CN111988296A - Computing power equipment overclocking method, server and storage medium - Google Patents
Computing power equipment overclocking method, server and storage medium Download PDFInfo
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Abstract
The invention discloses a computing power equipment overclocking method, a server and a storage medium, belonging to the technical field of computing power equipment, wherein the method comprises the following steps: after receiving a user request, sending an overclocking instruction of the computing power equipment operation rate based on a first configuration file to a client, wherein the client receives a compressed package file name and a secret key of the computing power equipment to be overclocked; downloading the compressed package file corresponding to the compressed package file name from a preset storage file library to obtain a compressed package file; decrypting the compressed package file by using the key to obtain a second configuration file corresponding to the to-be-overfrequency computing device; and finally, covering the second configuration file with the first configuration file in the computing power equipment to be subjected to the overclocking to realize the overclocking. According to the method and the device, the current first configuration file is covered by the obtained second configuration file corresponding to the power calculation device to be overfrequency, so that the calculation function of the power calculation device is further optimized and improved, the operation efficiency of the power calculation device is improved, and more user requirements are met.
Description
Technical Field
The invention belongs to the technical field of computing power equipment, and particularly relates to a computing power equipment over-frequency method, a server and a storage medium.
Background
With the continuous upgrading of the technology development, computing equipment with different computing functions is developed. The computing equipment usually keeps conservative operation in consideration of the safety of the whole machine, so that a plurality of built-in chips of the computing equipment are not used in a coordinated manner, and the computing function of the computing equipment is not fully utilized due to the plurality of idle chips, and the operation efficiency is not high.
Therefore, it is necessary to further optimize and improve the computing functions of computing power equipment of different models to improve the operating efficiency of the computing power equipment and meet the requirements of different users.
Disclosure of Invention
The invention provides an over-frequency method of computing power equipment, a server and a storage medium, and solves the problems that computing functions of different computing power equipment cannot be fully utilized, the operation efficiency is not high, and the user requirements are difficult to meet.
In order to achieve the above object, the present invention provides a computing power equipment over-clocking method, which is suitable for a server, and comprises:
after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file;
sending a request according to the over-frequency instruction, and receiving a compressed package file name of the computing equipment to be over-frequency and a key corresponding to a compressed package file where the compressed package file name is located by the client;
the client downloads a compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
the client decrypts the downloaded compressed package file by using the secret key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and
and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
Preferably, after the client sends a request according to the over-frequency instruction,
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
Preferably, the first configuration file or the second configuration file includes, but is not limited to, parameters of IP, chip size, power consumption, voltage, temperature, operation time, rotation speed, and frequency of the computing device.
Preferably, the step of establishing the preset storage file library includes:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
In addition, to achieve the above object, the present invention further provides a server, including a memory and a processor, where the memory stores an computing power over-clocking program operable on the processor, and the computing power over-clocking program implements the following steps when executed by the processor:
a request step: after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file;
a receiving step: sending a request according to the over-frequency instruction, and receiving a compressed package file name of the computing equipment to be over-frequency and a key corresponding to a compressed package file where the compressed package file name is located by the client;
a downloading step: the client downloads a compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
and (3) decryption: the client decrypts the downloaded compressed package file by using the secret key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and
covering: and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
Preferably, the receiving step comprises:
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
Preferably, the first configuration file or the second configuration file includes, but is not limited to, parameters of IP, chip size, power consumption, voltage, temperature, operation time, rotation speed, and frequency of the computing device.
Preferably, the step of establishing the preset storage file library includes:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
In addition, in order to achieve the above object, the present invention further provides a computer-readable storage medium, where the computer-readable storage medium includes a power calculation performance enhancing program, and when the power calculation performance enhancing program is executed by a processor, the power calculation performance enhancing method according to any one of the above aspects can be implemented.
The invention provides a power calculation equipment overclocking method, a server and a storage medium, wherein a power calculation equipment overclocking instruction is sent to a client after a user request is received, wherein the running speed of the power calculation equipment is based on a current first configuration file; the client receives a compressed package file name and a key of the computing power equipment to be overfrequied; the client downloads the compressed package file corresponding to the compressed package file name from a preset storage file library according to the acquired compressed package file name; decrypting the compressed package file by using the key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and finally, covering the second configuration file with the first configuration file in the force computing equipment to be subjected to overclocking, so as to realize overclocking of the force computing equipment. According to the method and the device, the current first configuration file is covered by the obtained second configuration file corresponding to the power calculation device to be overfrequency, so that the calculation function of the power calculation device is further optimized and improved, the operation efficiency of the power calculation device is improved, and more user requirements are met.
To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Drawings
FIG. 1 is a flow chart of a preferred embodiment of the power computing device over-clocking method of the present invention;
FIG. 2 is a diagram of a server according to a preferred embodiment of the present invention;
FIG. 3 is a block diagram of a preferred embodiment of the algorithm power override routine.
Detailed Description
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
The embodiment of the invention provides a power calculation equipment overclocking method, which is suitable for a server, and is a flow chart of a preferred embodiment of the power calculation equipment overclocking method shown in figure 1, wherein the method comprises the following steps:
s1, after a request of a user for performing overclocking on the operating force computing equipment is received, an overclocking instruction is sent to the client, wherein the operating speed of the force computing equipment to be overclocked is based on the current first configuration file.
The Overclocking, English being Overclocking, is to increase the clock speed of an electronic device to a speed higher than the speed determined by the manufacturer of the electronic device, thereby improving the performance of the electronic device.
The client is a main control board of the force computing equipment and is used for connecting and managing the operation of a plurality of chips in the force computing equipment, and the server is in communication connection with the client, wherein the operation of the force computing equipment is a default first configuration file which comprises but is not limited to parameters of the force computing equipment, such as IP (Internet protocol), chip specification, power consumption, voltage, temperature, operation time, rotating speed, frequency and the like.
The power calculating device in this embodiment refers to an electronic device with a calculating function, for example, the power calculating device may be an ore digging device for virtual digital currency, the ore digging device has a strong calculating performance, and multiple chips are built in the ore digging device.
Whether the chip is fully utilized or not is related to parameters of the power calculating equipment, such as chip specification, power consumption, voltage, temperature, operation time, rotating speed, frequency and the like.
S2, sending a request according to the over-frequency instruction, and receiving the compressed package file name of the computing equipment to be over-frequency and the key corresponding to the compressed package file where the compressed package file name is located by the client.
In one embodiment, when a user wants to overclock a computing power device, an overclocking request is sent to a server; the server sends out an over-frequency instruction to the client according to the request; the client inquires the server about the file name of the compression package of the equipment to be subjected to the super-frequency calculation and the key corresponding to the compression package file where the file name of the compression package is located according to the super-frequency instruction, and then obtains the file name of the compression package of the equipment to be subjected to the super-frequency calculation and the key corresponding to the compression package file where the file name of the compression package is located, which are sent back by the server.
Furthermore, after the client sends a request according to the over-frequency instruction,
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
The Timestamp, english being Timestamp, is a technology for signing data. The time stamp is mainly used for time stamping generated data through a certain technical means so as to prevent interception and tampering of data transmission and ensure the safety of data use.
In an optional embodiment, after the server performs feedback according to the client, the server performs time stamping on the compressed packet file name to be issued by using a timestamp technology, and generates a compressed packet file name with time stamp; and randomly generating a key corresponding to the compressed package file with the time-marked compressed package file name. For example, the file name of the compressed package to be delivered is ABC, and the file name of the compressed package with the time stamp obtained by the time stamp technology is ABC/12345, wherein 12345 is the time stamp.
And S3, the client downloads the compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name.
In the above embodiment, after acquiring the compressed package file name and the key corresponding to the compressed package file in which the compressed package file name is located, the client downloads the compressed package file corresponding to the compressed package file name from the preset storage file library.
Further, the step of establishing the preset storage file library comprises:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
Specifically, the method comprises the steps of setting a step file according to different models of computing power equipment, wherein the step file is a basic file and is suitable for compiling different models of computing power equipment parameters (such as IP, chip specification, power consumption, voltage, temperature, running time, rotating speed, frequency and the like), generating configuration files corresponding to the different models of computing power equipment, encrypting and compressing the configuration files corresponding to each model of computing power equipment to obtain compressed package files corresponding to a plurality of models of computing power equipment, and finally storing the compressed package files to establish a storage file library.
And S4, the client decrypts the compressed package file obtained by downloading by using the key to obtain a second configuration file corresponding to the computing power equipment to be overflowed.
In the above embodiment, after the compressed package file corresponding to the compressed package file name is downloaded to the client, the compressed package file is decrypted by using the obtained key, so as to obtain a second configuration file corresponding to the to-be-super-frequency computing device, where the second configuration file includes, but is not limited to, parameters of an IP, a chip specification, power consumption, voltage, temperature, operating time, a rotation speed, and frequency of the computing device.
And S5, covering the second configuration file with the first configuration file in the computing power equipment to be overflowed.
For example, in an alternative embodiment, the second profile parameter and the first profile parameter of the device to be overflowed are compared to the following table:
according to the table, under the maximum limit of power consumption and fan rotation speed, the perfectness rate (which refers to a good index for equipment operation management) is basically kept equal by adjusting the parameters of frequency, target voltage and limiting voltage, so that the parameters of the second configuration file are adopted to set parameters better than those of the first configuration file, and the second configuration file covers the first configuration file in the computing equipment to be overfrequency, so that the operation efficiency of the computing equipment is improved, and the user requirements are met.
Fig. 2 is a schematic diagram of a server according to a preferred embodiment of the present invention. The server 1 is a device capable of automatically performing numerical calculation and/or information processing in accordance with a command set or stored in advance. The server 1 may be a computer, or may be a single network server, a server group composed of a plurality of network servers, or a cloud composed of a large number of hosts or network servers based on cloud computing, where cloud computing is one of distributed computing and is a super virtual computer composed of a group of loosely coupled computers.
In the present embodiment, the server 1 may include, but is not limited to, a memory 11, a processor 12, and a display 13, which may be communicatively connected to each other through a system bus, and the memory 11 stores a computing power overclocking program 10 that may be executed on the processor 12. It is noted that fig. 2 only shows the server 1 with components 11-13, but it is to be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.
The storage 11 includes a memory and at least one type of readable storage medium. The memory provides cache for the operation of the server 1; the readable storage medium may be a non-volatile storage medium such as flash memory, a hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Static Random Access Memory (SRAM), a Read Only Memory (ROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a Programmable Read Only Memory (PROM), a magnetic memory, a magnetic disk, an optical disk, etc. In some embodiments, the readable storage medium may be an internal storage unit of the server 1, such as a hard disk of the server 1; in other embodiments, the non-volatile storage medium may be an external storage device of the server 1, such as a plug-in hard disk provided on the server 1, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like. In this embodiment, the readable storage medium of the memory 11 is generally used for storing an operating system and various application software installed in the server 1, for example, the computing power overclocking program 10 in an embodiment of the present invention. Further, the memory 11 may also be used to temporarily store various types of data that have been output or are to be output.
The processor 12 may be a Central Processing Unit (CPU), controller, microcontroller, microprocessor, or other data Processing chip in some embodiments. The processor 12 is generally used for controlling the overall operation of the server 1, such as performing control and processing related to data interaction or communication with the other devices. In this embodiment, the processor 12 is configured to run the program code stored in the memory 11 or process data, such as running the calculation power overclocking program 10.
The computer power overclocking program 10 is stored in memory 11 and includes computer readable instructions stored in memory 11 that are executable by processor 12 to implement the methods of the embodiments of the present application.
In one embodiment, the computation power overclocking program 10 when executed by the processor 12 implements the following steps:
a request step: after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file.
The Overclocking, English being Overclocking, is to increase the clock speed of an electronic device to a speed higher than the speed determined by the manufacturer of the electronic device, thereby improving the performance of the electronic device.
The client is a main control board of the force computing equipment and is used for connecting and managing the operation of a plurality of chips in the force computing equipment, and the server is in communication connection with the client, wherein the operation of the force computing equipment is a default first configuration file which comprises but is not limited to parameters of the force computing equipment, such as IP (Internet protocol), chip specification, power consumption, voltage, temperature, operation time, rotating speed, frequency and the like.
The power calculating device in this embodiment refers to an electronic device with a calculating function, for example, the power calculating device may be an ore digging device for virtual digital currency, the ore digging device has a strong calculating performance, and multiple chips are built in the ore digging device.
Whether the chip is fully utilized or not is related to parameters of the power calculating equipment, such as chip specification, power consumption, voltage, temperature, operation time, rotating speed, frequency and the like.
A receiving step: and sending a request according to the overclocking instruction, and receiving a compressed package file name of the computing equipment to be overclocked and a key corresponding to a compressed package file where the compressed package file name is located by the client.
In one embodiment, when a user wants to overclock a computing power device, an overclocking request is sent to a server; the server sends out an over-frequency instruction to the client according to the request; the client inquires the server about the file name of the compression package of the equipment to be subjected to the super-frequency calculation and the key corresponding to the compression package file where the file name of the compression package is located according to the super-frequency instruction, and then obtains the file name of the compression package of the equipment to be subjected to the super-frequency calculation and the key corresponding to the compression package file where the file name of the compression package is located, which are sent back by the server.
Furthermore, after the client sends a request according to the over-frequency instruction,
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
The Timestamp, english being Timestamp, is a technology for signing data. The time stamp is mainly used for time stamping generated data through a certain technical means so as to prevent interception and tampering of data transmission and ensure the safety of data use.
In an optional embodiment, after the server performs feedback according to the client, the server performs time stamping on the compressed packet file name to be issued by using a timestamp technology, and generates a compressed packet file name with time stamp; and randomly generating a key corresponding to the compressed package file with the time-marked compressed package file name. For example, the file name of the compressed package to be delivered is ABC, and the file name of the compressed package with the time stamp obtained by the time stamp technology signature is ABC/12345, wherein 12345 is the time stamp.
A downloading step: and the client downloads the compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name.
In the above embodiment, after acquiring the compressed package file name and the key corresponding to the compressed package file in which the compressed package file name is located, the client downloads the compressed package file corresponding to the compressed package file name from the preset storage file library.
Further, the step of establishing the preset storage file library comprises:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
Specifically, the method comprises the steps of setting a step file according to different models of computing power equipment, wherein the step file is a basic file and is suitable for compiling different models of computing power equipment parameters (such as IP, chip specification, power consumption, voltage, temperature, running time, rotating speed, frequency and the like), generating configuration files corresponding to the different models of computing power equipment, encrypting and compressing the configuration files corresponding to each model of computing power equipment to obtain compressed package files corresponding to a plurality of models of computing power equipment, and finally storing the compressed package files to establish a storage file library.
And (3) decryption: and the client decrypts the downloaded compressed package file by using the key to obtain a second configuration file corresponding to the computing power equipment to be overclocked.
In the above embodiment, after the compressed package file corresponding to the compressed package file name is downloaded to the client, the compressed package file is decrypted by using the obtained key, so as to obtain a second configuration file corresponding to the to-be-super-frequency computing device, where the second configuration file includes, but is not limited to, parameters of an IP, a chip specification, power consumption, voltage, temperature, operating time, a rotation speed, and frequency of the computing device.
Covering: and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
For example, in an alternative embodiment, the second profile parameter and the first profile parameter of the device to be overflowed are compared to the following table:
according to the table, under the maximum limit of power consumption and fan rotation speed, the perfectness rate (which refers to a good index for equipment operation management) is basically kept equal by adjusting the parameters of frequency, target voltage and limiting voltage, so that the parameters of the second configuration file are adopted to set parameters better than those of the first configuration file, and the second configuration file covers the first configuration file in the computing equipment to be overfrequency, so that the operation efficiency of the computing equipment is improved, and the user requirements are met.
Referring to FIG. 3, a block diagram of a preferred embodiment of the algorithm over-clocking process is shown. In one embodiment, the force overclocking routine 10 includes: a requesting module 101, a receiving module 102, a downloading module 103, a decrypting module 104 and an overlaying module 105. The functions or operation steps implemented by the modules 101-105 are similar to those of the computing power apparatus over-clocking method described above, and are not described in detail here, for example, where:
the request module 101 is configured to send an overclocking instruction to a client after receiving a request of a user for overclocking a running power computing device, where a running rate of the power computing device to be overclocked is based on a current first configuration file;
a receiving module 102, configured to send a request according to the overclocking instruction, where the client receives a compressed package file name of the computing device to be overclocked and a key corresponding to a compressed package file where the compressed package file name is located;
the downloading module 103 is configured to download, by the client, the compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
and the decryption module 104 is configured to decrypt the downloaded compressed packet file by using the key by the client, so as to obtain a second configuration file corresponding to the computing power device to be overfrequied. And
an overlaying module 105, configured to overlay the second configuration file with the first configuration file in the computing power device to be overclocked.
In addition, the present invention also provides a computer readable storage medium, which includes a power override program, and when the power override program is executed by a processor, the power override program implements the following operations:
a request step: after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file;
a receiving step: sending a request according to the over-frequency instruction, and receiving a compressed package file name of the computing equipment to be over-frequency and a key corresponding to a compressed package file where the compressed package file name is located by the client;
a downloading step: the client downloads a compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
and (3) decryption: the client decrypts the downloaded compressed package file by using the secret key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and
covering: and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
The embodiment of the computer readable storage medium of the present invention is substantially the same as the embodiments of the computing power device over-clocking method and the server, and will not be described herein again.
The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty, and such will fall within the scope of the invention.
Claims (9)
1. A computing power equipment overclocking method is applicable to a server and is characterized by comprising the following steps:
after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file;
sending a request according to the over-frequency instruction, and receiving a compressed package file name of the computing equipment to be over-frequency and a key corresponding to a compressed package file where the compressed package file name is located by the client;
the client downloads a compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
the client decrypts the downloaded compressed package file by using the secret key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and
and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
2. The computing power equipment overclocking method according to claim 1, wherein after the client end sends out a request according to the overclocking instruction,
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
3. The computing power device overclocking method of claim 1, wherein the first or second configuration file includes, but is not limited to, parameters of IP, chip size, power consumption, voltage, temperature, run time, speed, and frequency of the computing power device.
4. The computing power equipment overclocking method according to claim 1, wherein the step of establishing the preset storage file library comprises:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
5. A server, comprising a memory and a processor, wherein the memory stores an computing power over-clocking program operable on the processor, and wherein the computing power over-clocking program when executed by the processor performs the steps of:
a request step: after a request of a user for performing overclocking on operating force computing equipment is received, an overclocking instruction is sent to a client, wherein the operating speed of the force computing equipment to be overclocked is based on a current first configuration file;
a receiving step: sending a request according to the over-frequency instruction, and receiving a compressed package file name of the computing equipment to be over-frequency and a key corresponding to a compressed package file where the compressed package file name is located by the client;
a downloading step: the client downloads a compressed package file corresponding to the compressed package file name from a preset storage file library according to the received compressed package file name;
and (3) decryption: the client decrypts the downloaded compressed package file by using the secret key to obtain a second configuration file corresponding to the computing power equipment to be overfrequied; and
covering: and overlaying the second configuration file on the first configuration file in the computing power equipment to be overclocked.
6. The server according to claim 5, wherein the receiving step comprises:
generating a compressed package file name marked with time by using the timestamp;
and generating a key corresponding to the compressed package file with the compressed package file name according to the compressed package file name marked with the time.
7. The server of claim 5, wherein the first or second configuration file includes parameters including, but not limited to, IP, chip size, power consumption, voltage, temperature, run time, speed, and frequency of the computing device.
8. The server according to claim 5, wherein the step of establishing the preset storage file library comprises:
acquiring a preset script file;
editing the parameters of the force calculation equipment of different models according to the script file to generate configuration files corresponding to the force calculation equipment of different models;
and respectively encrypting and compressing the configuration files corresponding to the computing power equipment of different models to obtain and store a compression package file corresponding to the computing power equipment of each model.
9. A computer-readable storage medium, comprising a computer-readable power-over-frequency program, which when executed by a processor, implements the steps of the power-over-frequency method of any one of claims 1 to 4.
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