CN116882893A - Factory inventory goods management system based on GPGPU chip - Google Patents

Abstract

The invention discloses a factory inventory goods management system based on GPGPU chips, which can be loaded on a computer with a processor to realize the factory inventory goods management system, and comprises the processor, a warehouse-in unit, a warehouse-out unit and a management unit. The beneficial effects of the invention are as follows: according to the invention, the warehouse entry, the warehouse exit and the warehouse cargo types and states of the factory cargos are classified in detail, so that the warehouse entry and exit types, the warehouse quantity and the warehouse cargo states of the cargos in the warehouse can be accurately identified, and unified records are carried out, thereby improving the management efficiency of the cargos in the factory warehouse, further improving the factory production efficiency, facilitating the formulation of a production plan of a factory production end, and simultaneously checking the warehouse cargo states at any time when the cargos are stored, thereby realizing the on-line inventory of the warehouse cargos, further improving the grasp of warehouse management personnel on the warehouse cargo types, quantity and states, further assisting the production end in increasing the factory efficiency and facilitating the shipment arrangement of the shipment end.

Description

Factory inventory goods management system based on GPGPU chip

Technical Field

The invention relates to the technical field of warehousing, in particular to a factory inventory goods management system based on GPGPU chips.

Background

The warehouse is a comprehensive place for reflecting the material activity condition of factories and is a transfer station for connecting production, supply and sales, and plays an important auxiliary role in promoting production and improving efficiency. The storage is to temporarily store the products and the articles due to the prepositioning of orders or the prepositioning of market prediction in the production and circulation process of the products. Meanwhile, the accurate information of clear and accurate report forms, bill accounts and accounting departments are simultaneously carried out around the activities of the storage entities, so that the storage is the integration of logistics, information flow and document flow, and the storage management is a direct reaction point of factory production conditions and problems. In the prior art, during warehouse management of most factories, the types and the quantity of the warehouse goods are counted only by manpower, and for some large warehouses, errors are easy to occur by manually counting the types and the quantity of the warehouse goods, so that the types and the quantity of the goods in the warehouses are deviated, thereby causing disorder of warehouse goods management, inaccurate warehouse-out and warehouse-in information, failing to make a detailed production plan, and unknown types and quantity of the warehouse goods, further causing the failure of timely delivery of the factories and causing direct and indirect economic losses.

Disclosure of Invention

The invention aims to provide a factory inventory goods management system based on GPGPU chips, which can accurately identify the types, the quantity and the states of goods in and out of a warehouse and uniformly record the types, the quantity and the states of the goods in the warehouse by classifying the types and the states of the goods in the warehouse, so that the management efficiency of the goods in the warehouse of the factory is improved, the factory production efficiency is improved, the factory production end is convenient for making production plans, the problems that in the prior art, the types and the quantities of the goods in, out and stored in the warehouse are counted only manually, and for some large warehouses, errors are easy to occur by counting the types and the quantities of the goods in the warehouse manually, so that the warehouse goods management is disordered, the information of the warehouse is inaccurate, the detailed production plan cannot be made, the types and the quantity of the goods are unknown, and the factory cannot be delivered timely, and direct and indirect economic losses are caused are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the system can be loaded on a computer with a processor to realize the factory inventory goods management system based on GPGPU chips, and comprises the processor, a warehouse-in unit, an inventory unit, a warehouse-out unit and a management unit, wherein the warehouse-in unit is provided with an order management module, a production management module, a first identification module and a conveying management module, the inventory unit is provided with a warehouse-in management module, a warehouse-out management module, an inventory identification module and a quantity management module, the warehouse-out unit is provided with a warehouse-out management module, a second identification module and a registration identification module, the management unit is provided with a database, an input module, a control module, a signal transmission module and a query module, and the storage identification module in the inventory unit is configured as a plurality of cameras with GPGPU chips, and the quantity management module is configured as a plurality of counting sensors.

As a further scheme of the invention: the warehouse entry management module in the inventory unit is provided with an information input device and an information confirmation chip, when the goods enter the warehouse, the goods quantity is cleared through manual point counting and equipment counting, meanwhile, the type and the state of the goods are recorded through a camera, after confirmation, the goods quantity and the goods state are input through the input device, and the quantity and the state of the goods are reviewed through the confirmation chip.

As still further aspects of the invention: the warehouse-out management module in the stock unit is provided with an information input device and an information confirmation chip, the warehouse-out information confirmation chip is arranged on personal intelligent equipment of logistics personnel, and after warehouse management personnel checks the number of the warehouse-out goods and determines the types and states of the goods, the warehouse-out logistics personnel rechecks the number and states of the warehouse-out goods to ensure the number and states of the warehouse-out goods.

As still further aspects of the invention: the inventory management module is configured as a warehouse manager management module, and is in signal connection with the warehouse entry and exit management module, the warehouse exit management module, the inventory identification module and the quantity management module through wireless signals.

As still further aspects of the invention: the first identification module in the warehousing unit is configured as a first quality inspection module of the goods, the delivery management module in the warehousing unit is configured as a goods delivery process recording module, the registration in the warehousing unit is a hinged registration module configured as a warehousing unit and an ex-warehouse unit, the registration identification module is used for registering and identifying the quantity, the type and the state of the goods output by the warehousing unit, and when the goods enter the warehousing unit through the warehousing unit, the registration identification module is used for monitoring the goods output by a warehousing single person and registering the quantity of the goods.

As still further aspects of the invention: the delivery management module in the delivery unit is configured as a detection and recording module for the quantity of the delivered goods, and the second identification unit in the delivery unit is configured as a goods state rechecking unit.

As still further aspects of the invention: the database in the management unit is a data storage unit of the system and comprises warehouse-in data, warehouse-out data and warehouse-in data, wherein the warehouse-in data in the database is in signal connection with the warehouse-in unit, the warehouse-out data in the database is in signal connection with the warehouse-in unit, and the warehouse-out data in the database is in signal connection with the warehouse-out unit.

As still further aspects of the invention: the input module in the management unit is configured as an automatic and manual data, picture and image input module, the control module in the management unit is configured as an electric equipment control terminal, the query module in the management unit is configured as a data query verification module, and the query module is in signal connection with the database.

As still further aspects of the invention: the warehouse-in unit, the inventory unit, the warehouse-out unit and the management unit are all in signal connection with the processor.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the warehouse entry, the warehouse exit and the warehouse cargo types and states of the factory cargos are classified in detail, so that the warehouse entry and exit types, the warehouse quantity and the warehouse cargo states of the cargos in the warehouse can be accurately identified, and unified records are carried out, thereby improving the management efficiency of the cargos in the factory warehouse, further improving the factory production efficiency, facilitating the formulation of a production plan of a factory production end, and simultaneously checking the warehouse cargo states at any time when the cargos are stored, thereby realizing the on-line inventory of the warehouse cargos, further improving the grasp of warehouse management personnel on the warehouse cargo types, quantity and states, further assisting the production end in increasing the factory efficiency and facilitating the shipment arrangement of the shipment end.

Drawings

FIG. 1 is a schematic diagram of a system architecture of the present invention;

FIG. 2 is a schematic diagram of signal connection of the system according to the present invention;

FIG. 3 is a schematic flow chart of the warehouse entry unit in the present invention;

FIG. 4 is a schematic flow chart of the stock keeping unit in the present invention;

FIG. 5 is a schematic flow chart of the warehouse-out unit in the present invention;

fig. 6 is a schematic flow chart of the control unit in the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "one end", "one side", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The traditional warehouse is to utilize warehouse to carry out the warehouse entry, storage and delivery activities of articles to various materials and related facility equipment. Modern warehousing refers to adding links of in-warehouse processing, sorting, in-warehouse packaging and the like on the basis of traditional warehousing. Storage is one of the important links of production and manufacture and commodity circulation, and is also an important link of logistics activities. The goods management in the warehouse is clear and clear, can effectively solve the contradiction point between the production end and the delivery end, can assist the production end to make a production plan according to the order, can assist the delivery end to carry out efficient and quick goods delivery, reduces the intermediate transportation time, saves the beginning, and improves the efficiency of goods delivery into and delivery out of the warehouse.

Referring to fig. 1 and 2, the system includes the following sub-modules:

1. and (3) warehouse entry management:

the goods receiving, quality inspection and loading processes are complete, quality inspection and then goods receiving are supported, a multi-scene goods receiving strategy is dynamically set, the PDA equipment is supported to execute warehousing operation, target warehouse positions are obtained according to the goods loading strategy, goods are conveyed to specified positions by a manual/AGV, and warehouse position label binding is completed.

2. And (3) warehouse-out management:

the processes of goods-building, packing and boxing are complete, the factory warehouse-in and warehouse-out management system issues a warehouse-out task, the unmanned workshop management service issues an AGV scheduling instruction according to the warehouse-out task, and the AGV goes to a specified warehouse location according to a specified line to acquire goods and sends the goods to a specified warehouse-out area. When the PDA equipment is matched for scanning and auditing, an alarm is sent out and the personnel in the warehouse manage timely process the data, and then the data is sent to the system to update the database to finish the warehouse discharging.

3. Inventory management:

the factory in-out management system creates and checks, a warehouse manager checks the checking task through the mobile terminal, goes to a designated checking place, performs cargo checking scanning by using the PDA, compares the cargo checking scanning with information in the database, displays real-time difference information at the mobile terminal, provides checking staff with checking, and checks the checked information with the database information of the background to generate a checking table.

4. Visual library management:

and displaying the warehouse position information in a visual mode, and displaying the stock condition of each warehouse position in an actual plan mode. Utilize workshop billboard, workstation, operation panel or even handheld mobile terminal to look over, help all kinds of crowd to know each storehouse position stock information in real time

5. Data statistical analysis:

the factory warehouse-in and warehouse-out management system automatically stores inventory snapshots and real-time change conditions at regular intervals for checking, counting personnel operation conditions in detail and providing data support for performance assessment and task quantity adjustment.

6. Early warning management:

and providing early warning of a near-term effect, early warning of low turnover, early warning of overtime of a bill, early warning of emergency task blocking and early warning of upper and lower limit thresholds of stock.

Thereby realizing the following advantages of factory warehouse stock goods management:

1. the time and labor are saved, and the accuracy is high;

the mutual dependence and restriction of stock, production and sales determine the turnover rate of stock, and the stock restricts the sales and production of enterprises, so that the enterprises can normally operate only by managing each link properly, and more profits are obtained. The traditional warehouse management relies on staff memory and experience, so that the error rate is higher, the first-in first-out is performed strictly without intention, the task arrangement of staff is sometimes unreasonable, various operation routes are not planned, the error is easy to occur due to manual work, the inventory is inaccurate, inventory checking is inaccurate, the factory ex-warehouse management system is used for reasonably and normally managing the inventory, the dependence on people is reduced, the inventory accuracy is high, the code management goods are added, and the first-in first-out can be strictly performed. And the risk of overdue products in the warehouse is avoided. Not only reduces the pressure of the warehouse closing personnel, but also improves the inventory accuracy, and is a great advantage for the warehouse closing personnel;

2. base layer manager, convenient inquiry and management:

after the factory warehouse-in and warehouse-out management system is used, management is more standard, commodity warehouse-in and warehouse-out are input into the system, the probability of manual error is reduced, accounts of the warehouse can be real-time, synchronous and visual, teaching inquiry and checking are convenient, the problem of incomplete warehouse data is avoided, and meanwhile, the problem of dull materials caused by backlog is avoided. The pipe closing personnel has good responsibility on the parting surface, the on-site operation progress is visualized, and the labor efficiency of the personnel can be improved. The inventory goods ABC are classified in time, so that the goods picking personnel can conveniently process the inventory goods ABC. Meanwhile, the dynamic warehouse can be known, and timely and effective replenishment can be performed;

3. the enterprise provides references for decisions:

the factory warehouse-in and warehouse-out management system can communicate upstream and downstream information of a supply chain, so that effective communication can be timely carried out on reservation of raw material purchasing and logistics companies, and smoothness of the information is ensured. Meanwhile, the factory warehouse-in and warehouse-out management system has important significance for building a group unified information storage platform after the expansion of enterprises. On the other hand, the warehouse and sales are synchronous in real time, and the factory warehouse-in and warehouse-out management system can timely convert the warehouse-in and warehouse-out teaching data into market information so as to provide decision basis for relevant managers. Through the factory in-out warehouse management system, the inventory condition and the sales condition of commodities in the enterprise can be known, and the enterprise can make better decisions.

The end point of the digitization, i.e. the checking goal, is whether the business model creates innovations, which not only refer to the white transition from a traditional financial service enterprise to a education and technological company ", but also refer to the optimization and change of business models that can promote the growth of company performance, such as from offline to online and from a single channel to a full channel.

Referring to fig. 1, in an embodiment of the present invention, a factory inventory cargo management system based on a GPGPU chip may be loaded on a computer having a processor, where the system includes a processor, a warehouse unit, an inventory unit, an ex-warehouse unit, and a management unit, the warehouse unit is provided with an order management module, a production management module, a first identification module, and a delivery management module, the inventory unit is provided with an in-warehouse management module, an ex-warehouse management module, an inventory identification module, and a quantity management module, the ex-warehouse unit is provided with an ex-warehouse management module, a second identification module, and a registration identification module, the management unit is provided with a database, an input module, a control module, a signal transmission module, and a query module, the storage identification module in the inventory unit is configured as a plurality of cameras having GPGPU chips, and the quantity management module is configured as a plurality of counting sensors.

When the system is used for managing the goods in the warehouse in the factory, the whole process from warehousing and inventory to ex-warehouse monitoring and detection is carried out by loading the device, so that the control degree of the goods in the warehouse is improved, and the warehouse management efficiency is improved.

The management method and the process are as follows:

loading the system on intelligent equipment of a production end, a warehouse management end, a warehouse outlet end and a management end, when a factory receives a production order, detecting the inventory quantity of the order goods by an order management module through a coordination inventory unit, and simultaneously comparing the inventory quantity of the order goods with the warehouse outlet unit, wherein the final production quantity is as follows:

production quantity = order quantity-stock quantity + stock quantity

After the production quantity is determined, the production is carried out through the production end, the goods or products among the composites are transported into the warehouse, the goods or products are identified through the registration identification module of the production end, further the warehousing is completed, the types, the quantity and the states of the products or the goods are recorded through the warehousing management module, the warehouses are completed after the records are completed, and the goods or the products in the warehouse are detected in real time through the inventory management module and the inventory identification module in the inventory unit.

When goods or products in a warehouse need to be delivered, the model and the quantity of the goods or the products in the warehouse are acquired through a delivery unit, the goods or the products are acquired through a warehouse management module, when the goods are acquired through the warehouse management module, the signals, the quantity and the states of the goods in the warehouse are detected, the occurrence of the problems of low qualification rate and the like caused by damage of the goods in the warehouse is avoided, after the goods are acquired through the warehouse management module, the goods are delivered to a delivery person, the delivery person receives and acquires the goods, and the model, the quantity and the states of the goods are checked at the first time, so that the goods delivery is ensured to be not in measure, and the goods delivery management module and the delivery management module record the goods, so that the goods in the factory and the goods in the warehouse are bidirectionally recorded and bidirectionally checked, the errors of the stock are avoided, and the production efficiency of the factory is improved.

Wherein two parts of warehousing records for producing goods or products are respectively recorded in a registration identification module of the warehousing unit and a warehousing management module of the warehousing unit,

the warehouse entry management module in the inventory unit is provided with an information input device and an information confirmation chip, when the goods enter the warehouse, the goods quantity is cleared through manual counting and equipment counting, meanwhile, the type and the state of the goods are recorded through a camera, after confirmation, the goods quantity and the goods state are input through the input device, and the quantity and the state of the goods are reviewed through the confirmation chip.

The warehouse-out management module in the stock unit is provided with an information input device and an information confirmation chip, the warehouse-out information confirmation chip is arranged on personal intelligent equipment of logistics personnel, and after warehouse management personnel checks the number of the warehouse-out goods and determines the types and states of the goods, the warehouse-out logistics personnel rechecks the number and states of the warehouse-out goods, so that the number and states of the warehouse-out goods are ensured.

The inventory management module is configured as a warehouse manager management module, and is in signal connection with the warehouse entry management module, the warehouse exit management module, the inventory identification module and the quantity management module through wireless signals.

The first identification module in the warehousing unit is configured as a first quality inspection module of the goods, the delivery management module in the warehousing unit is configured as a goods delivery process recording module, the registration in the warehousing unit is a hinged registration module configured as a warehousing unit and an ex-warehouse unit, the registration identification module is used for registering the quantity, the type and the state of the goods output by the warehousing unit, and when the goods enter the warehousing unit through the warehousing unit, the registration identification module is used for monitoring the goods output by a warehouse entry personnel and registering the quantity of the goods.

The delivery management module in the delivery unit is configured as a detection and recording module for the quantity of the delivered cargoes, and the second identification unit in the delivery unit is configured as a cargo state rechecking unit.

The database in the management unit is a data storage unit of the system and comprises warehouse-in data, warehouse-in data and warehouse-out data, the warehouse-in data in the database is in signal connection with the warehouse-in unit, the warehouse-in data in the database is in signal connection with the warehouse-out unit, and the warehouse-out data in the database is in signal connection with the warehouse-out unit.

The input module in the management unit is configured as an automatic and manual data and picture and image input module, the control module in the management unit is configured as an electric equipment control terminal, the query module in the management unit is configured as a data query verification module, and the query module is in signal connection with the database.

Texture mapping is also a critical concept in GPGPUs. The principle of implementing a classical GPGPU by a graphics API can be summarized as: scientific computation implemented with texture mapping.

All the calculated data in the GPGPU is saved in the texture. For example, a one-dimensional array of length 16 would require a texture of 2 x 2 to be built up in the GPGPU, so that the texture would have 4 pixels, each pixel containing R, G, B, A four color components, for a total of 16 data.

Specific data manipulation requires a process of transferring each set of data from memory (referred to herein as computer memory) to video memory (referred to herein as graphics card memory) to create the memory, and transferring the data to a texture, where the data is represented by a color value, which may be a component, or multiple components, of the color value of each pixel in the texture, to see the specific design.

After creating the FBO and setting our subsequent dye to this FBO, it is also necessary to define a concept-dye-texture "(Render to Texture), where RTT and baking in three-dimensional modeling (Baker) are not a concept. Since we need a calculated result data, which is stored in a texture in the video memory, the final rendering result of the GPGPU is a texture containing the calculation result, so RTT here means that we create a result texture and bind it to the FBO, letting the GPU "render" (or, this can be understood as "calculate" to the texture, so that the color value of each pixel in the result texture is combined to be the array of calculation results we need).

The system is used for digitally managing the factory stock goods, thereby realizing the following characteristics of factory warehouse management

1. Work task crossover: work inventory management system indicates task intersection in a work environment that includes a comprehensive of all work tasks of a warehouse, e.g., the next work step immediately after loading in a region should be pick-up, result? The operation efficiency is greatly improved. The return carts designated for loading, picking and restocking are almost never in operation.

2. The allocation work is based on the task priority, the characteristics of workers and equipment, the characteristics of each area of the warehouse and the connection between the tasks and the workers. As long as you want to do something, the tasks accepted by the workers are more preferential and closer to the current position of the workers through the system arrangement. As a result, shuttle time is reduced, eliminating inefficient movement.

3. Indicating the preferred repository location, the saved repository space. The factory inventory management system tracks the goods by comprehensive data such as serial numbers, dates, warehouse areas, containers and the like. According to the information factory inventory management system, workers are instructed to put on shelves, replenish and pick up goods, so that automatic turnover and combination are performed in an ideal mode on the basis of meeting the warehouse requirements of the warehouse.

4. And updating the data of the warehouse in real time and on line. Before you make a great decision, you need to consult the availability, receiving goods, putting on shelf, taking goods, supplementing goods, shipping, manpower utilization rate and other teaching data, and you can get the information updated in real time and correct in the system.

Through the characteristics, the following advantages of factory warehouse inventory goods management are realized:

1. improving the working efficiency

The probability of error occurrence in the warehouse operation process is reduced, the data acquisition is timely, the process is accurately managed, and the intelligent guiding is automated. The factory inventory management system supports the combination of bar code scanning and RFID technology, so that cargo information is collected and input into the system more rapidly and accurately, and the generated information basis provides a reliable basis for the tracing of data information of a warehouse in the future.

2. Facilitating real-time control

The goods information is presented in the computer, so that the state and the stock quantity of the storage materials in the warehouse can be monitored in real time, and management staff can be helped to make a correct decision through reliable data analysis. Sending the goods information

Higher revenue-generating value is volatilized.

3. Warehouse information management

Through the management of warehouse informatization, the related warehouse operation standard is established, the information bottleneck of the past warehouse enterprises is broken, the information technology is penetrated in warehouse management, and the 'bucket theory' is broken through to complement the enterprise development short plates.

The digitized construction is required to be seen in value, the digitized construction is required to be placed at a strategic high level of an enterprise, and the digitized construction placed at a high level of each department can be T-shaped construction at best, so that the digitized construction is not difficult to explain why many traditional enterprises do the digitized construction at all times, but the effect is flat and no curiosity, and the reason of value achievement is difficult to see.

The warehouse-in unit, the warehouse-out unit and the management unit are all in signal connection with the processor.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. The factory inventory goods management system based on the GPGPU chip can be loaded on a computer with a processor to realize, and comprises the processor, a warehouse-in unit, a warehouse-out unit and a management unit, and is characterized in that: the warehouse-in unit is provided with an order management module, a production management module, a first identification module and a conveying management module, the warehouse-in unit is provided with a warehouse-in management module, a warehouse-out management module, a warehouse identification module and a quantity management module, the warehouse-out unit is provided with a warehouse-out management module, a second identification module and a registration identification module, the management unit is provided with a database, an input module, a control module, a signal transmission module and a query module, the storage identification module in the warehouse-in unit is configured as a plurality of cameras with GPGPU chips, and the quantity management module is configured as a plurality of counting sensors.

2. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the warehouse entry management module in the inventory unit is provided with an information input device and an information confirmation chip, when the goods enter the warehouse, the goods quantity is cleared through manual point counting and equipment counting, meanwhile, the type and the state of the goods are recorded through a camera, after confirmation, the goods quantity and the goods state are input through the input device, and the quantity and the state of the goods are reviewed through the confirmation chip.

3. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the warehouse-out management module in the stock unit is provided with an information input device and an information confirmation chip, the warehouse-out information confirmation chip is arranged on personal intelligent equipment of logistics personnel, and after warehouse management personnel checks the number of the warehouse-out goods and determines the types and states of the goods, the warehouse-out logistics personnel rechecks the number and states of the warehouse-out goods to ensure the number and states of the warehouse-out goods.

4. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the inventory management module is configured as a warehouse manager management module, and is in signal connection with the warehouse entry and exit management module, the warehouse exit management module, the inventory identification module and the quantity management module through wireless signals.

5. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the first identification module in the warehousing unit is configured as a first quality inspection module of the goods, the delivery management module in the warehousing unit is configured as a goods delivery process recording module, the registration in the warehousing unit is a hinged registration module configured as a warehousing unit and an ex-warehouse unit, the registration identification module is used for registering and identifying the quantity, the type and the state of the goods output by the warehousing unit, and when the goods enter the warehousing unit through the warehousing unit, the registration identification module is used for monitoring the goods output by a warehousing single person and registering the quantity of the goods.

6. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the delivery management module in the delivery unit is configured as a detection and recording module for the quantity of the delivered goods, and the second identification unit in the delivery unit is configured as a goods state rechecking unit.

7. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the database in the management unit is a data storage unit of the system and comprises warehouse-in data, warehouse-out data and warehouse-in data, wherein the warehouse-in data in the database is in signal connection with the warehouse-in unit, the warehouse-out data in the database is in signal connection with the warehouse-in unit, and the warehouse-out data in the database is in signal connection with the warehouse-out unit.

8. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the input module in the management unit is configured as an automatic and manual data, picture and image input module, the control module in the management unit is configured as an electric equipment control terminal, the query module in the management unit is configured as a data query verification module, and the query module is in signal connection with the database.

9. The GPGPU chip-based factory inventory cargo management system of claim 1, wherein: the warehouse-in unit, the inventory unit, the warehouse-out unit and the management unit are all in signal connection with the processor.