Patent application number | Description | Published |
20080222465 | Checkpointing user design states in a configurable IC - Some embodiments provide a configurable integrated circuit (IC) that has several configurable circuits and several user design state (UDS) circuits. The UDS circuits store user-design state values. The configurable IC also includes a debug network communicatively coupled to the UDS circuits. The debug network is for retrieving the user-design state values of several UDS circuits at various stoppages of the operation of the IC without retrieving configuration data that is used to configure the configurable circuits of the IC. The retrieved user-design state values at each stoppage are used as the checkpointed state of the IC while debugging the IC. In some embodiments, the debug network allows the checkpointing of only certain portions of the configurable IC. | 09-11-2008 |
20080231314 | Configurable IC Having A Routing Fabric With Storage Elements - Some embodiments provide a configurable IC that includes a configurable routing fabric with storage elements. In some embodiments, the routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric of some embodiments provides the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component continually performs operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the configurable IC. | 09-25-2008 |
20080231315 | Configurable IC Having A Routing Fabric With Storage Elements - Some embodiments provide a configurable IC that includes a configurable routing fabric with storage elements. In some embodiments, the routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric of some embodiments provides the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component continually performs operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the configurable IC. | 09-25-2008 |
20080258761 | RUNTIME LOADING OF CONFIGURATION DATA IN A CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC) that has several configurable circuits for configurably performing different operations. During the operation of the IC, each particular configurable circuit performs a particular operation that is specified by a particular configuration data set for the particular configurable circuit. While the IC operates and a first set of configurable circuits performs a first set of operations, configuration data is loaded from the outside of the IC for configuring a second set of configurable circuits. In some embodiments, the configurable IC includes a configuration network for rapid loading configuration data in the IC from outside of the IC. In some of these embodiments, the configuration network is a pipelined network. Also, the IC of some embodiments includes a configuration controller for retrieving configuration data from outside of the IC, formulating configuration data sets, and routing the configuration data sets to the second set of configurable circuits over the configuration network. | 10-23-2008 |
20080272801 | RUNTIME LOADING OF CONFIGURATION DATA IN A CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC) that has several configurable circuits for configurably performing different operations. During the operation of the IC, each particular configurable circuit performs a particular operation that is specified by a particular configuration data set for the particular configurable circuit. While the IC operates and a first set of configurable circuits performs a first set of operations, configuration data is loaded from the outside of the IC for configuring a second set of configurable circuits. In some embodiments, the configurable IC includes a configuration network for rapid loading configuration data in the IC from outside of the IC. In some of these embodiments, the configuration network is a pipelined network. Also, the IC of some embodiments includes a configuration controller for retrieving configuration data from outside of the IC, formulating configuration data sets, and routing the configuration data sets to the second set of configurable circuits over the configuration network. | 11-06-2008 |
20080272802 | Random access of user design states in a configurable IC - Some embodiments of the invention is a configurable integrated circuit (IC) that includes (1) several configurable logic circuits, (2) a first routing network for connecting the configurable logic circuits, (3) several user design state (UDS) circuits, and (4) a second network communicatively coupled to the UDS circuits. In least one period during the operation of the IC, the second network receives addresses for a several UDS circuits in a random access manner. In some embodiments, the second network is a debug network for reading randomly state values stored by the addressed UDS circuits during the user-design operation of the IC. | 11-06-2008 |
20080307378 | Operational Cycle Assignment in a Configurable IC - Some embodiments provide a method of designing a configurable integrated circuit (“IC”) with several configurable circuits. The method receives a design having several sets of operations for the configurable circuits to perform in different operational cycles. For at least a first set of operations that has a start operation and an end operation, the method assigns a particular operation in the first set to a first operational cycle based at least partially on the position of the particular operation with respect to the start and end operations. | 12-11-2008 |
20080307380 | Operational Cycle Assignment in a Configurable IC - Some embodiments provide a method of designing a configurable integrated circuit (“IC”) with several configurable circuits. The method receives a design having several sets of operations for the configurable circuits to perform in different operational cycles. For at least a first set of operations that has a start operation and an end operation, the method assigns a particular operation in the first set to a first operational cycle based at least partially on the position of the particular operation with respect to the start and end operations. | 12-11-2008 |
20090002016 | RETRIEVING DATA FROM A CONFIGURABLE IC - Some embodiments provide a configurable integrated circuit (IC). The IC has configurable logic circuits for performing logical operations, configurable routing circuits for routing signals between the configurable logic circuits, and a network for monitoring data. In some embodiments a method uses at least a subset of the configurable logic circuits and a first subset of the configurable routing circuits to implement a user design circuit on the configurable IC. The method uses a second subset of the configurable routing circuits to pass signals to the network. | 01-01-2009 |
20090002020 | DYNAMICALLY TRACKING DATA VALUES IN A CONFIGURABLE IC - Some embodiments provide a method of dynamically tracking data values in a configurable integrated circuit (IC). The method, during a run time of the configurable IC, receives a request for a data value and dynamically configures the configurable IC to monitor the data value. | 01-01-2009 |
20090002021 | RESTRUCTURING DATA FROM A TRACE BUFFER OF A CONFIGURABLE IC - Some embodiments provide a method that outputs from a configurable IC a first set of data bits from a trace buffer. Each bit of the first set of data bits is simultaneously generated in the configurable circuits and, in some embodiments, multiple data bits of the first set of data bits do not reach the traced buffer simultaneously. The method also determines a set of relative delays for the first set of data bits and arranges the first set of data bits into a second set of data bits by compensating for the relative delays. | 01-01-2009 |
20090007027 | TRANSLATING A USER DESIGN IN A CONFIGURABLE IC FOR DEBUGGING THE USER DESIGN - Some embodiments provide a method of monitoring the implementation of a user design in a configurable integrated circuit (IC). The method receives a user design for an IC and optimizes the user design to produce a second IC design. The optimization results in the elimination of circuit elements(s). The method defines the second IC design for the configurable IC and generates output data for the eliminated circuit element(s) to allow for monitoring the user design. | 01-01-2009 |
20090037862 | Operational Cycle Assignment in a Configurable IC - Some embodiments provide a method of designing a configurable integrated circuit (“IC”) with several configurable circuits. The method receives a design having several sets of operations for the configurable circuits to perform in different operational cycles. For at least a first set of operations that has a start operation and an end operation, the method assigns a particular operation in the first set to a first operational cycle based at least partially on the position of the particular operation with respect to the start and end operations. | 02-05-2009 |
20090058461 | Configurable Circuits, IC's, and Systems - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes a logic circuit for receiving input data sets and configuration data sets and performing several functions on the input data sets. Each configuration data set specifies a particular function that the logic circuit has to perform on the input data set. The IC also includes a connection circuit for supplying sets of the configuration data to the logic circuit at a particular rate for at least a particular time period. At least two supplied configuration data sets are different and configure the logic circuit to perform two different functions on the input data. | 03-05-2009 |
20090106710 | METHOD AND APPARATUS FOR SYNTHESIS - Some embodiments of the invention provide a method for pre-tabulating sub-networks. This method (1) generates a sub-network that performs a function, (2) generates a parameter based on this function, and (3) stores the sub-network in a storage structure based on the generated parameter. In some embodiments, the generated sub-network has several circuit elements. Also, in some embodiments, the generated sub-network performs a set of two or more functions. Some embodiments store each generated sub-network in an encoded manner. Some embodiments provide a method for producing a circuit description of a design. This method (1) selects a candidate sub-network from the design, (2) identifies an output function performed by the sub-network, (3) based on the identified output function, identifies a replacement sub-network from a storage structure that stores replacement sub-networks, and (4) replaces the selected candidate sub-network with the identified replacement sub-network in certain conditions. In some embodiments, this method is performed to map a design to a particular technology library. Some embodiments provide a data storage structure that stores a plurality of sub-networks based on parameters derived from the output functions of the sub-networks. | 04-23-2009 |
20090160481 | Configurable Circuits, IC's and Systems - Some embodiments of the invention provide a configurable integrated circuit (IC). The configurable IC includes first and second interconnect circuits. The first interconnect circuit has a set of input terminals, a set of output terminals, and several connection schemes for communicatively coupling the input terminal set to the output terminal set. During the operation of the IC, the second connection circuit supplies sets of configuration data to the first interconnect circuit at a particular rate for at least a particular time period. At least two supplied configuration data sets are different and configure the first interconnect circuit to use two different connection schemes that differently couple the input and output terminal sets. | 06-25-2009 |
20090167354 | Non-Sequentially Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 07-02-2009 |
20090243651 | Method and Apparatus for Decomposing Functions in a Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (“IC”). The configurable IC includes a set of multiplexers that each has a set of input terminals, a set of output terminals, and a set of select terminals. The set of multiplexers includes a group of multiplexers, where at least one input terminal of each multiplexer in the group is a permanently inverting input terminal. During at least a set of cycles during the operation of the configurable IC, several multiplexers in the group of multiplexers are used to implement a particular function. | 10-01-2009 |
20090327987 | Timing operations in an IC with configurable circuits - Some embodiments provide a method that identifies a first physical design solution for positioning several configurable operations on several reconfigurable circuits of an integrated circuit (IC). The method identifies a second physical design solution for positioning the configurable operations on the configurable circuits. One of the identified physical design solutions has one reconfigurable circuit perform a particular configurable operation in at least two reconfiguration cycles while the other identified solution does not have one reconfigurable circuit perform the particular configurable operation in two reconfiguration cycles. The method costs the first and second physical design solutions. The method selects one of the two physical design solutions based on the costs. | 12-31-2009 |
20100001759 | CONFIGURABLE IC HAVING A ROUTING FABRIC WITH STORAGE ELEMENTS - Some embodiments provide a configurable IC that includes a configurable routing fabric with storage elements. In some embodiments, the routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric of some embodiments provides the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component continually performs operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the configurable IC. | 01-07-2010 |
20100066407 | Operational Time Extension - Some embodiments provide a reconfigurable integrated circuit (“IC”). This IC has several reconfigurable circuits, each having several configurations for several configuration cycles. The reconfigurable circuits include several time-extending reconfigurable circuits. During the operation of the IC, each particular time-extending reconfigurable circuit maintains at least one of its configurations over at least two contiguous cycles, in order to allow a signal to propagate through a signal path, which contains the particular time-extending circuit, within a desired amount of time. Some embodiments provide a method of designing a reconfigurable IC that has several reconfigurable circuits, each having several configurations and operating in several reconfiguration cycles. The method identifies a signal path through the IC that does not meet a timing constraint. The signal path includes several circuits, one of which is a particular reconfigurable circuit. The method then maintains a configuration of the particular reconfigurable circuit constant over at least two contiguous reconfiguration cycles in order to reduce signal delay through the signal path and thereby satisfy the timing constraint. | 03-18-2010 |
20100096757 | Method and System for Distributing Clock Signals on Non Manhattan Semiconductor Integrated Circuits - The present invention introduces methods, systems, and architectures for routing clock signals in an integrated circuit layout. The introduced clock signal clock signal structures are rendered with non Manhattan routing. In a first embodiment, the traditional recursive H clock signal structure is rendered after transforming the coordinates system such that a rotated recursive H clock signal structure is rendered. In another embodiment, a recursive Y structure is used to create a clock signal structure. The recursive Y structure may also be implemented in a rotated alignment. For clock signal redundancy, non Manhattan wiring may be used to create a clock signal mesh network. | 04-22-2010 |
20100194429 | RECONFIGURABLE IC THAT HAS SECTIONS RUNNING AT DIFFERENT RECONFIGURATION RATES - Some embodiments provide a reconfigurable IC that includes several sections. Each section includes several configurable circuits, each of which configurably performs a set of operations. Each section stores multiple configuration data sets for each configurable circuit. Each configuration data set for a particular configurable circuit specifies the operation that the particular configurable circuit has to perform from the circuit's set of operations, where the configurable circuits of at least two different sections change configuration data sets at two different reconfiguration rates. | 08-05-2010 |
20100210077 | CONFIGURABLE INTEGRATED CIRCUIT WITH BUILT-IN TURNS - Some embodiments of the invention provide configurable integrated circuits (“IC's”) with configurable node arrays. In some embodiments, the configurable node array includes numerous (e.g., 50, 100, etc.) configurable nodes arranged in several rows and columns. This array also includes several direct offset connections, where each particular direct offset connection connects two nodes that are neither in the same column nor in the same row in the array. In some embodiments, at least some direct offset connections connect pairs of nodes that are separated in the array by more than one row and at least one column, or by more than one column and at least one row. Some embodiments establish a direct connection by (1) a set of wire segments that traverse through a set of the IC's wiring layers, and (2) a set of vias when two or more wiring layers are involved. In some embodiments, some of the direct connections have intervening circuits (e.g., buffer circuits), while other direct connections do not have any intervening circuits. Also, in some embodiments, the nodes in the configurable array are all similar (e.g., have the same set of circuit elements and same internal wiring between the circuit elements). | 08-19-2010 |
20100213982 | METHOD AND SYSTEM FOR DISTRIBUTING CLOCK SIGNALS ON NON MANHATTAN SEMICONDUCTOR INTEGRATED CIRCUITS - The present invention introduces methods, systems, and architectures for routing clock signals in an integrated circuit layout. The introduced clock signal clock signal structures are rendered with non Manhattan routing. In a first embodiment, the traditional recursive H clock signal structure is rendered after transforming the coordinates system such that a rotated recursive H clock signal structure is rendered. In another embodiment, a recursive Y structure is used to create a clock signal structure. The recursive Y structure may also be implemented in a rotated alignment. For clock signal redundancy, non Manhattan wiring may be used to create a clock signal mesh network. | 08-26-2010 |
20100219859 | Non-Sequentially Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 09-02-2010 |
20100241800 | SYSTEM AND METHOD FOR PROVIDING A VIRTUAL MEMORY ARCHITECTURE NARROWER AND DEEPER THAN A PHYSICAL MEMORY ARCHITECTURE - Some embodiments provide a method of presenting virtual memory as narrower and deeper than a physical memory. The method receives a memory address location including a set of real memory address bits and a set of virtual memory position bits. The method retrieves an original memory word from a physical memory using the real memory address bits. The method shifts the original memory word by an amount determined by the virtual memory position bits by using a barrel shifter, creating a shifted memory word. The method reads a part of the shifted memory word. | 09-23-2010 |
20100295574 | Runtime Loading of Configuration Data in a Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (IC) that has several configurable circuits for configurably performing different operations. During the operation of the IC, each particular configurable circuit performs a particular operation that is specified by a particular configuration data set for the particular configurable circuit. While the IC operates and a first set of configurable circuits performs a first set of operations, configuration data is loaded from the outside of the IC for configuring a second set of configurable circuits. In some embodiments, the configurable IC includes a configuration network for rapid loading configuration data in the IC from outside of the IC. In some of these embodiments, the configuration network is a pipelined network. Also, the IC of some embodiments includes a configuration controller for retrieving configuration data from outside of the IC, formulating configuration data sets, and routing the configuration data sets to the second set of configurable circuits over the configuration network. | 11-25-2010 |
20110004734 | SYSTEM AND METHOD FOR PROVIDING MORE LOGICAL MEMORY PORTS THAN PHYSICAL MEMORY PORTS - Some embodiments provide for a method of mapping a user design to a configurable integrated circuit (IC). The method is for a configurable IC that implements a user design with an associated user design clock cycle. The IC operates on a sub-cycle clock that has multiple sub-cycle periods within a user period of the user design clock cycle. The method identifies multiple port accesses to a first multi-port memory defined in the user design. The accesses are in a single user design clock cycle. The method maps the multiple port accesses to the first multi-port memory to multiple physical-port memory accesses to a second physical-port memory in the configurable IC during multiple sub-cycles associated with a single user design clock cycle. | 01-06-2011 |
20110029830 | INTEGRATED CIRCUIT (IC) WITH PRIMARY AND SECONDARY NETWORKS AND DEVICE CONTAINING SUCH AN IC - Some embodiments provide an integrated circuit (“IC”) with a primary circuit structure. The primary circuit structure is for performing multiple operations that implement a user design. The primary circuit structure includes multiple circuits. The IC also includes a secondary monitoring structure for monitoring multiple operations. The secondary monitoring structure includes a network communicatively coupled to multiple circuits of the primary circuit structure. The secondary monitoring circuit structure is for analyzing the monitored operations and reporting on the analysis to a circuit outside of the IC. | 02-03-2011 |
20110031998 | CONFIGURABLE IC'S WITH LARGE CARRY CHAINS - Some embodiments provide a configurable IC that includes several configurable logic circuits, where the logic circuits include several sets of associated configurable logic circuits. For each several sets of associated configurable logic circuits, the reconfigurable IC also includes a carry circuit for performing up to N carry operations sequentially, wherein N is greater than two. | 02-10-2011 |
20110060546 | Intergrated circuit (IC) with primary and secondary networks and device containing such IC - Some embodiments provide an integrated circuit (“IC”) with a primary circuit structure. The primary circuit structure is for performing multiple operations that implement a user design. The primary circuit structure includes multiple circuits. The IC also includes a secondary monitoring structure for monitoring multiple operations. The secondary monitoring structure includes a network communicatively coupled to multiple circuits of the primary circuit structure. The secondary monitoring circuit structure is for analyzing the monitored operations and reporting on the analysis to a circuit outside of the IC. | 03-10-2011 |
20110060896 | Accessing Multiple User States Concurrently in a Configurable IC - Some embodiments of the invention provide a configuration/debug network for configuring and debugging a configurable integrated circuit (IC). The configurable IC in some embodiments includes configurable resources (e.g., configurable logic resources, routing resources, memory resources, etc.) that can be grouped in conceptual configurable tiles that are arranged in several rows and columns. Some embodiments allow tiles to be individually addressed, globally addressed (i.e., all addressed together), or addressed based on their tile types. The configurable IC includes numerous user-design state elements (“UDS elements”) in some embodiments. In some embodiments, the configuration/debug network has a streaming mode that can direct various circuits in one or more configurable tiles to stream out their data during the operation of the configurable IC. Accordingly, in the embodiments where the configuration/debug network connects to some or all of the UDS elements, the configurable/debug network can be used in a streaming mode to stream out data from the UDS elements of the tiles, in order to identify any errors in the operation of the IC. In other words, the streaming of the data from the UDS elements can be used to debug the operation of the configurable IC. In some embodiments, the configuration/debug network has a broadcasting mode that can direct various resources (e.g., memories, storage elements, etc.) in one or more configurable tiles to store the same data. For instance, the broadcasting mode can be used to initialize the memory blocks in the configurable memory tiles. | 03-10-2011 |
20110133777 | Configurable Circuits, IC's, and Systems - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes a logic circuit for receiving input data sets and configuration data sets and performing several functions on the input data sets. Each configuration data set specifies a particular function that the logic circuit has to perform on the input data set. The IC also includes a connection circuit for supplying sets of the configuration data to the logic circuit at a particular rate for at least a particular time period. At least two supplied configuration data sets are different and configure the logic circuit to perform two different functions on the input data. | 06-09-2011 |
20110145776 | OPERATIONAL CYCLE ASSIGNMENT IN A CONFIGURABLE IC - Some embodiments provide a method of designing a configurable integrated circuit (“IC”) with several configurable circuits. The method receives a design having several sets of operations for the configurable circuits to perform in different operational cycles. For at least a first set of operations that has a start operation and an end operation, the method assigns a particular operation in the first set to a first operational cycle based at least partially on the position of the particular operation with respect to the start and end operations. | 06-16-2011 |
20110154278 | DECISION MODULES - An abstract decision module primitive for placement within a logical representation (i.e., a netlist) of a circuit design is described. The decision module primitive receives as inputs alternative solutions for a given function or segment of a netlist. The alternative solutions include functionally equivalent, but structurally different implementations of the function or segment of the netlist. The decision module primitive alternatively selects between connecting one of the inputs to the netlist to provide a complete functional definition for the netlist based on constraint information. | 06-23-2011 |
20110154279 | DECISION MODULES - An abstract decision module primitive for placement within a logical representation (i.e., a netlist) of a circuit design is described. The decision module primitive receives as inputs alternative solutions for a given function or segment of a netlist. The alternative solutions include functionally equivalent, but structurally different implementations of the function or segment of the netlist. The decision module primitive alternatively selects between connecting one of the inputs to the netlist to provide a complete functional definition for the netlist based on constraint information. The selected input of the decision module may be updated as additional constraint information is determined throughout the various stages of the design process. In addition, alternative solutions for a given function or segment of the netlist may be added to and/or removed from the inputs of a decision module as additional constraint information is identified. | 06-23-2011 |
20110163781 | METHOD AND APPARATUS FOR IDENTIFYING CONNECTIONS BETWEEN CONFIGURABLE NODES IN A CONFIGURABLE INTEGRATED CIRCUIT - Some embodiments provide a method that defines a set of connections that connect the nodes in a configurable node array. The method identifies different sets of connections for connecting a set of the nodes. For each identified set of connections, the method computes a metric score that quantifies a quality of the identified set of connections. The method then selects one of the identified sets of connections to connect the configurable nodes in the array. | 07-07-2011 |
20110181317 | OPERATIONAL TIME EXTENSION - Some embodiments provide a reconfigurable integrated circuit (“IC”). This IC has several reconfigurable circuits, each having several configurations for several configuration cycles. The reconfigurable circuits include several time-extending reconfigurable circuits. During the operation of the IC, each particular time-extending reconfigurable circuit maintains at least one of its configurations over at least two contiguous cycles, in order to allow a signal to propagate through a signal path, which contains the particular time-extending circuit, within a desired amount of time. Some embodiments provide a method of designing a reconfigurable IC that has several reconfigurable circuits, each having several configurations and operating in several reconfiguration cycles. The method identifies a signal path through the IC that does not meet a timing constraint. The signal path includes several circuits, one of which is a particular reconfigurable circuit. The method then maintains a configuration of the particular reconfigurable circuit constant over at least two contiguous reconfiguration cycles in order to reduce signal delay through the signal path and thereby satisfy the timing constraint. | 07-28-2011 |
20110199117 | TRIGGER CIRCUITS AND EVENT COUNTERS FOR AN IC - Some embodiments provide an integrated circuit (‘IC’). The IC includes multiple configurable circuits that configurably perform operations of a user design based on configuration data. The IC also includes a configurable trigger circuit that receives a set of configuration data that specifies an operational event. The configurable trigger circuit also determines whether the operational event has occurred during implementation of the user design of the IC. Additionally, the operational trigger event outputs a trigger signal upon determining that the operational trigger event has occurred. | 08-18-2011 |
20110202586 | CONFIGURABLE IC'S WITH DUAL CARRY CHAINS - Some embodiments provide a configurable integrated circuit (“IC”) that includes several configurable tiles arranged in a tile arrangement. Each configurable tile has a set of configurable logic circuits and a set of configurable routing circuits for routing signals between configurable logic circuits. In some embodiments, at least a first logic circuit of a first tile has at least one direct connection with a second circuit of a second tile that does not neighbor the first tile and that is not aligned horizontally or vertically with the first tile in the tile arrangement. Also, in some embodiments, each particular tile further has a set of configurable input-select circuits for receiving inputs and configurably supplying a sub-set of the received inputs to the configurable logic circuits in the particular tile. At least a first input select circuit of a first tile has at least one direct connection with a second circuit of a second tile that does not neighbor the first tile and that is not aligned horizontally or vertically with the first tile in the tile arrangement, where the direction connection is for supplying a signal to the first input select circuit. In some embodiments, several logic circuits of the first tile have at least one direct connection with at least one circuit of another tile that does not neighbor the first tile and that is not aligned horizontally or vertically with the first tile in the tile arrangement. In some embodiments, several input select circuits of the first tile have at least one direct connection with at least one circuit of another tile that does not neighbor the first tile and that is not aligned horizontally or vertically with the first tile in the tile arrangement. | 08-18-2011 |
20110206176 | TRIGGER CIRCUITS AND EVENT COUNTERS FOR AN IC - Some embodiments provide an integrated circuit (“IC”). The IC includes multiple configurable circuits that configurably perform operations of a user design based on configuration data. The IC also includes a configurable trigger circuit that receives a set of configuration data that specifies an operational event. The configurable trigger circuit also determines whether the operational event has occurred during implementation of the user design of the IC. Additionally, the operational trigger event outputs a trigger signal upon determining that the operational trigger event has occurred. | 08-25-2011 |
20110221471 | CONTROLLABLE STORAGE ELEMENTS FOR AN IC - An integrated circuit (“IC”) that includes a configurable routing fabric with controllable storage elements is described. The routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric may provide the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component may continually perform operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the IC. | 09-15-2011 |
20110241199 | PROGRAMMABLE SYSTEM IN PACKAGE - Some embodiments of the invention provide a programmable system in package (“PSiP”). The PSiP includes a single IC housing, a substrate and several IC's that are arranged within the single IC housing. At least one of the IC's is a configurable IC. In some embodiments, the configurable IC is a reconfigurable IC that can reconfigure more than once during run time. In some of these embodiments, the reconfigurable IC can be reconfigured at a first clock rate that is faster (i.e., larger) than the clock rates of one or more of the other IC's in the PSiP. The first clock rate is faster than the clock rate of all of the other IC's in the PSiP in some embodiments. | 10-06-2011 |
20110241728 | CONTROLLABLE STORAGE ELEMENTS FOR AN IC - An integrated circuit (‘IC’) that includes a configurable routing fabric with controllable storage elements is described. The routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric may provide the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component may continually perform operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or a distribute signals throughout the IC. | 10-06-2011 |
20110267102 | NON-SEQUENTIALLY CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 11-03-2011 |
20120062278 | CONFIGURABLE INTEGRATED CIRCUIT WITH BUILT-IN TURNS - Some embodiments of the invention provide configurable integrated circuits (“IC's”) with configurable node arrays. In some embodiments, the configurable node array includes numerous (e.g., 50, 100, etc.) configurable nodes arranged in several rows and columns. This array also includes several direct offset connections, where each particular direct offset connection connects two nodes that are neither in the same column nor in the same row in the array. In some embodiments, at least some direct offset connections connect pairs of nodes that are separated in the array by more than one row and at least one column, or by more than one column and at least one row. Some embodiments establish a direct connection by (1) a set of wire segments that traverse through a set of the IC's wiring layers, and (2) a set of vias when two or more wiring layers are involved. In some embodiments, some of the direct connections have intervening circuits (e.g., buffer circuits), while other direct connections do not have any intervening circuits. Also, in some embodiments, the nodes in the configurable array are all similar (e.g., have the same set of circuit elements and same internal wiring between the circuit elements). | 03-15-2012 |
20120098567 | RUNTIME LOADING OF CONFIGURATION DATA IN A CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC) that has several configurable circuits for configurably performing different operations. During the operation of the IC, each particular configurable circuit performs a particular operation that is specified by a particular configuration data set for the particular configurable circuit. While the IC operates and a first set of configurable circuits performs a first set of operations, configuration data is loaded from the outside of the IC for configuring a second set of configurable circuits. In some embodiments, the configurable IC includes a configuration network for rapid loading configuration data in the IC from outside of the IC. In some of these embodiments, the configuration network is a pipelined network. | 04-26-2012 |
20120098568 | METHOD AND APPARATUS FOR PERFORMING AN OPERATION WITH A PLURALITY OF SUB-OPERATIONS IN A CONFIGURABLE IC - Some embodiments provide a method of performing a mathematical operation on a set of operands. The mathematical operation includes several sub-operations. The method examines several bits of at least one operand at a time and depending on the value of these bits, reconfigures a single logic circuit to perform one of the sub-operations to generate a partial result of the mathematical operation. In some embodiments, the logic circuit is reconfigured by receiving a first set of configuration data that cause the logic circuit to reconfigure to perform a first sub-operation operation and a second set of configuration data that cause the logic circuit to reconfigure to perform a second sub-operation. In some embodiments, the logic circuit receives different inputs based on the value of the bits being examined. In some embodiments, the mathematical operation is multiplication and the sub-operations are addition and subtraction. | 04-26-2012 |
20120117525 | Translating a User Design in A Configurable IC for Debugging the User Design - Some embodiments provide a method of monitoring the implementation of a user design in a configurable integrated circuit (IC). The method receives a user design for an IC and optimizes the user design to produce a second IC design. The optimization results in the elimination of circuit element(s). The method defines the second IC design for the configurable IC and generates output data for the eliminated circuit element(s) to allow for monitoring the user design. | 05-10-2012 |
20120139579 | CONFIGURABLE IC HAVING A ROUTING FABRIC WITH STORAGE ELEMENTS - Some embodiments provide a configurable IC that includes a configurable routing fabric with storage elements. In some embodiments, the routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric of some embodiments provides the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component continually performs operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the configurable IC. | 06-07-2012 |
20120176155 | RESCALING - A novel method for designing an integrated circuit (“IC”) by resealing an original set of circuits in a design of the IC is disclosed. The original set of circuits to be resealed includes sequential nodes, combinational nodes, and interconnects. Each sequential node is associated with a phase of a clock. The method generates a resealed set of circuits that includes multiple replica sets of the circuits. Each replica set of circuits includes sequential nodes, combinational nodes, and interconnects that are identical to nodes and interconnects in the original set of circuits. Each sequential node is associated with a phase of a clock that is at a fraction of the phase of its corresponding sequential element in the original set. The method connects nodes in each replica set of circuits to a logically equivalent node in another replica set. The method replaces the original set of circuits with the resealed set of circuits. | 07-12-2012 |
20120182046 | TIMING OPERATIONS IN AN IC WITH CONFIGURABLE CIRCUITS - Some embodiments provide a method that identifies a first physical design solution for positioning several configurable operations on several reconfigurable circuits of an integrated circuit (IC). The method identifies a second physical design solution for positioning the configurable operations on the configurable circuits. One of the identified physical design solutions has one reconfigurable circuit perform a particular configurable operation in at least two reconfiguration cycles while the other identified solution does not have one reconfigurable circuit perform the particular configurable operation in two reconfiguration cycles. The method costs the first and second physical design solutions. The method selects one of the two physical design solutions based on the costs. | 07-19-2012 |
20130021057 | CONFIGURABLE CIRCUITS, IC'S, AND SYSTEMS - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes a logic circuit for receiving input data sets and configuration data sets and performing several functions on the input data sets. Each configuration data set specifies a particular function that the logic circuit has to perform on the input data set. The IC also includes a connection circuit for supplying sets of the configuration data to the logic circuit at a particular rate for at least a particular time period. At least two supplied configuration data sets are different and configure the logic circuit to perform two different functions on the input data. | 01-24-2013 |
20130021058 | SYSTEM AND METHOD FOR REDUCING RECONFIGURATION POWER USAGE - A system and method for reducing power consumption in a reconfigurable integrated circuit. Some embodiments provide placement and routing programs that reduce the number of bits to be reconfigured. Some embodiments provide placement and routing programs that increase the number of groups of circuits that do not need reconfiguration at some times. Some embodiments include circuits that selectively block reconfiguration. | 01-24-2013 |
20130031316 | SYSTEM AND METHOD FOR PROVIDING MORE LOGICAL MEMORY PORTS THAN PHYSICAL MEMORY PORTS - Some embodiments provide for a method of mapping a user design to a configurable integrated circuit (IC). The method is for a configurable IC that implements a user design with an associated user design clock cycle. The IC operates on a sub-cycle clock that has multiple sub-cycle periods within a user period of the user design clock cycle. The method identifies multiple port accesses to a first multi-port memory defined in the user design. The accesses are in a single user design clock cycle. The method maps the multiple port accesses to the first multi-port memory to multiple physical-port memory accesses to a second physical-port memory in the configurable IC during multiple sub-cycles associated with a single user design clock cycle. | 01-31-2013 |
20130043898 | SYSTEM WITH A DEFECT TOLERANT CONFIGURABLE IC - Some embodiments of the invention provide a system that includes a first defect tolerant configurable integrated circuit and a second IC communicatively coupled to the defect tolerant configurable first IC. | 02-21-2013 |
20130093460 | CONFIGURABLE STORAGE ELEMENTS - An integrated circuit (“IC”) having configurable logic circuits for configurably performing multiple different logic operations based on configuration data is provided. The IC includes a row of the configurable logic circuits and multiple configuration retrieval circuits for providing configuration bits to the row of configurable logic circuits. The IC also includes a row configuration controller for forcing the multiple configuration retrieval circuits to output a particular configuration value based on a user signal that is received at runtime. | 04-18-2013 |
20130093461 | CONFIGURABLE STORAGE ELEMENTS - An integrated circuit (“IC”) having configurable logic circuits for configurably performing multiple different logic operations based on configuration data is provided. The IC includes a configurable routing fabric for configurably routing signals among configurable logic circuits. The configurable routing fabric includes a particular wiring path that connects an output of a source circuit to inputs of a destination circuit. The particular wiring path includes a first path and a second path that is parallel to the first path. The first and second paths are for configurably storing output signals of the source circuit. The first path connects to a first input of the destination circuit and the second path connects to a second input of the destination path. | 04-18-2013 |
20130093462 | CONFIGURABLE STORAGE ELEMENTS - A low power sub-cycle reconfigurable conduit is provided. The low power reconfigurable conduit is a clocked storage element that consumes less power when performing low-throughput operations that do not require sub-cycle rate. The low power conduit includes a first configurable routing multiplexer that is reconfigurable to select one of several inputs at a first clock rate. The low power conduit also includes an array of storage elements for storing output data from the configurable routing multiplexer at the first clock rate. Each storage element in the array of storage elements operate at a second clock rate that is slower than the first clock rate. Each storage element receives a different phase of a clock that operates at the second clock rate. The low power conduit also includes a second configurable routing multiplexer that is reconfigurable to select from the array of storage elements at the first clock rate. | 04-18-2013 |
20130097575 | Rescaling - A novel method for designing an integrated circuit (“IC”) by rescaling an original set of circuits in a design of the IC is disclosed. The original set of circuits to be rescaled includes sequential nodes, combinational nodes, and interconnects. Each sequential node is associated with a phase of a clock. The method generates a rescaled set of circuits that includes multiple replica sets of the circuits. Each replica set of circuits includes sequential nodes, combinational nodes, and interconnects that are identical to nodes and interconnects in the original set of circuits. Each sequential node is associated with a phase of a clock that is at a fraction of the phase of its corresponding sequential element in the original set. The method connects nodes in each replica set of circuits to a logically equivalent node in another replica set. The method replaces the original set of circuits with the rescaled set of circuits. | 04-18-2013 |
20130099819 | NON-SEQUENTIALLY CONFIGURABLE IC - Some embodiments of the invention provide a configurable integrated circuit (IC). The IC includes at least fifty configurable circuits arranged in an array having a plurality of rows and a plurality of columns. Each configurable circuit for configurably performing a set of operations. At least a first configurable circuit reconfigures at a first reconfiguration rate. The first configurable circuit performs a different operation each time the first configurable circuit is reconfigured. The reconfiguration of the first configurable circuit does not follow any sequential progression through the set of operations of the first configurable circuit. | 04-25-2013 |
20130099821 | SYSTEM AND METHOD FOR REDUCING RECONFIGURATION POWER USAGE - A system and method for reducing power consumption in a reconfigurable integrated circuit. Some embodiments provide placement and routing programs that reduce the number of bits to be reconfigured. Some embodiments provide placement and routing programs that increase the number of groups of circuits that do not need reconfiguration at some times. Some embodiments include circuits that selectively block reconfiguration. | 04-25-2013 |
20130104093 | SYSTEM AND METHOD FOR REDUCING RECONFIGURATION POWER USAGE - A system and method for reducing power consumption in a reconfigurable integrated circuit. Some embodiments provide placement and routing programs that reduce the number of bits to be reconfigured. Some embodiments provide placement and routing programs that increase the number of groups of circuits that do not need reconfiguration at some times. Some embodiments include circuits that selectively block reconfiguration. | 04-25-2013 |
20130135009 | METHOD AND APPARATUS FOR IDENTIFYING CONNECTIONS BETWEEN CONFIGURABLE NODES IN A CONFIGURABLE INTEGRATED CIRCUIT - Some embodiments provide a method that defines a set of connections that connect the nodes in a configurable node array. The method identifies different sets of connections for connecting a set of the nodes. For each identified set of connections, the method computes a metric score that quantifies a quality of the identified set of connections. The method then selects one of the identified sets of connections to connect the configurable nodes in the array. | 05-30-2013 |
20130156146 | Trigger Circuits and Event Counters for an IC - Some embodiments provide an integrated circuit (“IC”). The IC includes multiple configurable circuits that configurably perform operations of a user design based on configuration data. The IC also includes a configurable trigger circuit that receives a set of configuration data that specifies an operational event. The configurable trigger circuit also determines whether the operational event has occurred during implementation of the user design of the IC. Additionally, the operational trigger event outputs a trigger signal upon determining that the operational trigger event has occurred. | 06-20-2013 |
20140007027 | Decision Modules | 01-02-2014 |
20140109028 | Translating a User Design in a Configurable IC for Debugging the User Design - Some embodiments provide a method of monitoring the implementation of a user design in a configurable integrated circuit (IC). The method receives a user design for an IC and optimizes the user design to produce a second IC design. The optimization results in the elimination of circuit element(s). The method defines the second IC design for the configurable IC and generates output data for the eliminated circuit element(s) to allow for monitoring the user design. | 04-17-2014 |
20140210512 | Rescaling - A novel method for designing an integrated circuit (“IC”) by rescaling an original set of circuits in a design of the IC is disclosed. The original set of circuits to be rescaled includes sequential nodes, combinational nodes, and interconnects. Each sequential node is associated with a phase of a clock. The method generates a rescaled set of circuits that includes multiple replica sets of the circuits. Each replica set of circuits includes sequential nodes, combinational nodes, and interconnects that are identical to nodes and interconnects in the original set of circuits. Each sequential node is associated with a phase of a clock that is at a fraction of the phase of its corresponding sequential element in the original set. The method connects nodes in each replica set of circuits to a logically equivalent node in another replica set. The method replaces the original set of circuits with the rescaled set of circuits. | 07-31-2014 |
20140210513 | Controllable Storage Elements for an IC - An integrated circuit (“IC”) that includes a configurable routing fabric with controllable storage elements is described. The routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric may provide the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component may continually perform operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the IC. | 07-31-2014 |
20140240001 | Operational Time Extension - Some embodiments provide a reconfigurable integrated circuit (“IC”). This IC has several reconfigurable circuits, each having several configurations for several configuration cycles. The reconfigurable circuits include several time-extending reconfigurable circuits. During the operation of the IC, each particular time-extending reconfigurable circuit maintains at least one of its configurations over at least two contiguous cycles, in order to allow a signal to propagate through a signal path, which contains the particular time-extending circuit, within a desired amount of time. Some embodiments provide a method of designing a reconfigurable IC that has several reconfigurable circuits, each having several configurations and operating in several reconfiguration cycles. The method identifies a signal path through the IC that does not meet a timing constraint. The signal path includes several circuits, one of which is a particular reconfigurable circuit. The method then maintains a configuration of the particular reconfigurable circuit constant over at least two contiguous reconfiguration cycles in order to reduce signal delay through the signal path and thereby satisfy the timing constraint. | 08-28-2014 |
20140317588 | Timing Operations In An IC With Configurable Circuits - Some embodiments provide a method that identifies a first physical design solution for positioning several configurable operations on several reconfigurable circuits of an integrated circuit (IC). The method identifies a second physical design solution for positioning the configurable operations on the configurable circuits. One of the identified physical design solutions has one reconfigurable circuit perform a particular configurable operation in at least two reconfiguration cycles while the other identified solution does not have one reconfigurable circuit perform the particular configurable operation in two reconfiguration cycles. The method costs the first and second physical design solutions. The method selects one of the two physical design solutions based on the costs. | 10-23-2014 |
20140320165 | Runtime Loading of Configuration Data In A Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (IC) that has several configurable circuits for configurably performing different operations. During the operation of the IC, each particular configurable circuit performs a particular operation that is specified by a particular configuration data set for the particular configurable circuit. While the IC operates and a first set of configurable circuits performs a first set of operations, configuration data is loaded from the outside of the IC for configuring a second set of configurable circuits. In some embodiments, the configurable IC includes a configuration network for rapid loading configuration data in the IC from outside of the IC. In some of these embodiments, the configuration network is a pipelined network. Also, the IC of some embodiments includes a configuration controller for retrieving configuration data from outside of the IC, formulating configuration data sets, and routing the configuration data sets to the second set of configurable circuits over the configuration network. | 10-30-2014 |
20140333345 | Configurable Storage Elements - Some embodiments provide a configurable integrated circuit (IC) having a routing fabric that includes configurable storage element in its routing fabric. In some embodiments, the configurable storage element includes a parallel distributed path for configurably providing a pair of transparent storage elements. The pair of configurable storage elements can configurably act either as non-transparent (i.e., clocked) storage elements or transparent configurable storage elements. In some embodiments, the configurable storage element in the routing fabric performs both routing and storage operations by a parallel distributed path that includes a clocked storage element and a bypass connection. In some embodiments, the configurable storage element perform both routing and storage operations by a pair of master-slave latches but without a bypass connection. The routing fabric in some embodiments supports the borrowing of time from one clock cycle to another clock cycle by using the configurable storage element that can be configure to perform both routing and storage operations in different clock cycles. In some embodiments, the routing fabric provide a low power configurable storage element that includes multiple storage elements that operates at different phases of a slower running clock. | 11-13-2014 |
20140337660 | Trigger Circuits and Event Counters for an IC - Some embodiments provide an integrated circuit (“IC”). The IC includes multiple configurable circuits that configurably perform operations of a user design based on configuration data. The IC also includes a configurable trigger circuit that receives a set of configuration data that specifies an operational event. The configurable trigger circuit also determines whether the operational event has occurred during implementation of the user design of the IC. Additionally, the operational trigger event outputs a trigger signal upon determining that the operational trigger event has occurred. | 11-13-2014 |
20140372961 | System and Method for Using Fabric-Graph Flow to Determine Resource Costs - A system and method of determining paths of components when placing and routing configurable circuits. The method identifies a probabilistic data flow through multiple components using a simplified connection matrix. The simplified connection matrix is used to determine a probabilistic data flow through the components without data flowing from any component to itself. The probabilistic data flow is used to determine a probabilistic data flow through the components with some of the components having data flowing from themselves back to themselves. The probabilistic data flow through each component and the number of inputs of the components are used to determine a cost for each component. The cost of a path through the circuit is determined from the costs of the individual components in the path. The costs of the components are used to determine which path of components to use. | 12-18-2014 |
20150040094 | SEQUENTIAL DELAY ANALYSIS BY PLACEMENT ENGINES - Some embodiments provide a method of designing an integrated circuit (IC). The design is expressed as a graph that includes several nodes that represent several IC components. The nodes include a first set of nodes that represent a set of clocked elements. The method creates a second set of nodes by removing all nodes in the first set from the nodes that represent the IC components. The method identifies a set of edges that connect two nodes in the second set without encompassing a third node in the second set. The method assigns an event time to each node in the second set. The method assigns a cost function based on the event times of the nodes connected by each edge and the number of nodes in the first set encompassed by each edge. The method optimizes the cost function and places the components based on the cost function optimization. | 02-05-2015 |
20150077158 | Configurable IC Having a Routing Fabric with Storage Elements - Some embodiments provide a configurable IC that includes a configurable routing fabric with storage elements. In some embodiments, the routing fabric provides a communication pathway that routes signals to and from source and destination components. The routing fabric of some embodiments provides the ability to selectively store the signals passing through the routing fabric within the storage elements of the routing fabric. In this manner, a source or destination component continually performs operations (e.g., computational or routing) irrespective of whether a previous signal from or to such a component is stored within the routing fabric. The source and destination components include configurable logic circuits, configurable interconnect circuits, and various other circuits that receive or distribute signals throughout the configurable IC. | 03-19-2015 |
20150082261 | Method and Apparatus for Decomposing Functions in a Configurable IC - Some embodiments of the invention provide a configurable integrated circuit (“IC”). The configurable IC includes a set of multiplexers that each has a set of input terminals, a set of output terminals, and a set of select terminals. The set of multiplexers includes a group of multiplexers, where at least one input terminal of each multiplexer in the group is a permanently inverting input terminal. During at least a set of cycles during the operation of the configurable IC, several multiplexers in the group of multiplexers are used to implement a particular function. | 03-19-2015 |