Patent application number | Description | Published |
20080320254 | VARIOUS METHODS AND APPARATUS TO SUPPORT TRANSACTIONS WHOSE DATA ADDRESS SEQUENCE WITHIN THAT TRANSACTION CROSSES AN INTERLEAVED CHANNEL ADDRESS BOUNDARY - A method, apparatus, and system are described, which generally relate to an interconnect routing transactions to target IP cores, including two or more channels making up a first aggregate target. The two or more channels populate an address space assigned to the first aggregate target and appear as a single target to the initiator IP cores. The interconnect implements chopping logic to chop an individual transaction from a first initiator IP core whose address sequence crosses a channel address boundary from a first channel to a second channel within the first aggregate target into two or more burst transactions. A first chopped burst transaction is chopped to fit within the address boundaries of the first channel and a second chopped burst transaction is chopped to fit within the address boundaries of the second channel. | 12-25-2008 |
20080320255 | VARIOUS METHODS AND APPARATUS FOR CONFIGURABLE MAPPING OF ADDRESS REGIONS ONTO ONE OR MORE AGGREGATE TARGETS - An interconnect for an integrated circuit communicating transactions between initiator Intellectual Property (IP) cores and multiple target IP cores coupled to the interconnect is generally described. The interconnect routes the transactions between the target IP cores and initiator IP cores in the integrated circuit. A first aggregate target of the target IP cores includes two or more memory channels that are interleaved in an address space for the first aggregate target in the address map. Each memory channel is divided up in defined memory interleave segments and then interleaved with memory interleave segments from other memory channels. An address map is divided up into two or more regions. Each interleaved memory interleave segment is assigned to at least one of those regions and populates the address space for that region, and parameters associated with the regions and memory interleave segments are configurable. | 12-25-2008 |
20080320268 | INTERCONNECT IMPLEMENTING INTERNAL CONTROLS - In an embodiment, an interconnect for an integrated circuit communicates transactions between one or more initiator Intellectual Property (IP) cores and multiple target IP cores coupled to the interconnect. Two or more memory channels make up a first aggregate target of the target IP cores. The two or more memory channels populate an address space assigned to the first aggregate target and appear as a single target to the initiator IP cores. The interconnect implements chopping logic to chop individual two-dimensional (2D) transactions that cross the memory channel address boundaries from a first memory channel to a second memory channel within the first aggregate target into two or more 2D transactions with a height value greater than one, as well as stride and width dimensions, which are chopped to fit within memory channel address boundaries of the first aggregate target. | 12-25-2008 |
20080320476 | VARIOUS METHODS AND APPARATUS TO SUPPORT OUTSTANDING REQUESTS TO MULTIPLE TARGETS WHILE MAINTAINING TRANSACTION ORDERING - A method, apparatus, and system are described, which generally relate to an integrated circuit having an interconnect that implements internal controls. The interconnect in an integrated circuit communicates transactions between initiator Intellectual Property (IP) cores and target IP cores coupled to the interconnect. The interconnect implements logic configured to support multiple transactions issued from a first initiator IP core to the multiple target IP cores while maintaining an expected execution order within the transactions. The logic supports a second transaction to be issued from the first initiator IP core to a second target IP core before a first transaction issued from the same first initiator IP core to a first target IP core has completed while ensuring that the first transaction completes before the second transaction and while ensuring an expected execution order within the first transaction and second transaction are maintained. The logic does not include any reorder buffering. | 12-25-2008 |
20090235020 | VARIOUS METHODS AND APPARATUS FOR ADDRESS TILING - Various methods and apparatus are described for a memory scheduler. The memory scheduler couples to a target memory core that includes a bank of memories. The memory scheduler contains two or more configurable address tiling functions to transform an incoming address of data requested in a request to the target memory core to determine what physical addresses in the bank of memories will service the first request. The two or more configurable address tiling functions are programmable by a user to create two or more distinctly different memory regions in the target memory core. Each memory region has its own distinct tiling function based on configuration parameters 1) selected by the user and 2) stored in tiling registers in the memory scheduler. The multiple tiling functions are configured to operate concurrently in the integrated circuit. | 09-17-2009 |
20100042759 | VARIOUS METHODS AND APPARATUS FOR ADDRESS TILING AND CHANNEL INTERLEAVING THROUGHOUT THE INTEGRATED SYSTEM - Various methods and apparatus are described for a target with multiple channels. Address decoding logic is configured to implement a distribution of requests from individual burst requests to two or more memory channels making up an aggregate target. The address decoding logic implements a channel-selection hash function to allow requests from each individual burst request to be distributed amongst the two or more channels in a non-linear sequential pattern in channel round order that make up the aggregate target. | 02-18-2010 |
20100057400 | METHOD AND SYSTEM TO MONITOR, DEBUG, AND ANALYZE PERFORMANCE OF AN ELECTRONIC DESIGN - Various methods and apparatuses are described that provide instrumentation and analysis of an electronic design. A performance monitoring apparatus may be located on an interconnect of a fabricated integrated circuit. An event measurement module (EM) includes an event generator sub-module that generates monitoring events and event measurements associated with transactions between initiator intellectual property (IP) cores and target IP cores over the interconnect. The EM further includes a software visible register block that provides software access for controlling the EM on which one or more transactions to monitor and to configure one or more parameters associated with that transaction to track. The EM further includes a filtering sub-module that selects transactions to be monitored based on information received from the software. The performance counter module aggregates events and event measurements received from the EM into quantities of performance metrics associated with transactions between the IP cores over the interconnect. | 03-04-2010 |
20100211935 | METHOD AND APPARATUS FOR ESTABLISHING A QUALITY OF SERVICE MODEL - In general, methods and apparatus for implementing a Quality of Service (QoS) model are disclosed. A Quality of Service (QoS) contract with an initiating network device may be satisfied. A request may be received from the initiating network device in a first time less than or equal to an ordinal number times an arrival interval. The ordinal number signifies a position of the request among a group of requests. The request that has been serviced may be returned to the initiator in a second time less than or equal to a constant term plus the ordinal number times a service interval. | 08-19-2010 |
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 |
20120036296 | INTERCONNECT THAT ELIMINATES ROUTING CONGESTION AND MANAGES SIMULTANEOUS TRANSACTIONS - A method, apparatus, and system are described, which generally relate to an integrated circuit having an interconnect. The flow control logic for the interconnect applies a flow control splitting protocol to permit transactions from each initiator thread and/or each initiator tag stream to be outstanding to multiple channels in a single aggregate target at once, and therefore to multiple individual targets within an aggregate target at once. The combined flow control logic and flow control protocol allows the interconnect to manage simultaneous requests to multiple channels in an aggregate target from the same thread or tag at the same time. | 02-09-2012 |
20120036509 | APPARATUS AND METHODS TO CONCURRENTLY PERFORM PER-THREAD AS WELL AS PER-TAG MEMORY ACCESS SCHEDULING WITHIN A THREAD AND ACROSS TWO OR MORE THREADS - A method, apparatus, and system in which an integrated circuit comprises an initiator Intellectual Property (IP) core, a target IP core, an interconnect, and a tag and thread logic. The target IP core may include a memory coupled to the initiator IP core. Additionally, the interconnect can allow the integrated circuit to communicate transactions between one or more initiator Intellectual Property (IP) cores and one or more target IP cores coupled to the interconnect. A tag and thread logic can be configured to concurrently perform per-thread and per-tag memory access scheduling within a thread and across multiple threads such that the tag and thread logic manages tags and threads to allow for per-tag and per-thread scheduling of memory accesses requests from the initiator IP core out of order from an initial issue order of the memory accesses requests from the initiator IP core. | 02-09-2012 |
20120117301 | METHODS AND APPARATUS FOR VIRTUALIZATION IN AN INTEGRATED CIRCUIT - 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. A centralized Memory Management logic Unit (MMU) is located in the interconnect for virtualization and sharing of integrated circuit resources including target cores between the one or more initiator IP cores. A master translation look aside buffer (TLB) stores virtualization and sharing information in the entries of the master TLB. A set of two or more translation look aside buffers (TLBs) locally store virtualization and sharing information replicated from the master TLB. Logic in the MMU or other software updates the virtualization and sharing information replicated from the master TLB in the entries of one or more of the set of local TLBs. | 05-10-2012 |
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 |
20150026494 | INTELLIGENT MESOCHRONOUS SYNCHRONIZER - A method and apparatus for transmitting data over a clock-gated mesochronous clock domain boundary in an interconnect network of an integrated circuit. New data is received into storage buffers within a sender domain. The data is synchronized by sending time-controlled signals from storage elements in a sender control within the sender domain to corresponding inputs in a receiver control signal path in a receiver domain. Multiplexers are signaled to sequentially transmit the data from the storage buffers across the domain boundary to the receiver domain according to the time-controlled signals received from the sender control by the receiver control signal path, where the multiplexers receive signals from a data path pointer counter in communication with the receiver control signal path. | 01-22-2015 |