System and method for providing annotated service blueprints in an intelligent workload management system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-009/455
G06F-009/46
출원번호
US-0900866
(2010-10-08)
등록번호
US-8448170
(2013-05-21)
발명자
/ 주소
Wipfel, Robert
Anderson, Eric W. B.
출원인 / 주소
Novell, Inc.
대리인 / 주소
Schwegman, Lundberg & Woessner, P.A.
인용정보
피인용 횟수 :
65인용 특허 :
1
초록▼
The system and method described herein for providing annotated service blueprints in an intelligent workload management system may include a computing environment having a model-driven, service-oriented architecture for creating collaborative threads to manage workloads. In particular, the managemen
The system and method described herein for providing annotated service blueprints in an intelligent workload management system may include a computing environment having a model-driven, service-oriented architecture for creating collaborative threads to manage workloads. In particular, the management threads may converge information for creating annotated service blueprints to provision and manage tessellated services distributed within an information technology infrastructure. For example, in response to a request to provision a service, a service blueprint describing one or more virtual machines may be created. The service blueprint may then be annotated to apply various parameters to the virtual machines, and the annotated service blueprint may then be instantiated to orchestrate the virtual machines with the one or more parameters and deploy the orchestrated virtual machines on information technology resources allocated to host the requested service, thereby provisioning the requested service.
대표청구항▼
1. A system for providing annotated service blueprints in an intelligent workload management system, wherein the system comprises one or more processors configured to: receive a request to provision a service having one or more parameters;create a service blueprint in response to the request, wherei
1. A system for providing annotated service blueprints in an intelligent workload management system, wherein the system comprises one or more processors configured to: receive a request to provision a service having one or more parameters;create a service blueprint in response to the request, wherein the service blueprint describes one or more virtual machines configured to provide the requested service;annotate the service blueprint with one or more annotations that describe the one or more parameters, wherein the one or more annotations apply the one or more parameters to the one or more virtual machines configured to provide the requested service; andinstantiate the annotated service blueprint to provision the requested service, wherein to instantiate the annotated service blueprint, the one or more processors are further configured to: allocate one or more information technology resources to the requested service, wherein the one or more information technology resources allocated to the requested service host the one or more virtual machines configured to provide the requested service and described in the annotated service blueprint;orchestrate the one or more virtual machines hosted on the one or more information technology resources, wherein the orchestrated virtual machines apply the one or more parameters described in the one or more annotations, wherein the annotated service blueprint tessellates the one or more virtual machines and the one or more annotations in a data structure that the one or more processors instantiate;define one or more virtual distribution layers for the one or more virtual machines tessellated in the annotated service blueprint, wherein the one or more virtual distribution layers include pointers to locations that provide the service with storage capacity within the allocated resources, operating systems that the service uses to run one or more applications, and workload profiles that apply the one or more parameters to the virtual machines; anddefine one or more physical distribution layers for the one or more virtual machines tessellated in the annotated service blueprint, wherein the one or more physical distribution layers include functional kernels, hardware drivers, hypervisors, and software packages that provide an interface from the virtual distribution layers to the allocated resources that host the one or more virtual machines. 2. The system of claim 1, wherein the one or more processors allocate the one or more information technology resources to the requested service and orchestrate the one or more virtual machines on-demand in response to a subsequent request to use the service. 3. The system of claim 1, wherein the one or more processors are further configured to: archive the annotated service blueprint instantiated to provision the requested service within one or more repositories; andinstantiate the archived annotated service blueprint to provision a subsequently requested service having substantially similar characteristics to the service provisioned from the archived annotated service blueprint. 4. A system for providing annotated service blueprints in an intelligent workload management system, wherein the system comprises one or more processors configured to: receive a request to provision a service having one or more parameters;create a service blueprint in response to the request, wherein the service blueprint describes one or more virtual machines configured to provide the requested service;annotate the service blueprint with one or more annotations that describe the one or more parameters, wherein the one or more annotations apply the one or more parameters to the one or more virtual machines configured to provide the requested service; andinstantiate the annotated service blueprint to provision the requested service, wherein to instantiate the annotated service blueprint, the one or more processors are further configured to: allocate one or more information technology resources to the requested service, wherein the one or more information technology resources allocated to the requested service host the one or more virtual machines configured to provide the requested service and described in the annotated service blueprint;orchestrate the one or more virtual machines hosted on the one or more information technology resources, wherein the orchestrated virtual machines apply the one or more parameters described in the one or more annotations;instantiate a management parent daemon that initializes a management infrastructure, wherein the management parent daemon spawns one or more child processes that create one or more management-level virtual machines to provide the management infrastructure, allocate the one or more information technology resources to the requested service, and orchestrate the one or more hosted virtual machines;monitor the one or more hosted virtual machines to determine whether the service complies with a service level agreement, wherein the one or more annotations declare the service level agreement from the one or more parameters;manage a remediation workload in response to determining that the service does not comply with the service level agreement, wherein one or more automated entities and one or more human entities collaborate in the managed remediation workload to resolve one or more exceptions that caused the service to not comply with the service level agreement; and generate a management report that describes an outcome from the managed remediation workload, wherein the one or more processors store the management report in one or more repositories that associate the management report with the service. 5. The system of claim 4, wherein the one or more processors determine that the service does not comply with the service level agreement in response to activity that the service performs violating one or more policies declared from the one or more parameters, or in response to the activity that the service performs having actual performance criteria that fails to satisfy required performance criteria defined in the service level agreement. 6. The system of claim 5, wherein the outcome from the managed remediation workload includes one or more processes that the one or more automated entities and the one or more human entities performed make the service comply with the service level agreement. 7. A system for providing annotated service blueprints in an intelligent workload management system, wherein the system comprises one or more processors configured to: receive a request to provision a service having one or more parameters;create a service blueprint in response to the request, wherein the service blueprint describes one or more virtual machines configured to provide the requested service;annotate the service blueprint with one or more annotations that describe the one or more parameters, wherein the one or more annotations apply the one or more parameters to the one or more virtual machines configured to provide the requested service; andinstantiate the annotated service blueprint to provision the requested service, wherein to instantiate the annotated service blueprint, the one or more processors are further configured to: allocate one or more information technology resources to the requested service, wherein the one or more information technology resources allocated to the requested service host the one or more virtual machines configured to provide the requested service and described in the annotated service blueprint;orchestrate the one or more virtual machines hosted on the one or more information technology resources, wherein the orchestrated virtual machines apply the one or more parameters described in the one or more annotations;receive a management request from one or more agents inserted within the one or more hosted virtual machines, wherein the one or more agents generate the management request in response to determining that the service does not comply with a service level agreement declared from the one or more parameters;manage a remediation workload in response to the management request, wherein one or more automated entities and one or more human entities collaborate in the managed remediation workload to resolve one or more exceptions that caused the service to not comply with the service level agreement; andgenerate a management report that describes an outcome from the managed remediation workload, wherein the one or more processors store the management report in one or more repositories that associate the management report with the service. 8. A method for providing annotated service blueprints in an intelligent workload management system, comprising: receiving a request to provision a service having one or more parameters;creating a service blueprint in response to the request, wherein the service blueprint describes one or more virtual machines configured to provide the requested service;annotating the service blueprint with one or more annotations that describe the one or more parameters, wherein the one or more annotations apply the one or more parameters to the one or more virtual machines configured to provide the requested service; andinstantiating the annotated service blueprint to provision the requested service, wherein instantiating the annotated service blueprint includes: allocating one or more information technology resources to the requested service, wherein the one or more information technology resources allocated to the requested service host the one or more virtual machines configured to provide the requested service and described in the annotated service blueprint;orchestrating the one or more virtual machines hosted on the one or more information technology resources, wherein the orchestrated virtual machines apply the one or more parameters described in the one or more annotations, wherein the annotated service blueprint tessellates the one or more virtual machines and the one or more annotations in a data structure that the one or more processors instantiate;defining one or more virtual distribution layers for the one or more virtual machines tessellated in the annotated service blueprint, wherein the one or more virtual distribution layers include pointers to locations that provide the service with storage capacity within the allocated resources, operating systems that the service uses to run one or more applications, and workload profiles that apply the one or more parameters to the virtual machines; anddefining one or more physical distribution layers for the one or more virtual machines tessellated in the annotated service blueprint, wherein the one or more physical distribution layers include functional kernels, hardware drivers, hypervisors, and software packages that provide an interface from the virtual distribution layers to the allocated resources that host the one or more virtual machines. 9. The method of claim 8, wherein one or more processors allocate the one or more information technology resources to the requested service and orchestrate the one or more virtual machines on-demand in response to a subsequent request to use the service. 10. The method of claim 8, further comprising: archiving the annotated service blueprint instantiated to provision the requested service within one or more repositories; andinstantiating the archived annotated service blueprint to provision a subsequently requested service having substantially similar characteristics to the service provisioned from the archived annotated service blueprint. 11. The method of claim 8, further comprising: receiving a management request from one or more agents inserted within the one or more hosted virtual machines, wherein the one or more agents generate the management request in response to determining that the service does not comply with a service level agreement declared from the one or more parameters;managing a remediation workload in response to the management request, wherein one or more automated entities and one or more human entities collaborate in the managed remediation workload to resolve one or more exceptions that caused the service to not comply with the service level agreement; andgenerating a management report that describes an outcome from the managed remediation workload, wherein one or more processors store the management report in one or more repositories that associate the management report with the service. 12. A method for providing annotated service blueprints in an intelligent workload management system, comprising: receiving a request to provision a service having one or more parameters;creating a service blueprint in response to the request, wherein the service blueprint describes one or more virtual machines configured to provide the requested service;annotating the service blueprint with one or more annotations that describe the one or more parameters, wherein the one or more annotations apply the one or more parameters to the one or more virtual machines configured to provide the requested service; andinstantiating the annotated service blueprint to provision the requested service, wherein instantiating the annotated service blueprint includes: allocating one or more information technology resources to the requested service, wherein the one or more information technology resources allocated to the requested service host the one or more virtual machines configured to provide the requested service and described in the annotated service blueprint;orchestrating the one or more virtual machines hosted on the one or more information technology resources, wherein the orchestrated virtual machines apply the one or more parameters described in the one or more annotationsinstantiating a management parent daemon that initializes a management infrastructure, wherein the management parent daemon spawns one or more child processes that create one or more management-level virtual machines to provide the management infrastructure, allocate the one or more information technology resources to the requested service, and orchestrate the one or more hosted virtual machines;monitoring the one or more hosted virtual machines to determine whether the service complies with a service level agreement, wherein the one or more annotations declare the service level agreement from the one or more parameters;managing a remediation workload in response to determining that the service does not comply with the service level agreement, wherein one or more automated entities and one or more human entities collaborate in the managed remediation workload to resolve one or more exceptions that caused the service to not comply with the service level agreement; andgenerating a management report that describes an outcome from the managed remediation workload, wherein one or more processors store the management report in one or more repositories that associate the management report with the service. 13. The method of claim 12, further comprising determining that the service does not comply with the service level agreement in response to activity that the service performs violating one or more policies declared from the one or more parameters, or in response to the activity that the service performs having actual performance criteria that fails to satisfy required performance criteria defined in the service level agreement. 14. The method of claim 13, wherein the outcome from the managed remediation workload includes one or more processes that the one or more automated entities and the one or more human entities performed make the service comply with the service level agreement.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (1)
Khandekar, Dilip; Petkovic, Dragutin; Subrahmanyam, Pratap; Le, Bich Cau, Provisioning of computer systems using virtual machines.
Osterhout, Ralph F.; Haddick, John D.; Lohse, Robert Michael; Cella, Charles; Nortrup, Robert J.; Nortrup, Edward H., AR glasses with event and sensor triggered AR eyepiece interface to external devices.
Osterhout, Ralph F.; Haddick, John D.; Lohse, Robert Michael; Cella, Charles; Nortrup, Robert J.; Nortrup, Edward H., AR glasses with event and sensor triggered control of AR eyepiece applications.
Osterhout, Ralph F.; Haddick, John D.; Lohse, Robert Michael; Cella, Charles; Nortrup, Robert J.; Nortrup, Edward H., AR glasses with event and user action control of external applications.
Osterhout, Ralph F.; Haddick, John D.; Lohse, Robert Michael; Border, John N.; Miller, Gregory D.; Stovall, Ross W., Eyepiece with uniformly illuminated reflective display.
Miller, Gregory D.; Border, John N.; Osterhout, Ralph F., Grating in a light transmissive illumination system for see-through near-eye display glasses.
Schneider, Donovan A.; Im, Fred; Chakravarthy, Vijayasarathy, Integration user for analytical access to read only data stores generated from transactional systems.
Schneider, Donovan; Im, Fred; Silver, Daniel C.; Chakravarthy, Vijayasarathy, Low latency architecture with directory service for integration of transactional data system with analytical data structures.
Miller, Gregory D.; Border, John N.; Osterhout, Ralph F., Optical imperfections in a light transmissive illumination system for see-through near-eye display glasses.
Border, John N.; Osterhout, Ralph F., See-through near-eye display glasses including an auto-brightness control for the display brightness based on the brightness in the environment.
Border, John N.; Osterhout, Ralph F., See-through near-eye display glasses with a fast response photochromic film system for quick transition from dark to clear.
Border, John N.; Haddick, John D.; Osterhout, Ralph F., See-through near-eye display glasses with a light transmissive wedge shaped illumination system.
Border, John N.; Haddick, John D.; Lohse, Robert Michael; Osterhout, Ralph F., See-through near-eye display glasses with the optical assembly including absorptive polarizers or anti-reflective coatings to reduce stray light.
Carson, Richard Steven; Foust, James Warren; Michalski, Michele Gay; Kim, Sook Kenna; Bond, David G., Structured requirement generation and assessment.
Capalik, Alen; Andrews, David; Becker, Ben, System and method for identifying unauthorized activities on a computer system using a data structure model.
Capalik, Alen; Andrews, David; Becker, Ben, System and method for identifying unauthorized activities on a computer system using a data structure model.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.