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公开(公告)号:US20220114251A1
公开(公告)日:2022-04-14
申请号:US17561134
申请日:2021-12-23
申请人: Francesc Guim Bernat , Kshitij Arun Doshi , Adrian Hoban , Thijs Metsch , Dario Nicolas Oliver , Marcos E. Carranza , Mats Gustav Agerstam , Bin Li , Patrick Koeberl , Susanne M. Balle , John J. Browne , Cesar Martinez-Spessot , Ned M. Smith
发明人: Francesc Guim Bernat , Kshitij Arun Doshi , Adrian Hoban , Thijs Metsch , Dario Nicolas Oliver , Marcos E. Carranza , Mats Gustav Agerstam , Bin Li , Patrick Koeberl , Susanne M. Balle , John J. Browne , Cesar Martinez-Spessot , Ned M. Smith
IPC分类号: G06F21/51 , G06F21/57 , H04L43/0823 , H04L41/5009
摘要: Various systems and methods for implementing reputation management and intent-based security mechanisms are described herein. A system for implementing intent-driven security mechanisms, configured to: determine, based on a risk tolerance intent related to execution of an application on a compute node, whether execution of a software-implemented operator requires a trust evaluation; and in response to determining that the software-implemented operator requires the trust evaluation: obtain a reputation score of the software-implemented operator; determine a minimum reputation score from the risk tolerance intent; compare the reputation score of the software-implemented operator to the minimum reputation score; and reject or permit execution of the software-implemented operator based on the comparison
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公开(公告)号:US20210116261A1
公开(公告)日:2021-04-22
申请号:US17247844
申请日:2020-12-26
申请人: Francesc Guim Bernat , Marcos E. Carranza , Satish Chandra Jha , Sindhu Pandian , Lakshmi Talluru , Cesar Martinez-Spessot , Mateo Guzman , Dario Nicolas Oliver , Ignacio J. Alvarez , David Gonzalez Aguirre , Javier Felip Leon , S M Iftekharul Alam
发明人: Francesc Guim Bernat , Marcos E. Carranza , Satish Chandra Jha , Sindhu Pandian , Lakshmi Talluru , Cesar Martinez-Spessot , Mateo Guzman , Dario Nicolas Oliver , Ignacio J. Alvarez , David Gonzalez Aguirre , Javier Felip Leon , S M Iftekharul Alam
摘要: Disclosed herein are systems and methods for vehicle-occupancy-based and user-preference-based smart routing, and autonomous volumetric-occupancy measurement. In an embodiment, a system is configured to receive from a user device associated with a user, a routing-options request for routing options between two locations, and to responsively identify one or more routing options between the two locations based at least in part on occupancy data for a vehicle that would be utilized for at least a portion of at least one of the identified routing options. The occupancy data is based on an output of an automated occupancy-measurement system onboard the vehicle. The system is also configured to provide the one or more identified routing options to the user device. In some embodiments, the occupancy data is obtained using volumetric-occupancy measurement. Some embodiments relate to volumetric-occupancy measurement conducted by autonomous mesh nodes.
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公开(公告)号:US20210109731A1
公开(公告)日:2021-04-15
申请号:US17131561
申请日:2020-12-22
申请人: Dario Nicolas Oliver , Marcos E. Carranza , Cesar Martinez-Spessot , Francesc Guim Bernat , Mateo Guzman , Sindhu Pandian , Ignacio Javier Alvarez Martinez , Mats Gustav Agerstam
发明人: Dario Nicolas Oliver , Marcos E. Carranza , Cesar Martinez-Spessot , Francesc Guim Bernat , Mateo Guzman , Sindhu Pandian , Ignacio Javier Alvarez Martinez , Mats Gustav Agerstam
IPC分类号: G06F8/61 , H04W12/033 , G06F21/71 , H04L29/08 , H04B1/38
摘要: System and techniques for hands-free deployment of geographically linked applications are described herein. A radio transceiver of a vehicle may detect a beacon. Here, the beacon includes an indication that an application linked to a geographical area covered by the beacon is available. The vehicle may establish a secure communications link with an application server corresponding to the beacon and receive, through the secure communications link, an application. Then, the vehicle may execute the application in a protected execution environment without intervention by a user of the vehicle.
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公开(公告)号:US20230140252A1
公开(公告)日:2023-05-04
申请号:US18090842
申请日:2022-12-29
申请人: Marcos E Carranza , Dario Nicolas Oliver , Francesc Guim Bernat , Mateo Guzman , Cesar Martinez-Spessot
发明人: Marcos E Carranza , Dario Nicolas Oliver , Francesc Guim Bernat , Mateo Guzman , Cesar Martinez-Spessot
IPC分类号: H04L9/40
摘要: Various approaches for deploying and controlling distributed compute operations with the use of infrastructure processing units (IPUs) and similar networked processing units are disclosed. For example, a request to verify integrity of a device is received at a networking infrastructure device. A representation of device components of the device may be obtained. The representation of the device components may be compared with a reference value held by the networking infrastructure device. A response to the request may be transmitted based on matching the representation of the device components and the reference value. Here, the response indicates that the integrity of the device is intact.
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公开(公告)号:US20220124009A1
公开(公告)日:2022-04-21
申请号:US17561061
申请日:2021-12-23
申请人: Thijs Metsch , Susanne M. Balle , Patrick Koeberl , Bin Li , Mark Yarvis , Adrian Hoban , Kshitij Arun Doshi , Francesc Guim Bernat , Cesar Martinez-Spessot , Mats Gustav Agerstam , Dario Nicolas Oliver , Marcos E. Carranza , John J. Browne , Mikko Ylinen , David Cremins
发明人: Thijs Metsch , Susanne M. Balle , Patrick Koeberl , Bin Li , Mark Yarvis , Adrian Hoban , Kshitij Arun Doshi , Francesc Guim Bernat , Cesar Martinez-Spessot , Mats Gustav Agerstam , Dario Nicolas Oliver , Marcos E. Carranza , John J. Browne , Mikko Ylinen , David Cremins
IPC分类号: H04L41/5054 , H04L47/72 , H04L43/08 , H04L41/5025
摘要: Various systems and methods for implementing intent-based orchestration in heterogenous compute platforms are described herein. An orchestration system is configured to: receive, at the orchestration system, a workload request for a workload, the workload request including an intent-based service level objective (SLO); generate rules for resource allocation based on the workload request; generate a deployment plan using the rules for resource allocation and the intent-based SLO; deploy the workload using the deployment plan; monitor performance of the workload using real-time telemetry; and modify the rules for resource allocation and the deployment plan based on the real-time telemetry.
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公开(公告)号:US20220121455A1
公开(公告)日:2022-04-21
申请号:US17561181
申请日:2021-12-23
申请人: Adrian Hoban , Thijs Metsch , Francesc Guim Bernat , John J. Browne , Kshitij Arun Doshi , Mark Yarvis , Bin Li , Susanne M. Balle , Benjamin Walker , David Cremins , Mats Gustav Agerstam , Marcos E. Carranza , MIkko Ylinen , Dario Nicolas Oliver , John Mangan
发明人: Adrian Hoban , Thijs Metsch , Francesc Guim Bernat , John J. Browne , Kshitij Arun Doshi , Mark Yarvis , Bin Li , Susanne M. Balle , Benjamin Walker , David Cremins , Mats Gustav Agerstam , Marcos E. Carranza , MIkko Ylinen , Dario Nicolas Oliver , John Mangan
摘要: Various systems and methods for implementing intent-based cluster administration are described herein. An orchestrator system includes: a processor; and memory to store instructions, which when executed by the processor, cause the orchestrator system to: receive, at the orchestrator system, an administrative intent-based service level objective (SLO) for an infrastructure configuration of an infrastructure; map the administrative intent-based SLO to a set of imperative policies; deploy the set of imperative policies to the infrastructure; monitor performance of the infrastructure; detect non-compliance with the set of imperative policies; and modify the administrative intent-based SLO to generate a revised set of imperative policies that cause the performance of the infrastructure to be compliant with the revised set of imperative policies.
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