby make the deformation disk resume to its high temperature phase state, make the inside through-hole that appears of deformation disk, thereby make heat transfer to outer heat absorption sacculus, and along with the decomposition of the interior ammonium chloride powder of outer heat absorption sacculus, force outer heat absorption sacculus inflation, thereby relieve the shielding state to built-in magnet ball, make the built-in magnet ball of two built-in fixed rings repulse each other with this, and drive first data line and second data line and twist reverse, make the contact terminal of its outer end stagger each other, interrupt when realizing modified data transmission, security when with this improvement data transmission.

(3) The built-in traction device comprises an elastic connection rope fixedly connected with one of the magnetism-insulating bulges, a deformation air bag is fixedly connected with the bottom end of the elastic connection rope, a plurality of uniformly distributed micro-villi are fixedly connected with the outer end of the deformation air bag and are made of 400-stainless steel, the built-in traction device can be used for screening ammonium chloride powder in the deformation air bag when the outer heat absorption air bag expands, the micro-villi are made of 400-stainless steel, and the built-in magnetic iron ball can be used for magnetically attracting the deformation air bag to enable the elastic connection rope to be straightened, so that the screening efficiency of the ammonium chloride powder is improved.

(4) A plurality of fingerprint identification devices are installed to the converter outer end of modifying, and fingerprint identification device respectively with temporary classification memory and data output line electric connection, through set up fingerprint identification device in the converter outer end of modifying, security when can improve data transmission, only obtaining the back authorized, just can transmit and handle data.

(5) The equal fixedly connected with of one end that first data line and second data line are close to each other supports the end piece, and the one end that two support the end piece and be close to each other all excavates spherical groove, and the spherical inslot rotation is connected with the ball, supports the end piece through setting up, can reduce the difficult possibility that resets after first data line and the second data line stagger, through setting up spherical groove and ball, can reduce the possibility that the jam appears when supporting the rotation each other between the end piece.

(6) The magnetism isolating protrusion is made of Fe-Ni alloy, the Ni content in the magnetism isolating protrusion is 80%, and the magnetism isolating protrusion made of Fe-Ni alloy can enable the built-in magnet ball to be in a magnetic shielding state when the magnetism isolating protrusion is tightly abutted, so that the first data line and the second data line can be conveniently reset.

(7) The deformed wafer is made of Ni-Ti memory alloy materials, the deformation temperature of the deformed wafer is 40 ℃, the deformed wafer made of the Ni-Ti memory alloy materials can be restored to be in a ring shape at high temperature, and the generated heat can be promoted to enter the built-in fixing ring to heat the external heat absorption balloon.

(8) A plurality of evenly distributed's of elastic connection rope outer end fixedly connected with screening filter screen, the mesh aperture of screening filter screen is the same with the particle diameter of ammonium chloride powder, can improve the screening effect to the ammonium chloride powder through setting up the screening filter screen to improve the decomposition efficiency of ammonium chloride powder.

(9) The inside packing of deformation gasbag has carbon dioxide gas, through set up carbon dioxide in the deformation gasbag, can be so that the deformation gasbag is heated quick inflation to improve the effect of scattering to the stirring of ammonium chloride powder.

Drawings

FIG. 1 is a block diagram of the present invention in its entirety;

FIG. 2 is a block diagram of the interior of a modified converter of the present invention;

FIG. 3 is a schematic diagram of the structure of the modified converter portion of the present invention;

FIG. 4 is a cross-sectional view of a data output line section according to the present invention;

FIG. 5 is a cross-sectional view of the built-in stationary ring portion of the present invention;

FIG. 6 is a cross-sectional view of a portion of the internal draft gear of the present invention;

fig. 7 is a cross-sectional view of a twisted-off data output line according to the present invention.

The reference numbers in the figures illustrate:

1 high-performance memory, 2 big data, 3 modified converters, 4 data processors, 5 data input lines, 6 temporary classification memory, 7 data output lines, 8 first data lines, 801 supporting end plates, 9 second data lines, 10 contact ends, 11 outer protective frames, 12 built-in fixing rings, 13 outer heat absorption balloons, 14 magnetic isolation bulges, 15 built-in magnet balls, 16 heat transmission holes, 17 deformation wafers, 18 built-in traction devices, 19 elastic connecting ropes, 1901 sieving filter screens, 20 deformation balloons and 21 microvilli.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-3, a big data modification, classification, transmission and processing system includes a high performance memory 1, big data 2 stored in the high performance memory 1, a modification converter 3 electrically connected to an outer end of the high performance memory 1, a plurality of data processors 4 electrically connected to an outer end of the modification converter 3, the modification converter 3 including a data retrieving unit, a data analyzing unit electrically connected to an outer end of the data retrieving unit, a data re-modifying unit electrically connected to an outer end of the data analyzing unit, a modification input unit electrically connected to an outer end of the data re-modifying unit, a data sorting unit electrically connected to an outer end of the data sorting unit, a modification output unit electrically connected to an outer end of the modification converter 3, a data input line 5 electrically connected to the modification input unit fixedly connected to an outer end of the modification converter 3, a plurality of temporary classification memories 6 uniformly distributed and electrically connected to the data sorting unit installed in the modification converter, the outer end of the modification converter 3 is fixedly connected with a plurality of data output lines 7 which are uniformly distributed and are respectively and electrically connected with the modification output unit, the big data 2 in the high-performance storage 1 is subjected to data analysis through the modification converter 3, the shortcut of the big data 2 is made by the data reconstruction unit, the obtained shortcut is input into the temporary classification storage 6 through the modification input unit and is temporarily stored, the modification data is classified and output to each data processor 4 through the modification output unit, and the data processor 4 can be processed by transmitting the shortcut by virtue of the characteristic that the shortcut of the data folder occupies small memory, so that the high requirement on the memory of the data processor 4 is reduced, meanwhile, by virtue of the characteristic that the shortcut has small memory, the memory occupation amount of the data processor 4 can be reduced, and the processing and operation speed of the whole data processor 4 is improved, thereby improving the efficiency of processing big data.

Referring to fig. 3-7, the data output line 7 includes a first data line 8 and a second data line 9, a pair of contact terminals 10 are fixedly connected to ends of the first data line 8 and the second data line 9 close to each other, the contact terminals 10 contact each other two by two, an outer protective frame 11 is sleeved on outer ends of the first data line 8 and the second data line 9, inner fixing rings 12 located in the outer protective frame 11 are fixedly connected to outer ends of the first data line 8 and the second data line 9, a pair of outer heat absorbing balloons 13 are bolted in the inner fixing rings 12, ammonium chloride powder is filled in the outer heat absorbing balloons 13, a plurality of uniformly distributed adiabatic magnetic bulges 14 are fixedly connected to an inner wall of the outer heat absorbing balloons 13, inner magnetic balls 15 are disposed in the outer heat absorbing balloons 13, heat transfer holes 16 are drilled at ends of the two inner fixing rings 12 close to each other, deformation disks 17 located outside the heat transfer holes 16 are fixedly connected to the inner fixing rings 12, the internal fixedly connected with of outer heat absorption sacculus 13 is located the built-in draw gear 18 of built-in magnet ball 15 upside, when fingerprint identification fails, can impel the local heat of first data line 8 and second data line 9 junction to increase, thereby impel deformation disk 17 to resume its high temperature phase state, make deformation disk 17 inside appear the through-hole, thereby make the heat transfer to outer heat absorption sacculus 13, and along with the decomposition of the ammonium chloride powder in outer heat absorption sacculus 13, force outer heat absorption sacculus 13 inflation, thereby relieve the shielding state to built-in magnet ball 15, make two built-in magnet balls 15 of built-in fixed ring 12 repel each other with this, and drive first data line 8 and second data line 9 and twist, make the contact terminal 10 of its outer end stagger each other, realize the interrupt when modifying data transmission, with this security when improving data transmission.

Referring to fig. 5-6, the built-in traction device 18 includes an elastic connection rope 19 fixedly connected to one of the magnetic isolation protrusions 14, a deformable air bag 20 is fixedly connected to the bottom end of the elastic connection rope 19, a plurality of uniformly distributed micro-fluff 21 is fixedly connected to the outer end of the deformable air bag 20, the micro-fluff 21 is made of 400-stainless steel, the built-in traction device 18 can be used for screening ammonium chloride powder in the outer heat absorption air bag 13 when the outer heat absorption air bag is expanded, the micro-fluff 21 is made of 400-stainless steel, and the elastic connection rope 19 can be straightened under the magnetic attraction effect of the built-in magnet ball 15 on the micro-fluff 21, so that the screening efficiency of ammonium chloride powder is improved.

Referring to fig. 3-4 and 7, a plurality of fingerprint identification devices are mounted at the outer end of the modification converter 3, the fingerprint identification devices are electrically connected with the temporary classification memory 6 and the data output line 7 respectively, and by disposing the fingerprint identification devices at the outer end of the modification converter 3, the confidentiality of data transmission can be improved, data can be transmitted and processed only after the data are authorized, the ends, close to each other, of the first data line 8 and the second data line 9 are fixedly connected with supporting end pieces 801, the ends, close to each other, of the two supporting end pieces 801 are provided with spherical grooves, balls are rotatably connected in the spherical grooves, through the arrangement of the supporting end pieces 801, the possibility that the first data line 8 and the second data line 9 are not easy to reset after being staggered can be reduced, and the possibility that the supporting end pieces 801 are blocked when rotating mutually can be reduced by arranging the spherical grooves and the balls.

Referring to fig. 4 and 7, the magnetism-insulating protrusion 14 is made of Fe-Ni alloy, the Ni content in the magnetism-insulating protrusion 14 is 80%, when the magnetism-insulating protrusion 14 is made of Fe-Ni alloy, the magnetic-insulating protrusion 14 can be tightly abutted, so that the internal magnet ball 15 is in a magnetic shielding state, and the first data line 8 and the second data line 9 can be conveniently reset, the deformable wafer 17 is made of Ni-Ti memory alloy material, the deformation temperature of the deformable wafer 17 is 40 ℃, and when the deformable wafer 17 is made of Ni-Ti memory alloy material, the deformable wafer 17 can be restored to a ring shape at high temperature, so that the generated heat can enter the internal fixing ring 12 to heat the external heat-absorbing balloon 13.

Please refer to fig. 6, 19 outer ends fixedly connected with of elastic connection rope sieves 1901, the mesh aperture of sieving sieves 1901 is the same with the particle diameter of ammonium chloride powder, can improve the screening effect to the ammonium chloride powder through setting up sieving sieves 1901, thereby improve the decomposition efficiency of ammonium chloride powder, deformation gasbag 20 is inside to be filled with carbon dioxide gas, through set up carbon dioxide in deformation gasbag 20, can be so that deformation gasbag 20 is heated and expands fast, thereby improve the effect of scattering to stirring of ammonium chloride powder.

A use method of a big data modification classification transmission processing system comprises the following steps:

s1, carrying out data analysis on the big data 2 in the high-performance memory 1 through the modification converter 3, and making a shortcut of the big data 2 by the data reconstruction unit;

s2, inputting the obtained shortcut into the temporary classification memory 6 through the modification input unit and temporarily storing the shortcut;

and S3, outputting the modified data to each data processor 4 by classification through the modified output unit, and transmitting the shortcut to the data processor 4 for processing by virtue of the characteristic that the shortcut of the data folder occupies a small memory.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. A big data modification classification transmission processing system comprises a high-performance memory (1), wherein big data (2) is stored in the high-performance memory (1), and the big data modification classification transmission processing system is characterized in that: the outer end of the high-performance memory (1) is electrically connected with a modification converter (3), the outer end of the modification converter (3) is electrically connected with a plurality of data processors (4), the modification converter (3) comprises a data retrieval unit, the outer end of the data retrieval unit is electrically connected with a data analysis unit, the outer end of the data analysis unit is electrically connected with a data reconstruction unit, the outer end of the data reconstruction unit is electrically connected with a modification input unit, the outer end of the modification input unit is electrically connected with a data storage unit, the outer end of the data storage unit is electrically connected with a modification output unit, the outer end of the modification converter (3) is fixedly connected with a data input line (5) which is electrically connected with the modification input unit, a plurality of temporary classification memories (6) which are uniformly distributed and are electrically connected with the data storage unit are installed in the modification converter (3), the outer end of the modified converter (3) is fixedly connected with a plurality of data output lines (7) which are uniformly distributed and are respectively and electrically connected with the modified output unit.

2. The big data modification classification transmission processing system according to claim 1, wherein: the data output line (7) comprises a first data line (8) and a second data line (9), one end of the first data line (8) and one end of the second data line (9) which are close to each other are fixedly connected with a pair of contact ends (10), the contact ends (10) are in contact with each other in pairs, the outer ends of the first data line (8) and the second data line (9) are sleeved with an outer protection frame (11), the outer ends of the first data line (8) and the second data line (9) are fixedly connected with a built-in fixing ring (12) which is positioned in the outer protection frame (11), a pair of outer heat absorption balloons (13) are bolted in the built-in fixing ring (12), the outer heat absorption balloons (13) are filled with ammonium chloride powder, the inner wall of the outer heat absorption balloons (13) is fixedly connected with a plurality of uniformly distributed magnetic insulation bulges (14), and built-in magnetic iron balls (15) are arranged in the outer heat absorption balloons (13), two heat transmission holes (16) are all dug to the one end that built-in solid fixed ring (12) are close to each other, the deformation disk (17) that built-in solid fixed ring (12) outer end fixedly connected with is located the heat transmission hole (16) outside, fixedly connected with is located built-in draw gear (18) of built-in magnet ball (15) upside in outer heat absorption sacculus (13).

3. The big data modification classification transmission processing system according to claim 2, wherein: the built-in traction device (18) comprises an elastic connection rope (19) fixedly connected with one of the magnetism-insulating bulges (14), the bottom end of the elastic connection rope (19) is fixedly connected with a deformation air bag (20), the outer end of the deformation air bag (20) is fixedly connected with a plurality of micro-fluff (21) which are uniformly distributed, and the micro-fluff (21) is made of 400-stainless steel.

4. The big data modification classification transmission processing system according to claim 2, wherein: a plurality of fingerprint identification devices are installed to modified converter (3) outer end, fingerprint identification device respectively with interim classification memory (6) and data output line (7) electric connection.

5. The big data modification classification transmission processing system according to claim 2, wherein: the equal fixedly connected with in one end that first data line (8) and second data line (9) are close to each other supports end piece (801), two the one end that supports end piece (801) and be close to each other all excavates spherical groove, the spherical inslot internal rotation is connected with the ball.

6. The big data modification classification transmission processing system according to claim 2, wherein: the magnetism isolating protrusion (14) is made of Fe-Ni alloy, and the Ni content in the magnetism isolating protrusion (14) is 80%.

7. The big data modification classification transmission processing system according to claim 2, wherein: the deformation wafer (17) is made of Ni-Ti memory alloy materials, and the deformation temperature of the deformation wafer (17) is 40 ℃.

8. The big data modification classification transmission processing system according to claim 3, wherein: the outer end of the elastic connecting rope (19) is fixedly connected with a plurality of screening filter screens (1901) which are uniformly distributed, and the aperture of the meshes of the screening filter screens (1901) is the same as the particle size of the ammonium chloride powder.

9. The big data modification classification transmission processing system according to claim 3, wherein: the inside of the deformation air bag (20) is filled with carbon dioxide gas.

10. The use method of the big data modification classification transmission processing system according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s1, carrying out data analysis on the big data (2) in the high-performance memory (1) through the modification converter (3), and making a shortcut of the big data (2) by means of a data reconstruction unit;

s2, inputting the obtained shortcut into a temporary classification memory (6) through a modification input unit and temporarily storing the shortcut;

and S3, outputting the modified data to each data processor (4) in a classified manner through the modified output unit, and transmitting the shortcut to the data processor (4) for processing by virtue of the characteristic that the shortcut of the data folder occupies a small memory.

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