| Patent application number | Description | Published |
|---|
| 20080244189 | Method, Apparatus, System and Program Product Supporting Directory-Assisted Speculative Snoop Probe With Concurrent Memory Access - A multiprocessor data processing system includes a memory controller controlling access to a memory subsystem, multiple processor buses coupled to the memory controller, and at least one of multiple processors coupled to each processor bus. In response to receiving a first read request of a first processor via a first processor bus, the memory controller initiates a speculative access to the memory subsystem and a lookup of the target address in a central coherence directory. In response to the central coherence directory indicating that a copy of the target memory block is cached by a second processor, the memory controller transmits a second read request for the target address on a second processor bus. In response to receiving a clean snoop response to the second read request, the memory controller provides to the first processor the target memory block retrieved from the memory subsystem by the speculative access. | 10-02-2008 |
| 20080301376 | Method, Apparatus, and System Supporting Improved DMA Writes - A memory controller receives a stream of DMA write operations and enqueues them in a queue enforcing a First-In First-Out (FIFO) order. Prior to processing a particular DMA write operation, the memory controller acquires coherency ownership of a target memory block and stores the result in a low latency array. In response to acquiring coherency ownership, this low latency array is updated to a coherency state signifying coherency ownership by the memory controller. In a pipelined array access, both the low latency array and the second array are accessed and if the lower latency second array indicates the particular coherency state with no collision indication, the memory controller signals that the particular DMA write operation can be performed, where the signaling occurs prior to results being obtained from the higher latency first array at the normal end of the array access pipeline. In response to the signaling, the memory controller performs an update to the memory subsystem indicated by the particular DMA write operation. | 12-04-2008 |
| 20090094385 | Techniques for Handling Commands in an Ordered Command Stream - A technique for handling commands includes assigning respective first tags to ordered commands included in an ordered command stream. Respective second tags are then assigned to subsequent commands that follow an initial command (included in the ordered commands). Each of the respective second tags correspond to one the respective first tags that is associated with an immediate previous one of the ordered commands. The initial command is sent to an execution engine in a first cycle. At least one of the subsequent commands is sent to the execution engine prior to completion of execution of the initial command. | 04-09-2009 |
| 20090268727 | Early header CRC in data response packets with variable gap count - A method is provided for processing a command issued by a processor over a bus. The method includes ( | 10-29-2009 |
| 20090268736 | Early header CRC in data response packets with variable gap count - A method is provided for processing commands issued by a processor over a bus. The method includes the steps of (1) transmitting the command to a remote node to obtain access to data required to complete the command; (2) receiving from the remote node a response packet including a header and a header CRC; (3) validating the response packet based on the header CRC; and (4) before receiving the data required to complete the command, arranging to return the data to the processor over the bus. | 10-29-2009 |
| 20090271532 | Early header CRC in data response packets with variable gap count - A method is provided for processing a command issued by a processor over a bus. The method includes ( | 10-29-2009 |
| 20090285222 | Network On Chip With Minimum Guaranteed Bandwidth For Virtual Communications Channels - A network on chip (‘NOC’) with guaranteed minimum bandwidth for virtual communications channels, the NOC including: integrated processor (‘IP’) blocks, routers, memory communications controllers, and network interface controllers, each IP block adapted to a router through a memory communications controller and a network interface controller, each memory communications controller controlling communications between an IP block and memory, each network interface controller controlling inter-IP block communications through routers, each router coupled for data communications with at least one other router through at least one link, each link including a wire bus wide enough to accommodate simultaneously, for transmission in one direction on the link, all or part of a data switching packet, each router implementing two or more virtual communications channels, each virtual communications channel characterized by a communication type, each virtual communications channel guaranteed at least a minimum bandwidth for data transmissions over a link between routers. | 11-19-2009 |
| 20110246692 | Implementing Control Using A Single Path In A Multiple Path Interconnect System - A method and circuit for implementing control using a single path in a multiple path interconnect system, and a design structure on which the subject circuit resides are provided. Control TL messages include control information to be transferred between a respective source transport layer of a source interconnect chip and a destination transport layer of a destination interconnect chip. Each transport layer (TL) includes a TL message port identifying a port used to send and receive control TL messages for a pair of source TL and destination TL. The respective TL message port of the pair of source TL and destination TL defines the single path used for control messages. | 10-06-2011 |
