Patent application number | Description | Published |
20090274157 | METHOD AND APPARATUS FOR HIERARCHICAL ROUTING IN MULTIPROCESSOR MESH-BASED SYSTEMS - A method and apparatus for hierarchical routing in mesh systems. The method may include splitting | 11-05-2009 |
20110213949 | METHODS AND APPARATUS FOR OPTIMIZING CONCURRENCY IN MULTIPLE CORE SYSTEMS - Various methods and apparatus are described for communicating transactions between one or more initiator IP cores and one or more target IP cores coupled to an interconnect. Tag logic may be located within the interconnect, such as located in an agent, and configured to assign different interconnect tag identification numbers to two or more transactions from a same thread. The tag logic assigns different interconnect tag identification numbers to allow the two or more transactions from the same thread to be outstanding over the interconnect to two or more different target IP cores at the same time, allow the two or more transactions from the same thread to be processed in parallel over the interconnect, and potentially serviced out of issue order while being returned back to the multiple threaded initiator IP core realigned in expected execution order. | 09-01-2011 |
20130051397 | CREDIT FLOW CONTROL SCHEME IN A ROUTER WITH FLEXIBLE LINK WIDTHS UTILIZING MINIMAL STORAGE - A method includes receiving flits forwarded from an upstream router into a first input virtual channel (VC) associated with an input port. The flits are associated with packets originated from a first Intellectual Property (IP) core and forwarded to a second IP core. The flits are stored in a VC storage associated with the first input VC. The method further includes performing link width conversion based on a width of the flits being different from a width of an output port. Link width conversion includes accumulation of the flits when the width of the output port is wider and unpacking of the flits when the width of the output port is narrower. Credits are generated based on the flits being forwarded from the first input VC to the output port. The credits are sent to the upstream router to enable receiving more flits from the upstream router. | 02-28-2013 |
20130073878 | APPARATUS AND METHODS FOR AN INTERCONNECT POWER MANAGER - An interconnect-power-manager (IPM) cooperates and communicates signals with an integrated-circuit-system-power-manager (SPM) in the integrated-circuit. The interconnect network (IN) is partitioned into multiple power domains and has hardware circuitry integrated into the IN to manage a quiescent state for all components in each power domain in the IN when a routing pathway for transactions in the IN spans across one or more power domain boundaries and causes interdependencies of power domains within the IN other than where the power domains of the initiator agent and final target agent of the transaction are located within. The SPM is configured to cooperate and communicate with the IPM to quiesce, to wake up, and any combination of the two, one or more of the multiple power domains within the IN. | 03-21-2013 |
20130318308 | SCALABLE CACHE COHERENCE FOR A NETWORK ON A CHIP - Maintaining cache coherence in a System-on-a-Chip with both multiple cache coherent master IP cores (CCMs) and non-cache coherent master IP cores (NCMs). A plug-in cache coherence manager (CM), coherence logic in agents, and an interconnect are used for the SoC to provide a scalable cache coherence scheme that scales to an amount of CCMs in the SoC. The CCMs each includes at least one processor operatively coupled through the CM to at least one cache that stores data for that CCM. The CM maintains cache coherence responsive to a cache miss of a cache line on a first cache of the caches, then broadcasts a request for an instance of the data stored corresponding to cache miss of the cache line in the first cache. Each CCM maintains its own coherent cache and each NCM is configured to issue communication transactions into both coherent and non-coherent address spaces. | 11-28-2013 |
20140314076 | CREDIT FLOW CONTROL SCHEME IN A ROUTER WITH FLEXIBLE LINK WIDTHS UTILIZING MINIMAL STORAGE - A method includes receiving flits forwarded from an upstream router into a first input virtual channel (VC) associated with an input port. The flits are associated with packets originated from a first Intellectual Property (IP) core and forwarded to a second IP core. The flits are stored in a VC storage associated with the first input VC. The method further includes performing link width conversion based on a width of the flits being different from a width of an output port. Link width conversion includes accumulation of the flits when the width of the output port is wider and unpacking of the flits when the width of the output port is narrower. Credits are generated based on the flits being forwarded from the first input VC to the output port. The credits are sent to the upstream router to enable receiving more flits from the upstream router. | 10-23-2014 |