KR102283902B1 - Method of detecting temperature data of memory module for server computer - Google Patents

Abstract

The present invention relates to a method for detecting temperature data of a memory module for a server computer that can detect the temperature data of the memory module in a state that a main board is not booted after power is applied while the temperature data is continuously detected. The method for detecting the temperature data of the memory module for the server computer includes one of a first plan of continuously and repeatedly detecting the temperature of a memory module (21) in an I2C communication period (T) between a main board (10) and the memory module (21) and a second plan for continuously and repeatedly detecting the temperature of the memory module (21) by generating communication for requesting temperature data to the memory module (21). The present invention can perform stable server computer operation while preventing burns of workers that can occur during a memory module replacement process.

Description

Method of detecting temperature data of memory module for server computer

The present invention relates to a method for testing the temperature of a memory module for a server computer, and more particularly, a memory for a server computer capable of detecting the temperature data of the memory module even in a state in which the temperature data of the memory module is not booted after power is applied to the main board at the same time as the continuous detection of the temperature data It relates to a method for detecting temperature data of a module.

A typical server computer uses relatively more memory than a desktop computer or a notebook computer, and mainly uses a memory such as a Registered Dual In-line Memory Module (RDIMM).

The server computer has a memory zone including a plurality of memory slots in which a plurality of memories are mounted, and at the same time, a plurality of memory modules in which a memory and a thermal diode are mounted are installed in the memory zone.

These memory modules are controlled by the CPU installed on the mainboard of the server computer to read/write and store data, and the memory module installed in the memory zone by the CPU installed on the mainboard of the server computer processes data. The memory temperature rises according to repeated data processing.

At this time, the CPU performs a throttling function to lower the temperature and adjusts the data processing speed by changing the clock frequency or operating voltage to prevent data contamination and loss.

On the other hand, the CPU of the motherboard communicates with the memory module in an I2C (Inter Integrated Circuit) communication method to recognize the temperature of the memory, recognizes the memory temperature value, and performs throttling control based on this, and throttling ( Throlling) is to prevent the temperature rise by reducing the operating speed of the server computer.

Throttling that performs the above functions improves the reliability of the server computer by reducing the operating speed of the server computer, but when testing the reliability level of memory, memory throlling cannot be a correct test condition .

Despite this, the temperature control device for the temperature test of the memory module for a server computer in the related art controls only the temperature around the memory module. Therefore, when the temperature rises due to the heat of the memory module itself, the temperature value of the memory module recognized by the CPU Throttling occurs by out of this error range, which means that the temperature of the memory module has not been accurately tested.

More specifically, the conventional temperature control method for testing the temperature of the memory module for a server computer is equipped with a memory module 21 that communicates with the CPU of the main board 10 of the server computer through I2C communication as shown in FIG. 1 . In a state in which the chamber box 20 is equipped, the heater 30 is heated according to a value set, and outside air is sucked through the intake/exhaust fan 40 and then discharged through the heater 30, but the chamber box (20) This is a method of supplying heated air to the memory module by discharging it to the side.

In addition, according to the result of sensing the temperature of the heated air for temperature control of the memory module discharged through the heater 30 using the RTD temperature sensor 50 installed inside the chamber box 20, the heater 30 is set to a predetermined temperature. heating or shutting down.

Since the conventional temperature control method for testing the temperature of the memory module for a server computer as described above is a method of detecting the environmental temperature inside the chamber box 20 using the RTD temperature sensor 50, the memory module 21 There was a problem in that it could not accurately measure its own temperature.

In addition, the conventional temperature control method using the RTD temperature sensor 50 as described above captures the temperature information of the memory module as shown in FIG. This is a method of extracting information about the temperature afterward, but when the power of the main board 10 is turned off, the temperature is not displayed and the measurement itself is impossible.

1. Republic of Korea Patent Publication No. 10-2017-0019444 (Title of the invention: temperature control of system memory) 2. Republic of Korea Patent Publication No. 10-2020-0139150 (Title of the invention: system, apparatus and method for optimized throttling of processor)

Accordingly, the present invention has been devised to solve the above problems, and it is possible to detect the temperature data of the memory module even when the main board is not booted after power is applied at the same time as the temperature data of the memory module is continuously detected. An object of the present invention is to provide a method for detecting temperature data of a memory module for a server computer that can operate and at the same time prevent a burn accident of an operator that may occur in the process of replacing the memory module.

The temperature test method of the memory module for a server computer of the present invention for achieving the above object is the I2C communication board 80 and the I2C during the time (A) during the I2C communication between the main board 10 and the memory module 21 The software installed on the communication board 80 checks whether the communication bus (transmission path) is occupied in the t1, t2, and t3 frequency sections, and whether communication is performed in the t1, t2 frequency sections after confirming the communication bus (transmission path) occupation Check and wait if communication is in progress, detect whether the I2C communication bus is resting in the t3 frequency section, and if communication is in the t3 frequency section, the main board 10 and the memory module It is determined that there is no I2C communication between I2C communication in the T5 frequency section while communicating between the I2C communication board 80 and the memory module 21 during the first eye to detect the I2C communication between the main board 10 and the memory module 21 during the time (A) Continuously detecting the signal of the bus and checking whether the I2C communication bus between the main board 10 and the memory module 21 is resting in the process of continuously detecting the signal of the I2C communication bus in the T5 frequency section , if the condition that the I2C communication bus maintains the resting state for 0.5 seconds, generates a communication requesting temperature data from the I2C communication board 80 to the memory module 21 in a T6 frequency interval period to continuously and repeatedly memory module 21 It is characterized in that it is composed of any one selected from the second method for detecting the temperature of.

At this time, if the I2C communication period (T) between the main board 10 and the memory module 21 does not communicate for more than 0.5 seconds, it is determined as a communication error in a state in which the I2C communication board 80 cannot detect the temperature data. And it is characterized in that the output of the heater is cut off (OFF).

The method for detecting temperature data of a memory module for a server computer according to the present invention having the above characteristics can continuously detect temperature information generated in the memory module, as well as in a state in which the main board is not booted after power is applied to the memory module. Temperature data can be detected, so it is effective in stably operating the server computer and preventing burns accidents of workers that may occur in the process of replacing the memory module in advance.

1 is a block diagram illustrating a temperature control method for testing a memory module of a conventional server computer.
Signal 'A' of FIG. 2 shows a time point at which temperature data is read through conventional I2C communication, and signal 'B' is a frequency waveform measurement diagram showing a time point at which temperature data is read through I2C communication of the present invention
3 is a block diagram illustrating a temperature detection method according to an exemplary embodiment of the present invention.
4 is a block diagram illustrating an I2C communication board according to a preferred embodiment of the present invention.
5 is a frequency configuration diagram showing a temperature detection communication frequency according to a preferred embodiment of the present invention;
6 is a frequency configuration diagram showing a temperature detection communication frequency according to another embodiment of the present invention;

Hereinafter, a method for detecting temperature data of a memory module for a server computer provided by the present invention according to the accompanying drawings and preferred embodiments will be described.

First, as shown in FIGS. 3 and 5 to 6 , the temperature data of the memory module for a server computer can be detected in two ways.

The first proposal is software installed on the I2C communication board 80 and the I2C communication board 80 during the time (A) during the I2C communication between the main board 10 and the memory module 21 as shown in FIGS. 3 and 5 . Check whether the communication bus (transmission path) is occupied in the t1, t2, t3 frequency section in (firmware).

After confirming the communication bus (transmission path) occupancy, it is checked whether communication is made in the t1 and t2 frequency sections, and if communication is in progress, waits and then checks whether the I2C communication bus is resting in the t3 frequency section detect

If communication is paused in the t3 frequency section, it is determined that there is no I2C communication between the main board 10 and the memory module 21, and temperature data is detected in the P frequency section, but between the main board 10 and the memory module 21 The temperature of the memory module 21 is continuously and repeatedly detected in the I2C communication period T.

In addition, the second proposal is the communication between the I2C communication board 80 and the memory module 21 during the time (A) during the I2C communication between the main board 10 and the memory module 21 as shown in FIGS. 3 and 6 . while continuously detecting the signal of the I2C communication bus in the T5 frequency section.

In the process of continuously detecting the signal of the I2C communication bus in the T1 frequency section, it is checked whether the I2C communication bus between the main board 10 and the memory module 21 is resting, and the state in which the I2C communication bus is resting is 0.5 If the condition is maintained for seconds, communication between the I2C communication board 80 and the memory module 21 is actively performed in the T6 frequency interval period to continuously and repeatedly detect the temperature of the memory module 21 .

In particular, in the second case, the temperature of the memory module can be continuously and repeatedly detected by facilitating I2C communication in the state that the server computer is not booted after power is applied to the main board. Temperature information can be detected even when the power is turned OFF, thereby preventing operator burn accidents.

As shown in FIG. 4, the temperature data detected by the above method converts the memory temperature to 4 to 20 mA with a data analog (DA) converter, transmits the temperature value (PV) to the temperature controller, and controls the temperature in the temperature controller This makes it possible to operate a stable server computer.

In addition, if the I2C communication period (T) between the main board 10 and the memory module 21 does not communicate for 0.5 seconds or more, it is determined as a communication error in a state in which the I2C communication board 80 cannot detect the temperature data. And by turning off the output of the heater, it is possible to prevent malfunction of the entire server computer and loss of equipment.

Although the embodiments of the present invention have been described, those of ordinary skill in the art can use the present invention by adding, changing, deleting or adding components within the scope that does not depart from the spirit of the present invention described in the claims. Various modifications and changes may be made, and this will also be included within the scope of the present invention.

10: main board 20: chamber box
21: memory module 30: heater
40: intake/exhaust fan 50: RTD temperature sensor
60: SSR 70: temperature controller
80: I2C communication board

Claims (2)

During the time (A) during the I2C communication between the main board 10 and the memory module 21, in the I2C communication board 80 and the software installed on the I2C communication board 80, in the t1, t2, t3 frequency sections, the communication bus (transfer ) to check whether occupancy is
After confirming the communication bus (transmission path) occupancy, check whether communication is made in the t1, t2 frequency section, and wait if communication is in progress;
Detecting whether the I2C communication bus is idle in the t3 frequency section,
If communication is paused in the t3 frequency section, it is determined that there is no I2C communication between the main board 10 and the memory module 21, and temperature data is detected in the P frequency section, but between the main board 10 and the memory module 21 The first method of continuously and repeatedly detecting the temperature of the memory module 21 in the I2C communication period (T); class,
The signal of the I2C communication bus is continuously detected in the T5 frequency section while communicating between the I2C communication board 80 and the memory module 21 during the time (A) during the I2C communication between the main board 10 and the memory module 21. doing and
Checking whether the I2C communication bus between the main board 10 and the memory module 21 is resting in the process of continuously detecting the signal of the I2C communication bus in the T5 frequency section;
If the condition that the I2C communication bus maintains the resting state for 0.5 seconds, a communication requesting temperature data is generated from the I2C communication board 80 to the memory module 21 at the T6 frequency interval period and continuously and repeatedly of the memory module 21 a second eye for detecting temperature;
A method for detecting temperature data of a memory module for a server computer, characterized in that it is configured in any one selected from among.
According to claim 1,
If the I2C communication period (T) between the main board 10 and the memory module 21 does not communicate for 0.5 seconds or more, it is determined as a communication error in a state in which the temperature data cannot be detected from the I2C communication board 80, A method for detecting temperature data of a memory module for a server computer, characterized in that the output of the heater is cut off (OFF).

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