CN204043937U - A kind of water-cooled server Performance Test System - Google Patents

Abstract

The utility model relates to water-cooled server field, more specifically, relates to a kind of water-cooled server Performance Test System.It comprises measurement subsystem and regulates subsystem, and described measurement subsystem comprises for the data-carrier store measuring water-cooled server temperature and the temperature sensor of heat-pipe radiating apparatus temperature, the data collecting card be connected with temperature sensor and be connected with data collecting card; Described adjustment subsystem comprise the water delivering orifice of the recirculated water machine being deployed in water-cooled server system water ga(u)ge, be deployed in the coolant-temperature gage meter at the cooled plate intake-outlet place of heat-pipe radiating apparatus and be deployed in the control valve of water outlet of recirculated water machine of water-cooled server system.The utility model can utilize the temperature sensor on the heat-pipe radiating apparatus being distributed in water-cooled server and water-cooled server to gather the temperature of all parts on water-cooled server and heat-pipe radiating apparatus, thus weighs the heat dispersion of water-cooled server according to the temperature data measured.

Description

A kind of water-cooled server Performance Test System

Technical field

The utility model relates to water-cooled server field, more specifically, relates to a kind of water-cooled server Performance Test System.

Background technology

Along with the fast development of supercomputer technology, especially to have blade server platform the widely using in supercomputer field of high heat density characteristic, traditional air-conditioning consentrated air supply can not meet its cooling requirements.For this reason, a kind of novel " high heat density water-cooled cabinet refrigeration solution " arises at the historic moment.Adopting the water-cooled cabinet refrigeration system with features such as reliable, energy-saving and environmental protection as the Cooling Solution of supercomputer terminal, is the megatrend of present computer information industry development.Relevant to use, also developing by leaps and bounds of computer information technology of boosting.Water-cooled cabinet system mainly applies to the Cooling Solution of supercomputer at present.Its essence of water-cooling and wind-cooling heat dissipating is identical, just utilizes circulation fluid to be transported to from water-cooled block on heat interchanger by the heat of CPU in liquid cooling and distributes, because decrease the quantity of fan, so decrease the vibration and noise that fan produces.Because the area of dissipation of heat interchanger and heat dissipation environment are better than general air-cooled radiator far away, so the cooling-down effect of liquid cooling clearly.

In current test water-cooled cabinet refrigeration performance, water-cooled server is arranged in water-cooled cabinet by research and development slip-stick artist, carries out the refrigeration performance testing experiment of water-cooled cabinet refrigerating capacity and refrigeration homogeneity.Because water-cooled cabinet is in development, there is some difference for various aspects of performance and design objective, refrigerating capacity may be caused not enough, thus cause damage to water-cooled server.Thus formulating the test macro of a set of water-cooled server heat dispersion, for weighing the heat dispersion of water-cooled server and water-cooled cabinet, just becoming current technician problem in the urgent need to address.

Utility model content

The utility model, for overcoming at least one defect (deficiency) described in above-mentioned prior art, provides a kind of and can form to water-cooled server the water-cooled server Performance Test System tested.

For solving the problems of the technologies described above, the technical solution of the utility model is as follows:

A kind of water-cooled server Performance Test System, comprise measurement subsystem and regulate subsystem, described measurement subsystem comprises for the data-carrier store measuring water-cooled server temperature and the temperature sensor of heat-pipe radiating apparatus temperature, the data collecting card be connected with temperature sensor and be connected with data collecting card; Described adjustment subsystem comprise the water delivering orifice of the recirculated water machine being deployed in water-cooled server system water ga(u)ge, be deployed in the coolant-temperature gage meter at the cooled plate intake-outlet place of heat-pipe radiating apparatus and be deployed in the control valve of water outlet of recirculated water machine of water-cooled server system.

In such scheme, described temperature sensor is deployed in air inlet, cpu, internal memory, disk, network interface card, the mainboard of water-cooled server respectively.

In such scheme, the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and the equal set temperature sensor of cooled plate water outlet.

In such scheme, the temperature sensor on the cpu of water-cooled server, internal memory, disk, network interface card, mainboard comprises several, the induction end of several temperature sensors glue respectively by high temperature gummed tape be posted on cpu, internal memory, disk, network interface card, mainboard surface on.

In such scheme, the temperature sensor of the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet comprises several respectively, and the induction end of several temperature sensors is posted on fixing copper coin, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet respectively by high temperature gummed tape is sticky.

In such scheme, several temperature sensors being arranged in water-cooled server and/or the same parts of heat-pipe radiating apparatus glue note according to certain distribution of shapes.

In such scheme, the protective cover that in the induction end of temperature sensor, induction end and external environment condition are isolated by peripheral hardware one.

Compared with prior art, the beneficial effect of technical solutions of the utility model is:

(1) the utility model can utilize the temperature sensor on the heat-pipe radiating apparatus being distributed in water-cooled server and water-cooled server to gather the temperature of all parts on water-cooled server and heat-pipe radiating apparatus, thus weighs the heat dispersion of water-cooled server according to the temperature data measured.

(2) water ga(u)ge, coolant-temperature gage meter and control valve can be utilized in the utility model to set the heat dissipation environment residing for water-cooled server, thus the radiating effect under utilizing temperature sensor measurement to go out different heat dissipation environment, and then provide measurement data more accurately for the judgement of water-cooled server heat dispersion.

(3) the utility model arranges cage in the induction end of temperature sensor, the induction end of temperature sensor and external environment condition are isolated, effectively reduce the interference to temperature measuring data between environment or water-cooled components in server, the data that temperature sensor measurement is arrived are more accurate.

(4) in the utility model, on water-cooled server, the temperature sensor of all parts comprises several respectively, several temperature sensors can carry out temperature survey to the diverse location of parts same in water-cooled server, and it is more accurate to make the part temperatures measurement of water-cooled server.

Accompanying drawing explanation

Fig. 1 is the Organization Chart of a kind of water-cooled server of the utility model Performance Test System specific embodiment.

Embodiment

Accompanying drawing, only for exemplary illustration, can not be interpreted as the restriction to this patent;

In order to better the present embodiment is described, some parts of accompanying drawing have omission, zoom in or out, and do not represent the size of actual product;

To those skilled in the art, in accompanying drawing, some known features and explanation thereof may be omitted is understandable.

In description of the present utility model, it is to be appreciated that term " first ", " second " only for describing object, and can not be interpreted as the quantity of instruction or hint relative importance or implicit indicated technical characteristic.Thus, one or more these features can be expressed or impliedly be comprised to the feature of " first ", " second " of restriction.In description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also can be indirectly connected by intermediary, the connection of two element internals can be said.For the ordinary skill in the art, concrete condition above-mentioned term can be understood at concrete meaning of the present utility model.

Below in conjunction with drawings and Examples, the technical solution of the utility model is described further.

Embodiment 1

As shown in Figure 1, be the Organization Chart of a kind of water-cooled server of the utility model Performance Test System specific embodiment.See Fig. 1, in this specific embodiment, a kind of water-cooled server Performance Test System specific embodiment comprises measurement subsystem 1 and regulates subsystem 2, and measurement subsystem comprises for the data-carrier store 13 measuring water-cooled server temperature and the temperature sensor 11 of heat-pipe radiating apparatus temperature, the data collecting card 12 be connected with temperature sensor 11 and be connected with data collecting card 12; Regulate subsystem 2 comprise the water delivering orifice of the recirculated water machine being deployed in water-cooled server system water ga(u)ge 21, be deployed in the coolant-temperature gage meter 22 at the cooled plate intake-outlet place of water-cooled server system and be deployed in the control valve 23 of water outlet of recirculated water machine of water-cooled server system.

Water-cooled server system involved by the utility model generally includes water-cooled cabinet, be arranged on the water-cooled server in water-cooled cabinet, there is provided the recirculated water machine of chilled water for water-cooled server and be arranged in water-cooled cabinet as water-cooled server provides the heat-pipe radiating apparatus of heat radiation channel, cooling water circulation loop is formed between recirculated water machine and water-cooled server, water-cooled server internal is typically provided with cpu, internal memory, disk, network interface card, mainboard and air inlet etc., heat-pipe radiating apparatus inside is typically provided with fixing copper coin, heat pipe evaporation ends, heat pipe colling end, the parts such as cooled plate.

Based on such scheme, water ga(u)ge can be passed through in this specific embodiment, coolant-temperature gage meter and control valve observe the current residing external environment condition of water-cooled server, then passage is deployed in temperature sensor on water-cooled server and heat-pipe radiating apparatus to measure the temperature value in water-cooled server and heat-pipe radiating apparatus, then get the temperature value of collection by data collecting card and store associated temperature value by data-carrier store, this makes operator to test the heat dispersion of water-cooled server in water-cooled server system and gather data and store in different external environment condition, effectively improve the feasibility of water-cooled server heat dispersion test.

In specific implementation process, measurement thermal source main in water-cooled server being carried out to temperature can be concentrated, particularly: temperature sensor is deployed in the critical piece such as air inlet, cpu, internal memory, disk, network interface card, mainboard of water-cooled server respectively, can get the environment temperature in water-cooled machine box for server and got the temperature of critical piece on water-cooled server by the temperature value on each critical piece by the temperature value of air inlet.

In specific implementation process, the main heating source in opposite heat tube heat abstractor can be concentrated to carry out the measurement of temperature, particularly: the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and the equal set temperature sensor of cooled plate water outlet.

In specific implementation process; in order to promote the measurement accuracy of water-cooled server part temperatures value; parts in water-cooled server dispose multiple temperature sensor according to certain rule, and pretend every protective device in the induction end of each temperature sensor to reduce the impact of external environment condition on measurement data.Particularly:

Temperature sensor on the cpu of water-cooled server, internal memory, disk, network interface card, mainboard comprises several, the induction end of several temperature sensors glue respectively by high temperature gummed tape be posted on cpu, internal memory, disk, network interface card, mainboard surface on.Several temperature sensors being arranged in the same parts of water-cooled server glue note according to certain distribution of shapes, and this definite shape can be square, circular or the shape such as the shape of imitative corresponding component.Preferably, on all parts, the induction end of several temperature sensors all arranges the protective cover of induction end and external environment condition being isolated.

In specific implementation process; in order to promote the measurement accuracy of heat-pipe radiating apparatus card part temperatures value; parts in heat-pipe radiating apparatus dispose multiple temperature sensor according to certain rule, and pretend every protective device in the induction end of each temperature sensor to reduce the impact of external environment condition on measurement data.Particularly:

The temperature sensor of the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet comprises several respectively, and the induction end of several temperature sensors is posted on fixing copper coin, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet respectively by high temperature gummed tape is sticky.Several temperature sensors being arranged in the same parts of heat-pipe radiating apparatus glue note according to certain distribution of shapes, and this definite shape can be square, circular or the shape such as the shape of imitative corresponding component.Preferably, on all parts, the induction end of several temperature sensors all arranges the protective cover of induction end and external environment condition being isolated.

1, server critical piece temperature test

Test purpose: by measuring the temperature of heat pipe type server critical piece, the feasibility of checking water-cooling heat radiating system.

Test index: under heat pipe type server normal running conditions, the temperature of server critical piece

Tested object: the temperature of the parts such as server CPU, internal memory, disk, network interface card, mainboard

Testing tool: temperature sensor, water thermometer, water flow meter, control valve

Method of testing: building environment temperature is Ta DEG C, cooling water temperature is Tw DEG C, and discharge is VL/min, after server CPU works a period of time, measures the temperature value of critical piece.

Testing procedure:

(1) start air conditioner in machine room, air-conditioner temperature is set as Ta DEG C;

(2) start recirculated water machine, cooling water temperature is set as Tw DEG C.Regulating the control valve of water circulation system, by reading water flow meter numerical value, keeping discharge to be V L/min;

(3) start heat pipe type server, make it normally work;

(4) temperature value of server air inlet temperature sensor is observed, until temperature is Ta DEG C;

(5) server and heat pipe radiating system normally run, and measure the temperature of the main heating source such as CPU, internal memory, disk, network interface card.

2, cooling system heat transfer temperature difference test

Test purpose: by measuring the temperature value of the different link of cooling system, the heat transfer temperature difference of measuring and calculating cooling system, the technological level of checking cooling system.

Test index: under heat pipe radiating system normal running conditions, the heat transfer temperature difference of links in cooling system

Tested object: the temperature value of each heat-transfer device of cooling system

Testing tool: temperature sensor, water thermometer, water flow meter, control valve

Method of testing: building environment temperature is Ta DEG C, coolant water temperature is Tw DEG C, and discharge is V L/min, after server work a period of time, measures the temperature of each heat-transfer device in heat pipe radiating system.

Testing procedure:

(1) start air conditioner in machine room, air-conditioner temperature is set as Ta DEG C;

(2) start recirculated water machine, cooling water temperature is set as Tw DEG C.Regulating the control valve of water circulation system, by reading water flow meter numerical value, keeping discharge to be V L/min;

(3) measure and record the temperature value of the chilled water of recirculated water machine water delivering orifice;

(4) start heat pipe type server, make it normally work;

(5) temperature value of server air inlet temperature sensor is observed, until temperature is Ta DEG C;

(6) temperature of the nodes such as copper coin, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water delivering orifice chilled water fixed in record.

The corresponding same or analogous parts of same or analogous label;

Describe in accompanying drawing position relationship for only for exemplary illustration, the restriction to this patent can not be interpreted as;

Obviously, above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.

Claims (7)

1. a water-cooled server Performance Test System, it is characterized in that, comprise measurement subsystem and regulate subsystem, described measurement subsystem comprises for the data-carrier store measuring water-cooled server temperature and the temperature sensor of heat-pipe radiating apparatus temperature, the data collecting card be connected with temperature sensor and be connected with data collecting card; Described adjustment subsystem comprise the water delivering orifice of the recirculated water machine being deployed in water-cooled server system water ga(u)ge, be deployed in the coolant-temperature gage meter at the cooled plate intake-outlet place of heat-pipe radiating apparatus and be deployed in the control valve of water outlet of recirculated water machine of water-cooled server system.

2. water-cooled server Performance Test System according to claim 1, is characterized in that, described temperature sensor is deployed in air inlet, cpu, internal memory, disk, network interface card, the mainboard of water-cooled server respectively.

3. water-cooled server Performance Test System according to claim 1, is characterized in that, the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and the equal set temperature sensor of cooled plate water outlet.

4. water-cooled server Performance Test System according to claim 2, it is characterized in that, temperature sensor on the cpu of water-cooled server, internal memory, disk, network interface card, mainboard comprises several respectively, the induction end of several temperature sensors glue respectively by high temperature gummed tape be posted on cpu, internal memory, disk, network interface card, mainboard surface on.

5. water-cooled server Performance Test System according to claim 1, it is characterized in that, the temperature sensor of the fixing copper coin of heat-pipe radiating apparatus, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet comprises several respectively, and the induction end of several temperature sensors is posted on fixing copper coin, heat pipe evaporation ends, heat pipe colling end, cooled plate and cooled plate water outlet respectively by high temperature gummed tape is sticky.

6. the water-cooled server Performance Test System according to claim 4 or 5, is characterized in that, several temperature sensors being arranged in water-cooled server and/or the same parts of heat-pipe radiating apparatus glue note according to certain distribution of shapes.

7. the water-cooled server Performance Test System according to any one of claim 1 to 5, is characterized in that, the protective cover that in the induction end of temperature sensor, induction end and external environment condition are isolated by peripheral hardware one.