IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
|
| 국제특허분류(IPC7판) |
|
| 출원번호 |
US-0378424
(2009-02-13)
|
| 등록번호 |
US-8175753
(2012-05-08)
|
|
발명자
/ 주소 |
- Sawczak, Stephen D.
- Komlenic, Todd
- Adams, Michael
|
| 출원인 / 주소 |
- The PNC Financial Services Group, Inc.
|
| 대리인 / 주소 |
|
| 인용정보 |
피인용 횟수 :
6 인용 특허 :
79 |
초록
▼
Methods of managing computer equipment: the methods may comprise receiving data indicating a power dissipated by computer equipment in a portion of the server room and receiving data indicating an actual airflow through the portion of the server room. The methods may also comprise calculating a targ
Methods of managing computer equipment: the methods may comprise receiving data indicating a power dissipated by computer equipment in a portion of the server room and receiving data indicating an actual airflow through the portion of the server room. The methods may also comprise calculating a target airflow in the portion of the server room considering the power dissipated by computer equipment in the portion of the server room and an expected difference in temperature between at least one hot aisle and at least one cold aisle in the portion of the server room, and calculating a recommended action for reaching the target airflow. The recommended action may be selected from the group consisting of: changing a static pressure generated by at least one cooling unit servicing the portion of the server room; changing a number of perforated tiles present in the portion of the server room; and changing the type of one or more perforated tiles present in the portion of the server room. The methods may also comprise displaying the recommended action and/or implementing the recommended action.
대표청구항
▼
1. A computer-implemented method of managing computer equipment, the method comprising: receiving with a server data indicating power dissipated by computer equipment in a portion of the server room, wherein the server comprises at least one processor and an operatively associated memory comprising
1. A computer-implemented method of managing computer equipment, the method comprising: receiving with a server data indicating power dissipated by computer equipment in a portion of the server room, wherein the server comprises at least one processor and an operatively associated memory comprising computer-readable instructions to be executed by the at least one processor, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receiving with the server data indicating an actual airflow through the portion of the server room;calculating with the server a target airflow in the portion of the server room considering the power dissipated by computer equipment in the portion of the server room and an expected difference in temperature between at least one hot aisle and at least one cold aisle in the portion of the server room;calculating with the server a recommended action for reaching the target airflow, wherein the recommended action comprises at least one action selected from the group consisting of: changing a static pressure generated by at least one cooling unit servicing the portion of the server room; changing a number of perforated tiles present in the portion of the server room; and changing the type of one or more perforated tiles present in the portion of the server room; andusing the server to display the recommended action. 2. The method of claim 1, further comprising receiving with the server data indicating a static pressure generated by at least one cooling unit in a portion of a server room and calculating the data indicating the actual airflow considering the static pressure and a number and type of perforated tiles present in the portion of the server room. 3. The method of claim 1, wherein the data indicating the actual airflow is received from at least one airflow sensor in communication with the server. 4. The method of claim 1, further comprising receiving with the server data indicating the expected difference in temperature from a user. 5. The method of claim 1, further comprising displaying with the server a curve illustrating a relationship between the difference in temperature and airflow for the given power dissipated. 6. The method of claim 1, further comprising receiving an adjusted power from a user, and using the server to recalculate the recommended action considering the adjusted power. 7. A system for managing computer equipment, the system comprising a server comprising at least one processor and operatively associated memory having instructions thereon that when implemented by the at least one processor cause the server to: receive data indicating a power dissipated by computer equipment in a portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receive data indicating an actual airflow through the portion of the server room;calculate a target airflow in the portion of the server room considering the power dissipated by computer equipment in the portion of the server room and an expected difference in temperature between at least one hot aisle and at least one cold aisle in the portion of the server room;calculate a recommended action for reaching the target airflow, wherein the recommended action comprises at least one action selected from the group consisting of: changing a static pressure generated by at least one cooling unit servicing the portion of the server room; changing a number of perforated tiles present in the portion of the server room; and changing the type of one or more perforated tiles present in the portion of the server room; anddisplay the recommended action. 8. The system of claim 7, wherein the at least one processor is further programmed to receive the expected difference in temperature from a user. 9. The system of claim 7, wherein the at least one processor is further programmed to display a curve illustrating a relationship between the difference in temperature and airflow for the given power dissipated. 10. The system of claim 7, wherein the at least one processor is further programmed to receive an adjusted power from a user, and recalculating the recommended action considering the adjusted power. 11. A non-transitory computer-readable medium having instructions thereon that when executed by at least one processor, cause the at least one processor to: receive data indicating a power dissipated by computer equipment in a portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receive data indicating an actual airflow through the portion of the server room;calculate a target airflow in the portion of the server room considering the power dissipated by computer equipment in the portion of the server room and an expected difference in temperature between at least one hot aisle and at least one cold aisle in the portion of the server room;calculate a recommended action for reaching the target airflow, wherein the recommended action comprises at least one action selected from the group consisting of: changing a static pressure generated by at least one cooling unit servicing the portion of the server room; changing a number of perforated tiles present in the portion of the server room; and changing the type of one or more perforated tiles present in the portion of the server room; anddisplay the recommended action. 12. A computer-implemented method of managing computer equipment, the method comprising: receiving with a server data indicating a power dissipated by computer equipment in the portion of the server room, wherein the server comprises at least one processor and an operatively associated memory comprising computer-readable instructions to be executed by the at least one processor, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receiving with the server data indicating an actual airflow through the portion of the server room;calculating with the server a target airflow considering the power dissipated by computer equipment in the portion of the server room, and a difference in temperature between hot and cold aisles in the portion of the server room;calculating a recommended action for reaching the target airflow; andimplementing the recommended action, wherein the recommended action comprises at least one action selected from the group consisting of: modifying a parameter of at least one cooling unit servicing the portion of the server room and modifying a state of at least one perforated tile present in the portion of the server room. 13. The method of claim 12, wherein a perforated tile selected from the at least one perforated tile has a mechanically adjustable airflow rate and comprises an electric motor configured to mechanically adjust the airflow rate. 14. The method of claim 12, wherein modifying a parameter of at least one cooling unit comprises modifying a static pressure generated by the cooling unit. 15. The method of claim 12, further comprising receiving data indicating a static pressure generated by at least one cooling unit in a portion of a server room, wherein the indication of actual airflow is calculated considering the static pressure and a number and type of perforated tiles present in the portion of the server room. 16. The method of claim 12, further comprising receiving data indicating a static pressure generated by at least one cooling unit in a portion of a server room, wherein the indication of actual airflow is calculated considering the static pressure and a number and type of perforated tiles present in the portion of the server room. 17. The method of claim 12, wherein the data indicating the actual airflow is received from at least one airflow sensor. 18. The method of claim 12, further comprising receiving data indicating the expected difference in temperature from a user. 19. The method of claim 12, further comprising displaying using the server a curve illustrating a relationship between the difference in temperature and airflow for the given power dissipated. 20. The method of claim 12, further comprising receiving data indicating an adjusted power from a user, and recalculating the recommended action considering the adjusted power. 21. A system of managing computer equipment, the system comprising a server comprising at least one processor and operatively associated memory having instructions thereon that when implemented by the at least one processor cause the server to: receive data indicating a power dissipated by computer equipment in the portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receive data indicating an actual airflow through the portion of the server room;calculate a target airflow considering the power dissipated by computer equipment in the portion of the server room, and a difference in temperature between hot and cold aisles in the portion of the server room;calculate a recommended action for reaching the target airflow; andimplement the recommended action, wherein the recommended action comprises at least one action selected from the group consisting of: modifying a parameter of at least one cooling unit servicing the portion of the server room and modifying a state of at least one perforated tile present in the portion of the server room. 22. The system of claim 21, wherein a perforated tile selected from the at least one perforated tile has a mechanically adjustable airflow rate and comprises an electric motor configured to mechanically adjust the airflow rate. 23. The system of claim 21, wherein modifying a parameter of at least one cooling unit comprises modifying a static pressure generated by the cooling unit. 24. The system of claim 21, wherein the associated memory further comprises instructions that cause the server to receive data indicating a static pressure generated by at least one cooling unit in a portion of a server room, wherein the data indicating actual airflow is calculated considering the static pressure and a number and type of perforated tiles present in the portion of the server room. 25. A non-transitory computer-readable medium having instructions thereon that when executed by at least one processor cause the at least one processor to: receive data indicating a power dissipated by computer equipment in the portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;receive data indicating an actual airflow through the portion of the server room;calculate a target airflow considering the power dissipated by computer equipment in the portion of the server room, and a difference in temperature between hot and cold aisles in the portion of the server room;calculate a recommended action for reaching the target airflow; andimplement the recommended action, wherein the recommended action comprises at least one action selected from the group consisting of: modifying a parameter of at least one cooling unit servicing the portion of the server room and modifying a state of at least one perforated tile present in the portion of the server room. 26. A system for managing computer equipment, the system comprising: means for receiving data indicating a power dissipated by computer equipment in a portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;means for receiving data indicating an actual airflow through the portion of the server room;means for calculating a target airflow in the portion of the server room considering the power dissipated by computer equipment in the portion of the server room and an expected difference in temperature between at least one hot aisle and at least one cold aisle in the portion of the server room;means for calculating a recommended action for reaching the target airflow, wherein the recommended action comprises at least one action selected from the group consisting of: changing a static pressure generated by at least one cooling unit servicing the portion of the server room; changing a number of perforated tiles present in the portion of the server room; and changing the type of one or more perforated tiles present in the portion of the server room; andmeans for displaying the recommended action. 27. A system for managing computer equipment, the system comprising: means for receiving data indicating a power dissipated by computer equipment in the portion of the server room, wherein the computer equipment is positioned in a plurality of cabinets arranged in rows defining alternating cold and hot aisles therebetween, wherein airflow through the portion of the server room circulates from floor portions of the cold aisles, through the cabinets to warm air returns positioned near ceiling portions of the hot air aisles;means for receiving data indicating an actual airflow through the portion of the server room;means for calculating a target airflow considering the power dissipated by computer equipment in the portion of the server room, and a difference in temperature between hot and cold aisles in the portion of the server room;means for calculating a recommended action for reaching the target airflow; andmeans for implementing the recommended action, wherein the recommended action comprises at least one action selected from the group consisting of: modifying a parameter of at least one cooling unit servicing the portion of the server room and modifying a state of at least one perforated tile present in the portion of the server room.
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