Patent application number | Description | Published |
20090254647 | SYSTEM AND METHOD FOR NETWORK INTERFACING - Systems and methods for network interfacing may include a communication data center with a first tier, a second tier and a third tier. The first tier may include a first server with a first single integrated convergent network controller chip. The second server may include a second server with a second single integrated convergent network controller chip. The third tier may include a third server with a third single integrated convergent network controller chip. The second server may be coupled to the first server via a single fabric with a single connector. The third server may be coupled to the second server via the single fabric with the single connector. The respective first, second and third server, each processes a plurality of different traffic types concurrently via the respective first, second and third single integrated convergent network chip over the single fabric that is coupled to the single connector. | 10-08-2009 |
20100250783 | SYSTEM AND METHOD FOR TCP/IP OFFLOAD INDEPENDENT OF BANDWIDTH DELAY PRODUCT - A network interface device may include an offload engine that receives control of state information while a particular connection is offloaded. Control of the state information for the particular connection may be split between the network interface device and a host. The at least one connection variables may be updated and provided to the host. | 09-30-2010 |
20110040891 | System and Method for TCP Offload - A system for processing packets is disclosed and may including a network interface card (NIC). The NIC may include a TCP enabled Ethernet controller (TEEC). The TEEC may include an internal elastic buffer. The TEEC may process received incoming TCP packets once and may temporarily buffer at least a portion of the incoming TCP packets in the internal elastic buffer. The processing may occur without reassembly or retransmission. The internal elastic buffer may include a receive internal elastic buffer and a transmit internal elastic buffer. The receive internal elastic buffer may temporarily buffer at least a portion of the received incoming TCP packets. The transmit internal elastic buffer may temporarily buffer at least a portion of TCP packets to be transmitted. The TEEC may place at least a portion of the received incoming TCP packets data into at least a portion of a host memory. | 02-17-2011 |
20110185076 | System and Method for Network Interfacing - Systems and methods for network interfacing may include a communication data center with a first tier, a second tier and a third tier. The first tier may include a first server with a first single integrated convergent network controller chip. The second server may include a second server with a second single integrated convergent network controller chip. The third tier may include a third server with a third single integrated convergent network controller chip. The second server may be coupled to the first server via a single fabric with a single connector. The third server may be coupled to the second server via the single fabric with the single connector. The respective first, second and third server, each processes a plurality of different traffic types concurrently via the respective first, second and third single integrated convergent network chip over the single fabric that is coupled to the single connector. | 07-28-2011 |
20110202702 | METHOD AND SYSTEM FOR PCI HYBRID FUNCTION - A single root I/O virtualization (SR-IOV) capable peripheral component interconnect (PCI) device may be operable to configure resources to transparently operate in a non-SR-IOV environment utilizing a physical function (PF) and one or more hybrid functions (HFs). In instances when the SR-IOV capable PCI device is operating in a SR-IOV environment, the SR-IOV capable PCI device may expose a VF configuration space in the hybrid function to an associated PCI driver for configuring the hybrid function as a virtual function. In instances when the SR-IOV capable PCI device is operating in a non-SR-IOV environment, the SR-IOV capable PCI device may hide a SR-IOV extended header in the physical function from the associated PCI driver and expose a PF configuration space in the hybrid function to the associated PCI driver for configuring the hybrid function as a physical function. | 08-18-2011 |
20110213863 | METHOD AND SYSTEM FOR NIC-CENTRIC HYPER-CHANNEL DISTRIBUTED NETWORK MANAGEMENT - A server comprising a network interface controller (NIC) may be operable to determine network components and/or resources that may be utilized to create, modify and/or terminate a hyper-channel in a network fabric. A configuration for creating, modifying and/or terminating the hyper-channel may be initiated by the NIC based on knowledge of the network fabric up to the edge of network and each of the switches along a path of the hyper-channel may be instructed by the NIC to configure the hyper-channel. The configuration may also be initiated by the NIC based on knowledge of the network fabric up to a first hop and each of the switches along a path of the hyper-channel may then be allowed to configure the hyper-channel based on knowledge of the network fabric surrounding each of the switches. | 09-01-2011 |
20110246662 | SYSTEM AND METHOD FOR TCP OFFLOAD - Aspects of the invention may comprise receiving an incoming TCP packet at a TEEC and processing at least a portion of the incoming packet once by the TEEC without having to do any reassembly and/or retransmission by the TEEC. At least a portion of the incoming TCP packet may be buffered in at least one internal elastic buffer of the TEEC. The internal elastic buffer may comprise a receive internal elastic buffer and/or a transmit internal elastic buffer. Accordingly, at least a portion of the incoming TCP packet may be buffered in the receive internal elastic buffer. At least a portion of the processed incoming packet may be placed in a portion of a host memory for processing by a host processor or CPU. Furthermore, at least a portion of the processed incoming TCP packet may be DMA transferred to a portion of the host memory. | 10-06-2011 |
20130124709 | METHOD AND SYSTEM FOR NIC-CENTRIC HYPER-CHANNEL DISTRIBUTED NETWORK MANAGEMENT - Various embodiments for hyper-channel management are disclosed. One such method is implemented by a network interface controller (NIC) residing in a server. This method involves determining a network component that is operable to create, modify, terminate, or any combination thereof, a hyper-channel. The hyper-channel corresponds to a logical abstraction of network resources associated with the server. The method also involves using the determined network component to manage the hyper-channel. | 05-16-2013 |