Patent application number | Description | Published |
20080301708 | SHARED STORAGE FOR MULTI-THREADED ORDERED QUEUES IN AN INTERCONNECT - In one embodiment, payload of multiple threads between intellectual property (IP) cores of an integrated circuit are transferred, by buffering the payload using a number of order queues. Each of the queues is guaranteed access to a minimum number of buffer entries that make up the queue. Each queue is assigned to a respective thread. A number of buffer entries that make up any queue is increased, above the minimum, by borrowing from a shared pool of unused buffer entries on a first-come, first-served basis. In another embodiment, an interconnect implements a content addressable memory (CAM) structure that is shared storage for a number of logical, multi-thread ordered queues that buffer requests and/or responses that are being routed between data processing elements coupled to the interconnect. Other embodiments are also described and claimed. | 12-04-2008 |
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 |
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 |
20100115196 | SHARED STORAGE FOR MULTI-THREADED ORDERED QUEUES IN AN INTERCONNECT - In one embodiment, payload of multiple threads between intellectual property (IP) cores of an integrated circuit are transferred, by buffering the payload using a number of order queues. Each of the queues is guaranteed access to a minimum number of buffer entries that make up the queue. Each queue is assigned to a respective thread. A number of buffer entries that make up any queue is increased, above the minimum, by borrowing from a shared pool of unused buffer entries on a first-come, first-served basis. In another embodiment, an interconnect implements a content addressable memory (CAM) structure that is shared storage for a number of logical, multi-thread ordered queues that buffer requests and/or responses that are being routed between data processing elements coupled to the interconnect. Other embodiments are also described and claimed. | 05-06-2010 |
20110067114 | METHODS AND APPARATUS FOR A CONFIGURABLE PROTECTION ARCHITECTURE FOR ON-CHIP SYSTEMS - Various methods and apparatuses of protection mechanism are described. A target intellectual property block may field and service requests from an initiator intellectual property block in a system-on-chip network. The target intellectual property block has an associated protection mechanism with logic configured to restrict access for the requests to the target intellectual property block. The request's access is restricted based on access permissions associated with a region within the target intellectual property block and attributes of the request trying to access that region. | 03-17-2011 |
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 |
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 |
20130311796 | INTELLIGENT POWER CONTROLLER - A method, apparatus, and system in which an interconnect for an integrated circuit communicates transactions between one or more initiator Intellectual Property (IP) cores and one or more target IP cores coupled to the interconnect, including a power manager having a hierarchy of two or more layers including a hardware logic portion to control a power consumption of two or more domains in the integrated circuit, where each layer of the power manager performs its own function; wherein the power manager has its own dedicated CPU or dedicated state machine to execute power management instructions; and wherein the power manager controls the power consumption of two or more domains without using a CPU IP core utilized by other IP cores on the integrated circuit to execute power management instructions. | 11-21-2013 |
20130329842 | SYNCHRONIZER WITH A TIMING CLOSURE ENHANCEMENT - Data payload is passed over a boundary from a sender module (SM) on one side of the boundary to a receiver module (RM) on the other side of the boundary. The SM has two or more multiplexers to pass the data payload over to a receiver storage register in the RM. Each multiplexer has 1) its own read address pointer lane coming from sequencing logic located on the RM side and 2) data slots to send data payload from that multiplexer across the boundary to the receiver storage register in the RM in a qualified event synchronization. The sequencing logic ensures that the multiple read address pointers going to the multiplexers have a fixed alternating relationship amongst themselves; and thus, the multiple read address pointers syncopate between each other to move the data payload across the boundary to provide 100% throughput. | 12-12-2013 |