Profiling Operating Efficiency Deviations of A Computing System

Content Provider	The Lens
Abstract	Profiling operating efficiency deviations of a computing system includes: generating a profile of expected operating efficiency for a computing system in an ideal configuration; for each of a plurality of alternative configurations of the computing system, wherein each of the alternative configurations includes a variation of the ideal configuration that introduces a deviation in operating efficiency of the computing system, said variation comprising a root cause of the deviation: monitoring operating efficiency of the computing system identifying, from the monitored operating efficiency, a deviation of operating efficiency from the expected operating efficiency; and recording, in a data structure, an association of the deviation and the root cause of the deviation.
Related Links	https://www.lens.org/lens/patent/009-365-017-112-324/frontpage
Language	English
Publisher Date	2019-08-27
Access Restriction	Open
Content Type	Text
Resource Type	Patent
Jurisdiction	United States of America
Date Applied	2016-05-16
Applicant	Lenovo Entpr Solutions Singapore Pte Ltd
Application No.	201615155980
Claim	A method comprising: by first programming instructions on a computing system: generating in a controlled environment a profile of expected operating efficiency for the computing system in an ideal configuration, the controlled environment comprising a non-performance environment in which the computing system is tested without interference from performance conditions, the ideal configuration comprising a configuration of the computing system with no known causes for reduced operating efficiency; for each of a plurality of alternative configurations of the computing system, wherein each of the alternative configurations includes a variation of the ideal configuration that introduces a deviation in operating efficiency of the computing system, said variation comprising a root cause of the deviation, wherein at least one of the plurality of alternative configurations of the computing system includes an external impedance to air flow through the computing system: monitoring operating efficiency of the computing system; identifying, from the monitored operating efficiency, a deviation of operating efficiency from the expected operating efficiency; and recording, in a data structure, an association of the deviation and the root cause of the deviation; monitoring operating efficiency of the computing system in a performance environment; identifying for the computing system in the performance environment, in dependence upon the profile of expected operating efficiency for the computing system, a deviation from the expected operating efficiency; and determining, in dependence upon the identified deviation, a root cause of the identified deviation of the computing system in the performance environment from the recorded associations of deviations and root causes. The method of claim 1 , the method further comprises: notifying a user of the deviation and the root cause. The method of claim 2 wherein notifying the user of the deviation and the root cause further comprises activating a visual indicator. The method of claim 2 wherein notifying the user of the deviation and the root cause further comprises sending a message to a system management module configured to manage the computing system. The method of claim 2 further comprising performing one or more corrective actions including altering a role of the computing system until the operating efficiency of the computer system in the performance environment does not deviate from the expected operating efficiency. The method of claim 2 further comprising performing one or more corrective actions including altering workload distribution to the computing system in the performance environment until the operating efficiency does not deviate from the expected operating efficiency. The method of claim 1 wherein monitoring operating efficiency of the computing system, identifying a deviation of operating efficiency from the expected operating efficiency, and recording an association of the deviation and the root cause of the deviation in a data structure is carried out in the controlled environment. The method of claim 1 wherein monitoring operating efficiency of the computing system, identifying a deviation of operating efficiency from the expected operating efficiency, and recording an association of the deviation and the root cause of the deviation in a data structure is carried out in the performance environment, dynamically over time. The method of claim 1 wherein the computing system in the ideal configuration is a computing system in which solder joints are well established, components of the computing system are dust free, airflow is not impeded through the computing system due to physical articles, internal wiring of the computing system is laid out to increase airflow within the computing system, and thermal paste is well applied to components of the computing system requiring thermal paste, and wherein each variation of the ideal configuration includes at least one of: altered solder joints, reduced fan speed to simulate dust buildup, simulated airflow resistance caused by poor rack cable routing, decreased internal airflow by rerouting internal wiring in a non-optimized manner, and reduced thermal paste applications to substandard levels. An apparatus comprising a computer processor and a computer memory operatively coupled to the computer processor, wherein the computer memory comprises computer program instructions that, when executed by the computer processor, cause the apparatus to carry out: generating in a controlled environment a profile of expected operating efficiency for the computing system in an ideal configuration, the controlled environment comprising a non-performance environment in which the computing system is tested without interference from performance conditions, the ideal configuration comprising a configuration of the computing system with no known causes for reduced operating efficiency; for each of a plurality of alternative configurations of the computing system, wherein each of the alternative configurations includes a variation of the ideal configuration that introduces a deviation in operating efficiency of the computing system, said variation comprising a root cause of the deviation, wherein at least one of the plurality of alternative configurations of the computing system includes an external impedance to air flow through the computing system: monitoring operating efficiency of the computing system; identifying, from the monitored operating efficiency, a deviation of operating efficiency from the expected operating efficiency; and recording, in a data structure, an association of the deviation and the root cause of the deviation; monitoring operating efficiency of the computing system in a performance environment; identifying for the computing system in the performance environment, in dependence upon the profile of expected operating efficiency for the computing system, a deviation from the expected operating efficiency; and determining, in dependence upon the identified deviation, a root cause of the identified deviation of the computing system in the performance environment from the recorded associations of deviations and root causes. The apparatus of claim 10 , further comprises computer program instructions that, when executed, cause the apparatus to carry out: notifying a user of the deviation and the root cause. The apparatus of claim 11 further comprising computer program instructions that, when executed, cause the apparatus to carry out performing one or more corrective actions including altering a role of the computing system until the operating efficiency of the computer system in the performance environment does not deviate from the expected operating efficiency. The apparatus of claim 11 further comprising computer program instructions that, when executed, cause the apparatus to carry out performing one or more corrective actions including altering workload distribution to the computing system in the performance environment until the operating efficiency does not deviate from the expected operating efficiency. The apparatus of claim 10 wherein monitoring operating efficiency of the computing system, identifying a deviation of operating efficiency from the expected operating efficiency, and recording an association of the deviation and the root cause of the deviation in a data structure is carried out in the controlled environment. The apparatus of claim 10 wherein monitoring operating efficiency of the computing system, identifying a deviation of operating efficiency from the expected operating efficiency, and recording an association of the deviation and the root cause of the deviation in a data structure is carried out in the performance environment, dynamically over time. A computer program product for profiling operating efficiency deviations of a computing system, the computer program product disposed upon a computer readable storage medium, the computer program product comprising computer program instructions that, when executed, cause a computer to carry out the steps of: generating in a controlled environment a profile of expected operating efficiency for the computing system in an ideal configuration, the controlled environment comprising a non-performance environment in which the computing system is tested without interference from performance conditions, the ideal configuration comprising a configuration of the computing system with no known causes for reduced operating efficiency; for each of a plurality of alternative configurations of the computing system, wherein each of the alternative configurations includes a variation of the ideal configuration that introduces a deviation in operating efficiency of the computing system, said variation comprising a root cause of the deviation, wherein at least one of the plurality of alternative configurations of the computing system includes an external impedance to air flow through the computing system: monitoring operating efficiency of the computing system; identifying, from the monitored operating efficiency, a deviation of operating efficiency from the expected operating efficiency; and recording, in a data structure, an association of the deviation and the root cause of the deviation; monitoring operating efficiency of the computing system in a performance environment; identifying for the computing system in the performance environment, in dependence upon the profile of expected operating efficiency for the computing system, a deviation from the expected operating efficiency; and determining, in dependence upon the identified deviation, a root cause of the identified deviation of the computing system in the performance environment from the recorded associations of deviations and root causes. The computer program product of claim 16 , further comprises computer program instructions that, when executed, cause the apparatus to carry out: notifying a user of the deviation and the root cause. The computer program product of claim 17 further comprising computer program instructions that, when executed, cause the computer to carry out performing one or more corrective actions including altering a role of the computing system until the operating efficiency of the computer system in the performance environment does not deviate from the expected operating efficiency. The computer program product of claim 17 further comprising computer program instructions that, when executed, cause the computer to carry out performing one or more corrective actions including altering workload distribution to the computing system in the performance environment until the operating efficiency does not deviate from the expected operating efficiency. The computer program product of claim 16 wherein monitoring operating efficiency of the computing system, identifying a deviation of operating efficiency from the expected operating efficiency, and recording an association of the deviation and the root cause of the deviation in a data structure is carried out in the controlled environment.
CPC Classification	ELECTRIC DIGITAL DATA PROCESSING HEAT-EXCHANGE APPARATUS; NOT PROVIDED FOR IN ANOTHER SUBCLASS; IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT PRINTED CIRCUITS;CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS;MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
Examiner	Emerson C Puente Jonathan R Labud
Extended Family	009-365-017-112-324 048-391-192-882-100
Patent ID	10394681
Inventor/Author	Alshinnawi Shareef F Cudak Gary D Herman Jr Joseph F Matteson Jason A Weber J Mark
IPC	F28D15/00 G06F11/32 G06F11/34 H05K7/20
Status	Active
Owner	Lenovo Global Technologies International Ltd Lenovo Global Technologies Switzerland International Gmbh Lenovo Enterprise Solutions (singapore) Pte. Ltd
Simple Family	009-365-017-112-324 048-391-192-882-100
CPC (with Group)	G06F11/3409 G06F11/321 G06F11/3457 G06F11/34 F28D15/00 H05K7/202
Issuing Authority	United States Patent and Trademark Office (USPTO)
Kind	Patent/New European patent specification (amended specification after opposition procedure)