Patent application number | Description | Published |
20120079160 | METHOD AND SYSTEM OF ADAPTING COMMUNICATION LINKS TO LINK CONDITIONS ON A PLATFORM - A method and system to adapt communication links statically and/or dynamically to their individual link conditions on a platform. The communicatively coupled devices have logic to adapt one or more settings of a respective one or more communication links with another device based at least in part on a respective metric of received data patterns from the respective one or more communication links. The communicatively coupled devices in the platform have a back channel to allow feedback or information to be sent from one receiving device to a transmitting device in one embodiment of the invention. | 03-29-2012 |
20140006677 | EMBEDDED CONTROL CHANNEL FOR HIGH SPEED SERIAL INTERCONNECT | 01-02-2014 |
20140095751 | FAST DESKEW WHEN EXITING LOW-POWER PARTIAL-WIDTH HIGH SPEED LINK STATE - Methods and apparatus relating to fast deskew when exiting a low-power partial-width high speed link state are described. In one embodiment, an exit flit on active lanes and/or a wake signal/sequence on idle lanes may be transmitted at a first point in time to cause one or more idle lanes of a link to enter an active state. At a second point in time (following or otherwise subsequent to the first point in time), training sequences are transmitted over the one or more idle lanes of the link. And, the one or more idle lanes are deskewed in response to the training sequences and prior to a third point in time (following or otherwise subsequent to the second point in time). Other embodiments are also disclosed and claimed. | 04-03-2014 |
20140112339 | HIGH PERFORMANCE INTERCONNECT - A physical layer (PHY) is coupled to a serial, differential link that is to include a number of lanes. The PHY includes a transmitter and a receiver to be coupled to each lane of the number of lanes. The transmitter coupled to each lane is configured to embed a clock with data to be transmitted over the lane, and the PHY periodically issues a blocking link state (BLS) request to cause an agent to enter a BLS to hold off link layer flit transmission for a duration. The PHY utilizes the serial, differential link during the duration for a PHY associated task selected from a group including an in-band reset, an entry into low power state, and an entry into partial width state | 04-24-2014 |
20140114887 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A set of training sequences is generated, each training sequence to include a respective training sequence header, and the training sequence header is to be DC-balanced over the set of training sequences. The set of training sequences can be combined with electric ordered sets to form supersequences for use in such tasks as link adaptation, link state transitions, byte lock, deskew, and other tasks. | 04-24-2014 |
20140115207 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A periodic control window is embedded in a link layer data stream to be sent over a serial data link, where the control window is configured to provide physical layer information including information for use in initiating state transitions on the data link. The link layer data can be sent during a link transmitting state of the data link and the control window can interrupt the sending of flits. In one aspect, the information includes link width transition data indicating an attempt to change the number of active lanes on the link. | 04-24-2014 |
20140115374 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A reset of a synchronization counter is synchronized to an external deterministic signal. Entry into the link transmitting state is further synchronized with the deterministic signal. A target latency is identified for a serial data link. A data sequence is received synchronized with a synchronization counter associated with the data link. Target latency can be maintained using the data sequence. | 04-24-2014 |
20140215112 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - Re-initialization of a link can take place without termination of the link, where the link includes, a transmitter and a receiver are to be coupled to each lane in the number of lanes, and re-initialization of the link is to include transmission of a predefined sequence on each of the lanes. | 07-31-2014 |
20140215437 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A serial data link is to be adapted during initialization of the link. Adaptation of the link is to include receiving a pseudorandom binary sequence (PRBS) from a remote agent, analyzing the PRBS to identify characteristics of the data link, and generating metric data describing the characteristics. | 07-31-2014 |
20150067207 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A serial data link is to be adapted during initialization of the link. Adaptation of the link is to include receiving a pseudorandom binary sequence (PRBS) from a remote agent, analyzing the PRBS to identify characteristics of the data link, and generating metric data describing the characteristics. | 03-05-2015 |
20150067208 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A periodic control window is embedded in a link layer data stream to be sent over a serial data link, where the control window is configured to provide physical layer information including information for use in initiating state transitions on the data link. The link layer data can be sent during a link transmitting state of the data link and the control window can interrupt the sending of flits. In one aspect, the information includes link width transition data indicating an attempt to change the number of active lanes on the link. | 03-05-2015 |
20150067210 | HIGH PERFORMANCE INTERCONNECT PHYSICAL LAYER - A set of training sequences is generated, each training sequence to include a respective training sequence header, and the training sequence header is to be DC-balanced over the set of training sequences. The set of training sequences can be combined with electric ordered sets to form supersequences for use in such tasks as link adaptation, link state transitions, byte lock, deskew, and other tasks. | 03-05-2015 |