Patent application number | Description | Published |
20090116398 | SYSTEMS AND METHODS FOR FLOW MONITORING - A network device may include logic configured to receive a packet from a packet forwarding engine, create a flow ID for the packet, determine whether the flow ID matches one of a plurality of flow IDs in a table, determine whether the packet is associated with a flow to be sampled, sample the packet and additional packets associated with the flow that are received from the packet forwarding engine when the flow is to be sampled and transmit the flow ID and the sampled packets via a switch to an interface. | 05-07-2009 |
20100002382 | FRONT-TO-BACK COOLING SYSTEM FOR MODULAR SYSTEMS WITH ORTHOGONAL MIDPLANE CONFIGURATION - A front-to-back cooling system allows cooling of an apparatus containing two orthogonal sets of modules. Each set of modules is independently cooled. A vertical set of modules is cooled with vertical air flow across the modules that enters from a front of the apparatus and exhausts from a back of the apparatus. A horizontal set of modules is cooled with horizontal front-to-back air flow. When the horizontal set of modules is at the front of the apparatus, a plenum extending exterior to the vertical set of modules allows exhausting horizontally flowing air to the rear of the apparatus. When the horizontal set of modules is at the rear of the apparatus, a plenum extending exterior to the vertical set of modules allows moving air from the front of the apparatus to a chamber holding the horizontal modules. | 01-07-2010 |
20100061240 | METHODS AND APPARATUS RELATED TO LOW LATENCY WITHIN A DATA CENTER - In one embodiment, an apparatus includes a switch core that has a multi-stage switch fabric. The multi-stage switch fabric has a set of ingress ports and a set of egress ports. The switch core can be configured to be coupled to a set of edge devices via the set of ingress ports and the set of egress ports. The switch core can be configured to receive a packet from an ingress port from the set of ingress ports. The switch core can be configured to send a set of cells associated with the packet from the ingress port to an egress port from the set of egress ports without a store-and-forward delay associated with a zero-load latency for the switch core. | 03-11-2010 |
20100061241 | METHODS AND APPARATUS RELATED TO FLOW CONTROL WITHIN A DATA CENTER SWITCH FABRIC - In one embodiment, an apparatus includes a switch core that has a multi-stage switch fabric physically distributed among a set of chassis. The multi-stage switch fabric has a set of input buffers and a set of output ports. The switch core can be configured to be coupled to a set of edge devices. The apparatus can also include a controller implemented in hardware without software during operation and with software during configuration and monitoring. The controller can be coupled to the set of input buffers and the set of output ports. The controller can be configured to send a flow control signal to an input buffer from the set of input buffers when congestion at an output port from the set of output ports is predicted and before congestion in the switch core occurs. | 03-11-2010 |
20100061242 | METHODS AND APPARATUS RELATED TO A FLEXIBLE DATA CENTER SECURITY ARCHITECTURE - In one embodiment, edge devices can be configured to be coupled to a multi-stage switch fabric and peripheral processing devices. The edge devices and the multi-stage switch fabric can collectively define a single logical entity. A first edge device from the edge devices can be configured to be coupled to a first peripheral processing device from the peripheral processing devices. The second edge device from the edge devices can be configured to be coupled to a second peripheral processing device from the peripheral processing devices. The first edge device can be configured such that virtual resources including a first virtual resource can be defined at the first peripheral processing device. A network management module coupled to the edge devices and configured to provision the virtual resources such that the first virtual resource can be migrated from the first peripheral processing device to the second peripheral processing device. | 03-11-2010 |
20100061367 | METHODS AND APPARATUS RELATED TO LOSSLESS OPERATION WITHIN A DATA CENTER - In one embodiment, an apparatus includes a switch core that defines a single logical entity and has a multi-stage switch fabric that has a set of stages physically distributed across a set of chassis. The set of stages collectively has a set of ingress ports and a set of egress ports. The switch core can be configured to be coupled to a set of peripheral processing devices via the set of ingress ports and the set of egress ports. The switch core can be configured to admit a set of cells associated with a packet into an ingress port from the set of ingress ports when delivery of the set of cells can be substantially guaranteed without loss through the multi-stage switch fabric. | 03-11-2010 |
20100061389 | METHODS AND APPARATUS RELATED TO VIRTUALIZATION OF DATA CENTER RESOURCES - In one embodiment, an apparatus includes a switch core that has a multi-stage switch fabric. A first set of peripheral processing devices coupled to the multi-stage switch fabric by a set of connections that have a protocol. Each peripheral processing device from the first set of peripheral processing devices is a storage node that has virtualized resources. The virtualized resources of the first set of peripheral processing devices collectively define a virtual storage resource interconnected by the switch core. A second set of peripheral processing devices coupled to the multi-stage switch fabric by a set of connections that have the protocol. Each peripheral processing device from the first set of peripheral processing devices is a compute node that has virtualized resources. The virtualized resources of the second set of peripheral processing devices collectively define a virtual compute resource interconnected by the switch core. | 03-11-2010 |
20100061391 | METHODS AND APPARATUS RELATED TO A LOW COST DATA CENTER ARCHITECTURE - In one embodiment, an apparatus can include a first edge device that can have a packet processing module. The first edge device can be configured to receive a packet. The packet processing module of the first edge device can be configured to produce cells based on the packet. A second edge device can have a packet processing module configured to reassemble the packet based on the cells. A multi-stage switch fabric can be coupled to the first edge device and the second edge device. The multi-stage switch fabric can define a single logical entity. The multi-stage switch fabric can have switch modules. Each switch module from the switch modules can have a shared memory device. The multi-stage switch fabric can be configured to switch the cells so that the cells are sent to the second edge device. | 03-11-2010 |
20100061394 | METHODS AND APPARATUS RELATED TO ANY-TO-ANY CONNECTIVITY WITHIN A DATA CENTER - In one embodiment, an apparatus includes a switch core that defines a single logical entity and has a multi-stage switch fabric physically distributed across a plurality of chassis. The multi-stage switch fabric has a plurality of ingress ports and a plurality of egress ports. The switch core is configured to be coupled to a plurality of peripheral processing devices via the plurality of ingress ports and the plurality of egress ports. The switch core is also configured to provide non-blocking connectivity at line rate between a first peripheral processing device disposed with a first chassis and a second peripheral processing device disposed within a second chassis. | 03-11-2010 |
20100106866 | FLOW CONSISTENT DYNAMIC LOAD BALANCING - A device provides a flow table. The device receives a data unit, determines a data flow associated with the data unit, determines whether the flow table includes an entry corresponding to the data flow, determines a current utilization of a group of output ports of the device, selects an output port, of the group of output ports, for the data flow based on the current utilization of the group of output ports when the flow table does not store an entry corresponding to the data flow, and stores the data unit in a queue associated with the selected output port. | 04-29-2010 |
20100165983 | SYSTEM ARCHITECTURE FOR A SCALABLE AND DISTRIBUTED MULTI-STAGE SWITCH FABRIC - In some embodiments, an apparatus includes a first housing, a second housing and at least one cable. The first housing includes a first interface card of a switch fabric. The second housing includes a second interface card of the switch fabric and a third interface card of the switch fabric. The second interface card of the switch fabric is operatively and physically coupled to the third interface card of the switch fabric via a midplane. The second interface card defines a plane that is nonparallel to the a plane defined by the third interface card and a plane defined by the midplane. The plane defined by the third interface card is nonparallel to the plane defined by the second interface card and the plane defined by the midplane. The cable is configured to operatively couple the first interface card to the second interface card. | 07-01-2010 |
20100165984 | METHODS AND APPARATUS RELATED TO A MODULAR SWITCH ARCHITECTURE - In some embodiments, an apparatus includes a first housing, a second housing and at least one cable. The first housing includes a first interface card of a switch fabric. The second housing includes a second interface card of the switch fabric and a third interface card of the switch fabric. The second interface card of the switch fabric is operatively and physically coupled to the third interface card of the switch fabric via a midplane. The second interface card defines a plane that is nonparallel to the a plane defined by the third interface card and a plane defined by the midplane. The plane defined by the third interface card is nonparallel to the plane defined by the second interface card and the plane defined by the midplane. The cable is configured to operatively couple the first interface card to the second interface card. | 07-01-2010 |
20100226373 | TRACKING FRAGMENTED DATA FLOWS - A device may receive a fragment of a fragmented data unit, determine a flow identifier that identifies a data flow with which the fragment is associated, and create a flow entry, based on the flow identifier, to store information associated with the data flow. The device may also determine a fragment key associated with the fragment, store a pointer to the flow entry based on the fragment key, correlate the fragment and another fragment, associated with the data flow, based on the fragment key and the pointer to the flow entry, and accumulate statistics associated with the fragment and the other fragment after correlating the fragment and the other fragment. | 09-09-2010 |
20100246275 | METHODS AND APPARATUS RELATED TO A SHARED MEMORY BUFFER FOR VARIABLE-SIZED CELLS - In one embodiment, an apparatus includes a shared memory buffer including a lead memory bank and a write multiplexing module configured to send a leading segment from a set of segments to the lead memory bank. The set of segments includes bit values from a set of variable-sized cells. The write multiplexing module further configured to send each segment from the set of segments identified as a trailing segment to a portion of the shared memory mutually exclusive from the lead memory bank. | 09-30-2010 |
20110011562 | FRONT-TO-BACK COOLING SYSTEM FOR MODULAR SYSTEMS WITH ORTHOGONAL MIDPLANE CONFIGURATION - A front-to-back cooling system allows cooling of an apparatus containing two orthogonal sets of modules. Each set of modules is independently cooled. A vertical set of modules is cooled with vertical air flow across the modules that enters from a front of the apparatus and exhausts from a back of the apparatus. A horizontal set of modules is cooled with horizontal front-to-back air flow. When the horizontal set of modules is at the front of the apparatus, a plenum extending exterior to the vertical set of modules allows exhausting horizontally flowing air to the rear of the apparatus. When the horizontal set of modules is at the rear of the apparatus, a plenum extending exterior to the vertical set of modules allows moving air from the front of the apparatus to a chamber holding the horizontal modules. | 01-20-2011 |
20110011567 | FRONT-TO-BACK COOLING SYSTEM FOR MODULAR SYSTEMS WITH ORTHOGONAL MIDPLANE CONFIGURATION - A front-to-back cooling system allows cooling of an apparatus containing two orthogonal sets of modules. Each set of modules is independently cooled. A vertical set of modules is cooled with vertical air flow across the modules that enters from a front of the apparatus and exhausts from a back of the apparatus. A horizontal set of modules is cooled with horizontal front-to-back air flow. When the horizontal set of modules is at the front of the apparatus, a plenum extending exterior to the vertical set of modules allows exhausting horizontally flowing air to the rear of the apparatus. When the horizontal set of modules is at the rear of the apparatus, a plenum extending exterior to the vertical set of modules allows moving air from the front of the apparatus to a chamber holding the horizontal modules. | 01-20-2011 |
20110013636 | TRACKING FRAGMENTED DATA FLOWS - A device may receive a fragment of a fragmented data unit, determine a flow identifier that identifies a data flow with which the fragment is associated, and create a flow entry, based on the flow identifier, to store information associated with the data flow. The device may also determine a fragment key associated with the fragment, store a pointer to the flow entry based on the fragment key, correlate the fragment and another fragment, associated with the data flow, based on the fragment key and the pointer to the flow entry, and accumulate statistics associated with the fragment and the other fragment after correlating the fragment and the other fragment. | 01-20-2011 |
20110056660 | FRONT-TO-BACK COOLING SYSTEM FOR MODULAR SYSTEMS WITH ORTHOGONAL MIDPLANE CONFIGURATION - A front-to-back cooling system allows cooling of an apparatus containing two orthogonal sets of modules. Each set of modules is independently cooled. A vertical set of modules is cooled with vertical air flow across the modules that enters from a front of the apparatus and exhausts from a back of the apparatus. A horizontal set of modules is cooled with horizontal front-to-back air flow. When the horizontal set of modules is at the front of the apparatus, a plenum extending exterior to the vertical set of modules allows exhausting horizontally flowing air to the rear of the apparatus. When the horizontal set of modules is at the rear of the apparatus, a plenum extending exterior to the vertical set of modules allows moving air from the front of the apparatus to a chamber holding the horizontal modules. | 03-10-2011 |
20110096781 | METHODS AND APPARATUS RELATED TO A DISTRIBUTED SWITCH FABRIC - A method of sending data to a switch fabric includes assigning a destination port of an output module to a data packet based on at least one field in a first header of the data packet. A module associated with a first stage of the switch fabric is selected based on at least one field in the first header. A second header is appended to the data packet. The second header includes an identifier associated with the destination port of the output module. The data packet is sent to the module associated with the first stage. The module associated with the first stage is configured to send the data packet to a module associated with a second stage of the switch fabric based on the second header. | 04-28-2011 |
20110103259 | METHODS AND APPARATUS FOR CONFIGURING A VIRTUAL NETWORK SWITCH - In one embodiment, a method includes sending a configuration signal to a virtual network switch module within a control plane of a communications network. The configuration signal is configured to define a first network rule at the virtual network switch module. The method also includes configuring a packet forwarding module such that the packet forwarding module implements a second network rule, and receiving status information from the virtual network switch module and status information from the packet forwarding module. The status information is received via the control plane. | 05-05-2011 |
20110154132 | METHODS AND APPARATUS FOR TRACKING DATA FLOW BASED ON FLOW STATE VALUES - In one embodiment, a processor-readable medium storing code representing instructions that when executed by a processor cause the processor to update, at a memory location, a first flow state value associated with a data flow to a second flow state value when at least one of a packet from the data flow is received or the memory location is selected after a time period has expired. At least a portion of the packet is analyzed when the second flow state value represents a flow rate of a network data flow anomaly. | 06-23-2011 |
20110206049 | TARGETED FLOW SAMPLING - A device may include two or more line interfaces. One of the line interfaces may include a component to buffer a packet that is received at the line interface, perform a lookup of information related to selecting a flow based on a header of the packet, apply a symmetric hash function to addresses in the header to obtain a hash when the information related to selecting the flow indicates the flow is to be selected based on a random method, compare the hash to a particular number using the information related to selecting the flow, the particular number being same for the line interfaces, sample a flow when the hash matches the particular number, create a flow record for the flow, and sample packets based on the flow record. | 08-25-2011 |
20110243031 | APPARATUS AND METHODS RELATED TO THE PACKAGING AND CABLING INFRASTRUCTURE OF A DISTRIBUTED SWITCH FABRIC - In some embodiments, a system includes a chassis having a group of horizontal slots in which a first group of line cards is disposed and a group of vertical slots in which a second group of line cards is disposed. Each port of a line card from the first group of line cards is operatively coupled to a different line card from the second group of line cards when the system is in a first configuration. A first set of ports and a second set of ports of a line card from the first group of line cards are operatively coupled to a first line card and a second line card from the second group of line cards, respectively, when the system is in a second configuration. | 10-06-2011 |
20110255408 | TRAFFIC ANALYSIS OF DATA FLOWS - A device includes a memory, flow table logic, sampling logic, and a processing unit. The memory is configured to store a flow table that stores, as a number of entries, statistics regarding a number of data flows. The flow table logic is configured to generate records corresponding to data flows for which entries are created in the flow table or removed from the flow table. The sampling logic is configured to select one of the data flows for sampling and sample initial data units for the one of the data flows. The processing unit is configured to receive the records generated by the flow table logic, receive the initial data units sampled by the sampling logic, analyze the initial data units to generate analysis results, correlate the records and the analysis results associated with a same one of the data flows, and store the correlated records and analysis results. | 10-20-2011 |
20110267942 | METHODS AND APPARATUS FOR FLOW CONTROL ASSOCIATED WITH A SWITCH FABRIC - In some embodiments, an apparatus includes a switch fabric having at least a first switch stage and a second switch stage, an edge device operatively coupled to the switch fabric and a management module. The edge device is configured to send a first portion of a data stream to the switch fabric such that the first portion of the data stream is received at a queue of the second switch stage of the switch fabric via the first switch stage of the switch fabric. The management module is configured to send a flow control signal configured to trigger the edge device to suspend transmission of a second portion of the data stream when a congestion level of the queue of the second switch stage of the switch fabric satisfies a condition in response to the first portion of the data stream being received at the queue. | 11-03-2011 |
20110302351 | SYSTEMS AND METHODS FOR AUTOMATED SENSOR POLLING - A device may include polling logic configured to store a table of received addresses, sequentially receive sensor data from each address in the table via a serial data bus, store the sensor data in a memory, receive an address from a processor via a high speed data bus, and provide stored sensor data from the memory to the processor via a parallel data bus. | 12-08-2011 |
20110307718 | DYNAMIC FABRIC PLANE ALLOCATION FOR POWER SAVINGS - In one embodiment, a method includes accessing a first utilization value, accessing a second utilization value, defining a third utilization value, and sending to a first switching portion of a distributed network switch a deactivate signal in response to the third utilization value. The first utilization value is associated with the first switching portion of the distributed network switch. The second utilization value is associated with a second switching portion of the distributed network switch. The third utilization value is associated with the second switching portion of the distributed network switch and is based on the first utilization parameter and the second utilization parameter. The first switching portion of the distributed network switch ceases communication within the distributed network switch in response to the deactivate signal. | 12-15-2011 |
20110310739 | METHODS AND APPARATUS FOR VIRTUAL CHANNEL FLOW CONTROL ASSOCIATED WITH A SWITCH FABRIC - A system includes a module associated with a first stage of a switch fabric directly coupled to a module associated with a second stage of the switch fabric via a single physical hop having multiple virtual channels. The module associated with the first stage is configured to assign a virtual channel identifier associated with a virtual channel with a data packet using a hash function and to send the data packet through the virtual channel based on the virtual channel identifier. The module associated with the second stage is configured to send a flow control signal to the module associated with the first stage when an available capacity of a queue is less than a predetermined threshold. The module associated with the first stage is configured to suspend sending data packets via the virtual channel in response to the flow control signal. | 12-22-2011 |
20120128004 | METHODS AND APPARATUS FOR CENTRALIZED VIRTUAL SWITCH FABRIC CONTROL - In some embodiments, an apparatus comprises a processing module, disposed within a first switch fabric element, configured to detect a second switch fabric element having a routing module when the second switch fabric element is operatively coupled to the first switch fabric element. The processing module is configured to define a virtual processing module configured to be operatively coupled to the second switch fabric element. The virtual processing module is configured to receive a request from the second switch fabric element for forwarding information and the virtual processing module is configured to send the forwarding information to the routing module. | 05-24-2012 |
20120140626 | METHODS AND APPARATUS FOR FLOW CONTROL ASSOCIATED WITH A SWITCH FABRIC - In some embodiments, an apparatus includes a flow control module configured to receive a first data packet from an output queue of a stage of a multi-stage switch at a first rate when an available capacity of the output queue crosses a first threshold. The flow control module is configured to receive a second data packet from the output queue of the stage of the multi-stage switch at a second rate when the available capacity of the output queue crosses a second threshold. The flow control module configured to send a flow control signal to an edge device of the multi-stage switch from which the first data packet or the second data packet entered the multi-stage switch. | 06-07-2012 |
20120155328 | METHODS AND APPARATUS FOR DYNAMIC MAPPING OF POWER OUTLETS - In some embodiments, an apparatus includes a network management module. The network management module is configured to send a request for power output data from a first network element having a first power supply configured to be coupled to a first power outlet, and a second power supply configured to be coupled to a second power outlet. The network management module is configured to receive a first confirmation from the first network element that the first power supply and the second power supply are receiving power. The network management module is configured to send a request to disable a third power outlet and to receive, after sending the request to disable the third power outlet, a second confirmation from the first network element that the first power supply and the second power supply are receiving power. The network management module is configured to define a power distribution table after receiving the second confirmation, the power distribution table designating the third power outlet as unused. | 06-21-2012 |
20120159062 | METHODS AND APPARATUS RELATED TO A SHARED MEMORY BUFFER FOR VARIABLE-SIZED CELLS - In one embodiment, an apparatus includes a shared memory buffer including a lead memory bank and a write multiplexing module configured to send a leading segment from a set of segments to the lead memory bank. The set of segments includes bit values from a set of variable-sized cells. The write multiplexing module further configured to send each segment from the set of segments identified as a trailing segment to a portion of the shared memory mutually exclusive from the lead memory bank. | 06-21-2012 |
20120207024 | NETWORK TRAFFIC ANALYSIS USING A FLOW TABLE - A device may receive a data unit at a line interface of a network device, convey the data unit to a first component in the line interface, update a flow table in the first component based on the data unit, send a message to a second component in the network device, the message describing the update to the flow table, and forward the data unit from the first component to another line interface in the network device. | 08-16-2012 |
20120233349 | METHODS AND APPARATUS FOR PATH SELECTION WITHIN A NETWORK BASED ON FLOW DURATION - In some embodiments, an apparatus includes a forwarding module that is configured to receive a group of first data packets. The forwarding module is configured to modify a data flow value in response to receiving each first data packet. The forwarding module is also configured to store each first data packet in a first output queue based on the data flow value not crossing a data flow threshold after being modified. Furthermore, the forwarding module is configured to receive a second data packet. The forwarding module is configured to modify the data flow value in response to receiving the second data packet, such that the data flow value crosses the data flow threshold. The forwarding module is configured to store the second data packet in a second output queue based on the data flow value having crossed the data flow threshold. | 09-13-2012 |
20120287789 | FLOW CONSISTENT DYNAMIC LOAD BALANCING - A device provides a flow table. The device receives a data unit, determines a data flow associated with the data unit, determines whether the flow table includes an entry corresponding to the data flow, determines a current utilization of a group of output ports of the device, selects an output port, of the group of output ports, for the data flow based on the current utilization of the group of output ports when the flow table does not store an entry corresponding to the data flow, and stores the data unit in a queue associated with the selected output port. | 11-15-2012 |
20130003554 | FLOW-BASED RATE LIMITING - A device may include logic configured to receive a packet, identify a flow associated with the packet in a flow table, and identify a rate limit associated with the flow in the flow table. A current rate associated with the flow may be calculated based on the packet. It may be determined whether the current rate associated with the flow exceeds the rate limit associated with the flow. If so, the packet may be discarded or tagged as “over limit.” | 01-03-2013 |
20130003726 | METHODS AND APPARATUS RELATED TO A FLEXIBLE DATA CENTER SECURITY ARCHITECTURE - In one embodiment, edge devices can be configured to be coupled to a multi-stage switch fabric and peripheral processing devices. The edge devices and the multi-stage switch fabric can collectively define a single logical entity. A first edge device from the edge devices can be configured to be coupled to a first peripheral processing device from the peripheral processing devices. The second edge device from the edge devices can be configured to be coupled to a second peripheral processing device from the peripheral processing devices. The first edge device can be configured such that virtual resources including a first virtual resource can be defined at the first peripheral processing device. A network management module coupled to the edge devices and configured to provision the virtual resources such that the first virtual resource can be migrated from the first peripheral processing device to the second peripheral processing device. | 01-03-2013 |
20130013598 | MANAGING A FLOW TABLE - A device may include a flow table to store, in flow table records, statistics associated with a number of data flows, and a flow type table to store, in flow type table records, information that indicates whether to store statistics in the flow table for each of a number of types of data flows, information that indicates a manner for sampling data units associated with the data flows, and/or information that indicates when to delete flow table records from the flow table. | 01-10-2013 |
20130022045 | SCALABLE FORWARDING TABLE WITH OVERFLOW ADDRESS LEARNING - A node is configured to receive a packet from a host device, where the packet includes a source address associated with the host device; determine that the source address is not stored by the node; generate one or more logical distances, associated with one or more nodes, based on the source address and a respective address associated with each of the nodes; determine that another node is associated with a shortest logical distance, of the one or more logical distances; and transmit the source address to the other node based on the determination that the other node is associated with the shortest logical distance, where transmitting the source address allows the other node to store the source address or enables further nodes to obtain the source address from the other node. | 01-24-2013 |
20130083724 | METHODS AND APPARATUS FOR A CONVERGED WIRED/WIRELESS ENTERPRISE NETWORK ARCHITECTURE - In some embodiments, an apparatus comprises a core network node and a control module within an enterprise network architecture. The core network node is configured to be operatively coupled to a set of wired network nodes and a set of wireless network nodes. The core network node is configured to receive a first tunneled packet associated with a first session from a wired network node from the set of wired network nodes. The core network node is configured to also receive a second tunneled packet associated with a second session from a wireless network node from the set of wireless network nodes through intervening wired network nodes from the set of wired network nodes. The control module is operatively coupled to the core network node. The control module is configured to manage the first session and the second session. | 04-04-2013 |
20130315060 | METHODS AND APPARATUS FOR CONFIGURING A VIRTUAL NETWORK SWITCH - In one embodiment, a method includes sending a configuration signal to a virtual network switch module within a control plane of a communications network. The configuration signal is configured to define a first network rule at the virtual network switch module. The method also includes configuring a packet forwarding module such that the packet forwarding module implements a second network rule, and receiving status information from the virtual network switch module and status information from the packet forwarding module. The status information is received via the control plane. | 11-28-2013 |