Patent application number | Description | Published |
20090010159 | End-to-end flow control in a network - A network node within a network includes a first receive buffer, first buffer management, a second receive buffer and second buffer management. The first buffer management performs link level credit based flow control for network packets that the first buffer management places in the first receive buffer. The second buffer management performs end-to-end credit based flow control for network packets that the second buffer management receives from the first receive buffer and processes before placing data in the second receive buffer. | 01-08-2009 |
20090016348 | QUALITY OF SERVICE WITH CONTROL FLOW PACKET FILTERING - A system is provided comprising a fabric coupling together a plurality of computing devices, wherein the fabric transfers a stream of packets between the computing devices. Each computing device comprises a Quality of Service (“QOS”) filter that monitors incoming packets to filter out packets of a maintenance type and permit transfer of packets of a transaction type. | 01-15-2009 |
20090037609 | MIDDLE MANAGEMENT OF INPUT/OUTPUT IN SERVER SYSTEMS - A middle manager and methods are provided to enable a plurality of host devices to share one or more input/output devices. The middle manager initializes each shared input/output device and binds one or more functions of each input/output device to a specific host node in the system, such that hosts may only access functions to which they are bound. The middle manager may also utilize a configuration register map to translate values from the actual configuration register into a unique modified value for each of the plurality of host devices such that each host device may access and use the shared input/output device regardless of the firmware or operating system operating thereon. | 02-05-2009 |
20090037617 | MIDDLE MANAGEMENT OF INPUT/OUTPUT IN SERVER SYSTEMS - A middle manager and methods are provided to enable a plurality of host devices to share one or more input/output devices. The middle manager initializes each shared input/output device and binds one or more functions of each input/output device to a specific host node in the system, such that hosts may only access functions to which they are bound. The middle manager may also utilize a configuration register map to translate values from the actual configuration register into a unique modified value for each of the plurality of host devices such that each host device may access and use the shared input/output device regardless of the firmware or operating system operating thereon. | 02-05-2009 |
20090070775 | Sharing Legacy Devices In A Multi-Host Environment - Systems and methods of sharing legacy devices in a multi-host environment are disclosed. An exemplary method for sharing legacy devices in a multi-host environment includes receiving device information from a legacy device, the device information identifying a target within a virtual machine. The method also includes encapsulating the device information into a corresponding bus transaction for a network switch fabric. The method also includes routing the bus transaction over the network switch fabric in the virtual machine to a host within the virtual machine. | 03-12-2009 |
20090113430 | HARDWARE DEVICE INTERFACE SUPPORTING TRANSACTION AUTHENTICATION - A hardware device interface supporting transaction authentication is described herein. At least some illustrative embodiments include a device, including an interconnect interface, and processing logic (coupled to the bus interface) that provides access to a plurality of functions of the device through the interconnect interface. A first transaction received by the device, and associated with a function of the plurality of functions, causes a request identifier within the first transaction to be assigned to the function. Access to the function is denied if a request identifier of a second transaction, subsequent to the first transaction, does not match the request identifier assigned to the function. | 04-30-2009 |
20110047309 | VIRTUAL-INTERRUPT-MODE INTERFACE AND METHOD FOR VIRTUALIZING AN INTERRUPT MODE - Embodiments of the present invention are directed to methods for virtualizing interrupt modes on behalf of interrupt-generating devices, including I/O-device controllers, so that newer interrupt-generating devices that lack older interrupt modes can be used in systems that continue to rely on older interrupt modes. In one embodiment of the present invention, a PCIe switch or PCIe-based host bridge is modified, or a new component introduced, to provide an interrupt-mode virtualizing function, or virtual interrupt-mode interface, that provides a virtual interrupt mode on behalf of interrupt-generating devices, such as I/O-device controllers, to operating systems, BIOS layers, and other components that communicate with the I/O-device controllers. | 02-24-2011 |
20110082949 | PRESENTING MULTI-FUNCTION DEVICES BEHIND A SWITCH HIERARCHY AS A SINGLE FUNCTION DEVICE - In one embodiment, a computer system, comprises at least one host node, at least one input/output node coupled to the host node, at least one multi-function device coupled to the input/output node via a switch, and a middle manager processor comprising logic to block an enumeration process in a host node for the multi-function devices behind the switch hierarchy, initiate an enumeration process for the multi-function devices in a manager processor separate from the host node, store a routing table for the switch hierarchy in a memory module coupled to the manager processor, and allocate, in the manager processor, endpoint device resources to the host node. | 04-07-2011 |
20120124186 | SYSTEMS, DEVICES, AND METHODS FOR MULTIPLE HOST MANAGEMENT - Methods, devices, and systems for multiple host management are provided. An example of a method for multiple host management includes a multiple host management device managing a plurality of host instances. The multiple host management device can provide each of the plurality of host instances with a plurality of input/output (I/O) functionalities. | 05-17-2012 |