KR20200080704A - Debuging device displaying diagnosis code of computer - Google Patents

Abstract

The present invention relates to a debug device of a computer system that displays a diagnostic code of the computer system according to a power-on self-test (hereinafter, referred to as POST) of a basic input/output system (hereinafter, referred to as BIOS) when the computer system is initially driven and, more particularly, to a debug device that displays a diagnostic code of a computer system in a history mode that enables a developer or a user to accurately identify a device that has a defect in the computer system by storing and providing the procedure of the diagnostic code for each stage of the POST of the BIOS. The debug device for displaying a diagnostic code of a computer system in a history mode includes: a decoder for receiving and decoding a diagnostic code according to POST when the computer system is initially driven; a memory for sequentially storing the diagnostic code decoded by the decoder; a display for displaying the diagnostic code; and a mode switch for selecting a post mode in which the diagnostic code decoded by the decoder is displayed on the display or a history mode in which the diagnostic code stored in the memory is displayed.

Description

Debugging device displaying diagnosis code of computer

The present invention displays a diagnostic code according to a power on self test (hereinafter referred to as'POST') of a basic input/output system (hereinafter referred to as'BIOS') when the computer system is initially driven. This is a debug device that informs a user, and more specifically, a computer that enables a developer or a user to accurately identify a device having a defect in a computer system by storing and providing a sequence of diagnostic codes for each step of POST in the BIOS. It relates to a debug device that displays the system diagnostic code in history mode.

The computer system checks each hardware constituting the computer system first when the power is turned on. This is to ensure that each hardware constituting the computer system is operating normally before using the computer system, so that the user can safely use it.

POST (Power on self Test) is a series of self-diagnostics performed by the computer system itself to check whether the keyboard, RAM, disk drive, etc., which constitute the computer system, are operating properly.

POST is performed by the Basic Input Output System (BIOS) when the computer system is powered on.

If the hardware necessary to run the computer system is detected through POST and the detected hardware is determined to be operating properly, the computer system boots normally. However, if the hardware required to run the computer system is not detected or it is determined that the specific hardware is not operating normally, the BIOS stops the POST process and the computer system does not boot.

The debug device is a device that displays a diagnostic code according to POST during the initial operation of the computer system so that the user can know.

Prior art related to the debug device is disclosed in Patent Publication No. 10-2006-0011166 "Personal Computer Self-Diagnosis System", Patent Publication No. 10-2006-0109522 "Computer System Diagnostic Method and Apparatus", Publication Utility Model No. 20- 1999-0019337 "A computer system displaying the diagnostic status of a power-on self-test" and the like have been disclosed.

1 shows a debug apparatus of a computer system according to the prior art.

Referring to FIG. 1, the BIOS is a computer through a local bus between an input/output hub (hereinafter referred to as an I/O hub) and an input/output controller (hereinafter referred to as an I/O controller) of the computer system 1. When diagnosing and initializing each hardware of the system, the corresponding diagnostic code is output in real time.

The debug device 3 decodes the diagnostic code from which the decoder is output to the local bus of the computer system, and the display unit displays the diagnostic code decoded by the decoder.

When the diagnosis result of a specific hardware is in trouble or not initialized during the POST, the computer system 1 stops at the corresponding diagnostic code output in real time without any further progress.

When the POST stops without any further progress, the developer or the user sees the contents of the corresponding diagnostic code displayed on the display section of the debug device 3 and the user manual of each BIOS vendor, causing a problem in any device of the computing system. I can figure out if I did.

However, even if you try to identify the problem hardware by referring to the corresponding diagnostic code and the BIOS vendor's manual, the range of occurrence or hardware of the computer system may vary even if the same diagnostic code occurs depending on the progress of the BIOS diagnostic code.

In this case, the debug device according to the prior art has a problem that the developer or the user cannot accurately identify the problem generating device in this case.

The present invention has been devised to solve the problems of the debug device of the computer system according to the prior art, and the developer or the user is defective in the computer system by providing the debug device by storing and providing the progress of the diagnostic code for each step of the BIOS. It is an object of the present invention to provide a debug device that displays a diagnostic code of a computer system in a history mode that provides information to accurately identify a hardware having a problem by referring to the procedure of BIOS diagnostic code when attempting to identify the hardware.

Debug apparatus for displaying the diagnostic code of the computer system in the history mode according to the present invention for achieving the above object

A decoder for receiving and decoding a diagnostic code according to POST when the computer system is initially driven;

A memory that sequentially stores diagnostic codes decoded by the decoder;

A display unit that displays the diagnostic code;

And a mode switch for selecting a post mode in which the diagnostic code decoded by the decoder is displayed on the display unit or a history mode in which the diagnostic code stored in the memory is displayed.

In addition, when the mode switch is turned on for a predetermined time or more, the mode is switched to a history mode. In the history mode, the diagnostic code sequentially stored in the memory is displayed on the display unit in the reverse order whenever the mode switch is turned on.

And a serial bus controller for sequentially downloading the diagnostic codes stored in the memory to the host system.

The debug device for displaying the diagnostic code of the computer system according to the present invention configured in the history mode, when the sequence of the diagnostic code output during the POST of the BIOS in the computer system is not known, it is not possible to identify the defective hardware of the computer system There is, the present invention is an invention that can be solved by providing a sequence of POST diagnostic codes of the BIOS, which is a very useful invention for industrial development.

1 is a configuration diagram of a debug device according to the prior art.
2 is a configuration diagram of a debug apparatus for displaying a diagnostic code of a computer system according to the present invention in a history mode.
Figure 3 is a flow chart showing the process of displaying the diagnostic code by the debug device for displaying the diagnostic code of the computer system in the history mode according to the present invention.

Hereinafter, a debug apparatus for displaying a diagnostic code of a computer system according to the present invention in a history mode will be described in detail with reference to the drawings.

Before explaining in more detail with respect to the debug device for displaying the diagnostic code of the computer system in the history mode according to the present invention,

The present invention can be applied to a variety of changes and can have a variety of forms, the implementation (態樣, aspect) (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to a specific disclosure form, it should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

The same reference numbers in each drawing, especially the number of tens and ones, or the same number of tens, ones and alphabets indicate the members having the same or similar functions, and each of the drawings unless otherwise specified. The member indicated by the reference number can be understood as a member conforming to these standards.

In addition, in each drawing, the components are exaggeratedly large (or thick) or smallly (or thinly) or simplified to express the size or thickness in consideration of convenience, etc., thereby limiting the protection scope of the present invention. It should not be.

The terminology used herein is only used to describe a specific embodiment (sun, 態樣, aspect) (or embodiment), and is not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as ~include~ or ~consist of~ are intended to designate the existence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, and one or more other features. It should be understood that the presence or addition possibilities of fields or numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Terms, such as those defined in a commonly used dictionary, should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

As shown in Figure 2, the debug device for displaying the diagnostic code of the computer system according to the present invention in the history mode is a decoder 31, a memory 32, a display unit 33, a mode switch 34, a serial bus controller 35 ).

The decoder 31 receives and decodes diagnostic codes that are coded and transmitted after the computer system 10 diagnoses them through POST.

The memory 32 sequentially stores diagnostic codes that are decoded after being received by the decoder 31.

The display unit 33 displays a diagnostic code decoded in real time by the decoder 31 or a diagnostic code stored in the memory 32.

The mode switch 34 determines an operation mode so that the diagnostic code of the decoder 31 or the diagnostic code of the memory 32 is displayed on the display unit 33.

The operation mode is a post mode and a history mode. Normally, it operates in the post mode, and when the mode switch 34 is pressed for a certain period of time (eg, 1 second) or longer (ie, when the mode switch is turned on for a period of time or longer), it is switched to the history mode. In addition, if there is no pressing of the mode switch for a predetermined period of time in the history mode, the mode is switched to the post mode.

In the post mode, after the power is supplied to the computer system 10, during the POST of the BIOS, data output through the port address of the diagnostic code among the data transmitted through the local bus is displayed on the display in real time, and at the same time, the corresponding diagnosis is performed. Store the code in memory in the order of output.

When a problem occurs during the POST of the BIOS in the computer system 10, and the POST is stopped, the display unit 33 displays the diagnostic code finally received through the local bus.

When the mode switch 34 is pressed and held for 1 second or longer to switch to the history mode, the diagnostic codes sequentially stored in the memory 32 are sequentially reversed each time the mode switch 34 is pressed (every time it is turned on). It is displayed on the display unit 33.

The serial bus controller 35 downloads diagnostic codes sequentially stored in the memory 32 to the hosting system 50.

Here, the host system 50 is a separate system that supports to download the diagnostic code stored in the memory 32 of the debug device 30 of the present invention and to easily review the order of the diagnostic codes.

3 shows a process of receiving and displaying a diagnostic code in the debug device 30 according to the present invention.

First, the debug device 30 according to the present invention receives a diagnostic code from the computer system 10 via a local bus (S11), displays the received diagnostic code on the display (S13) and stores it in memory (S15). .

When the POST of the BIOS is stopped due to hardware failure in the computer system (S17), the debug device displays the finally received diagnostic code on the display (S19).

When the user confirms that there is no change in the diagnostic code displayed on the display unit and presses and holds the mode switch, the mode is changed to the history mode (S21) (S23).

When it is changed to the history mode, the user can operate the mode switch (S25) to display the diagnostic code in reverse order on the display (S29) or download it to a separate hosting system to check (S31).

In the above, in the description of the present invention, a debug apparatus for displaying a diagnostic code of a computer system having a specific shape and structure in a history mode has been described with reference to the accompanying drawings, but the present invention can be modified and changed in various ways by those skilled in the art. , These modifications and variations should be construed as falling within the protection scope of the present invention.

31: decoder 32: memory
33: display 34: mode switch
35: serial bus controller

Claims (3)

A decoder that receives and decodes a diagnostic code according to POST when the computer system is initially driven;
A memory that sequentially stores diagnostic codes decoded by the decoder;
A display unit that displays the diagnostic code;
And a mode switch for selecting a post mode in which the diagnostic code decoded by the decoder is displayed on the display unit or a history mode in which the diagnostic code stored in the memory is displayed. . According to claim 1,
When the mode switch is turned on for a predetermined time or longer, the mode is switched to a history mode, and in the history mode, the diagnostic code sequentially stored in the memory is displayed on the display unit in the reverse order whenever the mode switch is turned on. Debug device that displays code in history mode. The method of claim 1 or 2,
And a serial bus controller that downloads the diagnostic codes stored in the memory to the host system in order, further comprising a diagnostic code of the computer system in a history mode.

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