Patent application number | Description | Published |
20110161527 | Distributed Computing Bus - A distributed computing bus that provides both data transport and ambient computing power is provided. Contemplated buses comprise a network fabric of interconnected networking infrastructure nodes capable of being programmed before or after installation in the field. A fabric manager organizes the fabric into a bus topology communicatively coupling computing elements that exchange payload data using a bus protocol. Nodes within the bus topology operate on the payload data as the data passes through the node on route to its destination. | 06-30-2011 |
20120131674 | Vector-Based Anomaly Detection - Methods of detecting anomalous behaviors associated with a fabric are presented. A network fabric can comprise many fungible networking nodes, preferably hybrid-fabric apparatus capable of routing general purpose packet data and executing distributed applications. A nominal behavior can be established for the fabric and represented by a baseline vector of behavior metrics. Anomaly detection criteria can be derived as a function of a variation from the baseline vector based on measured vectors of behavior metrics. Nodes in the fabric can provide a status for one or more anomaly criterion, which can be aggregated to determine if an anomalous behavior has occurred, is occurring, or is about to occur. | 05-24-2012 |
20120166601 | Distributed Network Interfaces for Application Cloaking and Spoofing - Systems and methods associated with distributing an application's network interface over nodes of a networking fabric are presented. Nodes of the fabric can operate as interface modules, each taking on a role or responsibility for a portion of the application's network address including IP address, port assignments, or other portions of the network address. Interface modules of the networking nodes can then spoof or cloak the application to provide security against internal or external threats. | 06-28-2012 |
20140314408 | HARMONIZED CONTROL PLANES, SYSTEMS AND METHODS - A control plane management system is disclosed for distributed or virtualized network fabrics. The system instantiates a harmonized control plane that aids in provisioning resources across layers within a fabric. The system comprises a network fabric interface that couples with a network fabric of interconnected nodes. The system further comprises a control plane management engine coupled with the network fabric interface. The management engine obtains one or more resource profiles related to each of an upper networking layer of the fabric and a lower networking layer of the fabric, and constructs a control plane provisioning policy as a function of the upper and lower networking layer resource profiles. The management engine then instantiates a harmonized control plane, according to the provisioning policy, by creating a harmonized control plane object having rules outlining the responsibilities of the harmonized control plane. | 10-23-2014 |
20140359094 | Hybrid Transport - Application Network Fabric Apparatus - A hybrid routing—application network fabric apparatus is presented where a fabric apparatus has multiple apparatus components or resources that can be dedicated to one or more application topologies. The apparatus can receive a topology image definition file describing an application topology and the apparatus can dedicate its local components for use with the application topology. The apparatus can dedicate general purpose processing cores, dedicated routing cores, data channels, networking ports, memory or other local resources to the application topology. Contemplated application topologies include routing topologies, computation topologies, database topologies, storage topologies, or other types of application topologies. Furthermore, application topologies can be optimized by modeling or simulating the topologies on a network fabric. | 12-04-2014 |
20150024676 | LAST MILE DATA DELIVERY SYSTEMS AND METHODS - A data delivery system leverages existing satellite infrastructure to deliver massive data sets (e.g., genomic data) to last-mile, remote or rural, locations. The system repurposes existing high-capacity satellite links normally used to broadcast entertainment content by creating customized channels specifically adapted to delivering large data sets to be stored upon computer systems. | 01-22-2015 |
20150026320 | Distributed Network Interfaces For Application Cloaking And Spoofing - Systems and methods associated with distributing an application's network interface over nodes of a networking fabric are presented. Nodes of the fabric can operate as interface modules, each taking on a role or responsibility for a portion of the application's network address including IP address, port assignments, or other portions of the network address. Interface modules of the networking nodes can then spoof or cloak the application to provide security against internal or external threats. | 01-22-2015 |
20150043410 | Power Management Of A Personal Area Fabric - A power management system for a personal area fabric having a plurality of nodes is presented. The system implements power management functions at the fabric-level via fabric-level power profiles reflecting the aggregated power profiles from some or all of the nodes in the fabric. The fabric-level power profiles are used to trigger the implementation of fabric power configurations that cause the individual nodes to modify their operations in the interest of a fabric-level power management plan. | 02-12-2015 |
Patent application number | Description | Published |
20090154391 | Surface-Space Managed Network Fabric - A managed surface-space network fabric is presented. The surface-space network fabric can include a spaced-based network fabric and a surface-based network fabric integrated together to form a single fabric managed by a global fabric manager. The global fabric manager cooperates with other fabric managers local to each fabric to establish a communication topology among all the nodes of the fabric. Preferred topologies include paths from any port on a node to any other port on another node in the fabric. The surface-space fabric, and each individual fabric, can function as a distributed core fabric operating as a single, coherent device. | 06-18-2009 |
20090157860 | DISAGGREGATED NETWORK MANAGEMENT - Systems and methods for disaggregated management of a network fabric are presented. Network elements composing the network fabric can operate as a fabric manager with respect to one or more management functions while also continuing to operate as a communication conduit among hosts using the fabric. The roles or responsibilities of a fabric manager can migrate from one network element to another to preserve management coherency as well as to secure management of the network. Additionally, fabric managers communicate with the network fabric through one or more management channels. | 06-18-2009 |
20090198792 | Software Application Striping - A distributed computing system comprising networking infrastructure and methods of executing an application on the distributed computing system is presented. Interconnected networking nodes offering available computing resources form a network fabric. The computing resources can be allocated from the networking nodes, including available processing cores or memory elements located on the networking nodes. A software application can be stored in a system memory comprising memory elements allocated from the nodes. The software application can be disaggregated into a plurality of executable portions that are striped across the allocated processing cores by assigning each core a portion to execute. When the cores are authenticated with respect to their portions, the cores are allowed to execute the portions by accessing the system memory over the fabric. While executing the software application, the networking nodes having the allocated cores concurrently forward packets through the fabric. | 08-06-2009 |
20090198836 | Distributed Computing Bus - A distributed computing bus that provides both data transport and ambient computing power is provided. Contemplated buses comprise a network fabric of interconnected networking infrastructure nodes capable of being programmed before or after installation in the field. A fabric manager organizes the fabric into a bus topology communicatively coupling computing elements that exchange payload data using a bus protocol. Nodes within the bus topology operate on the payload data as the data passes through the node on route to its destination. | 08-06-2009 |
20090316619 | Surface-Space Managed Network Fabric - A managed surface-space network fabric is presented. The surface-space network fabric can include a spaced-based network fabric and a surface-based network fabric integrated together to form a single fabric managed by a global fabric manager. The global fabric manager cooperates with other fabric managers local to each fabric to establish a communication topology among all the nodes of the fabric. Preferred topologies include paths from any port on a node to any other port on another node in the fabric. The surface-space fabric, and each individual fabric, can function as a distributed core fabric operating as a single, coherent device. | 12-24-2009 |
20090327446 | Software Application Striping - A distributed computing system comprising networking infrastructure and methods of executing an application on the distributed computing system is presented. Interconnected networking nodes offering available computing resources form a network fabric. The computing resources can be allocated from the networking nodes, including available processing cores or memory elements located on the networking nodes. A software application can be stored in a system memory comprising memory elements allocated from the nodes. The software application can be disaggregated into a plurality of executable portions that are striped across the allocated processing cores by assigning each core a portion to execute. When the cores are authenticated with respect to their portions, the cores are allowed to execute the portions by accessing the system memory over the fabric. While executing the software application, the networking nodes having the allocated cores concurrently forward packets through the fabric. | 12-31-2009 |
20120207016 | BACKHAUL FABRIC FOR WIRELESS NETWORK - A managed surface-space network fabric is presented. The surface-space network fabric can include a spaced-based network fabric and a surface-based network fabric integrated together to form a single fabric managed by a global fabric manager. The global fabric manager cooperates with other fabric managers local to each fabric to establish a communication topology among all the nodes of the fabric. Preferred topologies include paths from any port on a node to any other port on another node in the fabric. The surface-space fabric, and each individual fabric, can function as a distributed core fabric operating as a single, coherent device. | 08-16-2012 |
20130094498 | DYNAMIC PACKET ROUTING - Dynamic packet routing based on fabric awareness information is presented. Networking nodes in a networking fabric observe environmental properties across the fabric. When differences in environment properties between portions of the fabric are detected, differences in power consumption costs for example, the fabric generates corresponding routing tables. The networking nodes can then route traffic in a manner that is sensitive to the environment properties, power consumption or the cost of power for example. | 04-18-2013 |
20130101291 | NON-OVERLAPPING SECURED TOPOLOGIES IN A DISTRIBUTED NETWORK FABRIC - Networks comprising multiple non-overlapping communication topologies are presented. The networks can include a fabric of interconnected network nodes capable of providing multiple communication paths among edge devices. A topology manager constructs communication topologies according to restriction criteria based on required security levels (e.g., top secret, secret, unclassified, etc.). Established topologies do not have overlapping networking infrastructure to within the bounds of the restriction criteria as allowed by the security levels. | 04-25-2013 |