IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0768933
(2010-04-28)
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등록번호 |
US-8219960
(2012-07-10)
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발명자
/ 주소 |
- Neuendorffer, Stephen A.
- Patel, Parimal
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
23 |
초록
▼
A method for configuring programmable logic in an IC to implement instances of a relocatable circuit includes, for each instance, assigning a respective portion of an address space of a processor to the instance, configuring a respective interface circuit for translating the transactions accessing t
A method for configuring programmable logic in an IC to implement instances of a relocatable circuit includes, for each instance, assigning a respective portion of an address space of a processor to the instance, configuring a respective interface circuit for translating the transactions accessing the respective portion of the address space into a fixed address space of the relocatable circuit, and selecting a respective region within an array of programmable logic and interconnect resources of the IC. The processor accesses the address space with read and write transactions issued on an interface bus. The relocatable circuit is independent of the address space assigned to the instances. Each region is configurable to implement an instance. The programmable logic and interconnect resources are configured to implement the instances and to couple each instance to the interface bus of the processor via the respective interface circuit, using a single copy of configuration data for the relocatable circuit.
대표청구항
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1. A method for configuring at least one portion of programmable logic in an integrated circuit device to implement a plurality of instances of a relocatable circuit, comprising: for each of the instances of the relocatable circuit, assigning a respective portion of an address space of a processor t
1. A method for configuring at least one portion of programmable logic in an integrated circuit device to implement a plurality of instances of a relocatable circuit, comprising: for each of the instances of the relocatable circuit, assigning a respective portion of an address space of a processor to the instance of the relocatable circuit, wherein the processor accesses the address space with read and write transactions issued on an interface bus;for each of the instances of the relocatable circuit, configuring a respective interface circuit for translating the transactions accessing the respective portion of the address space into a fixed address space of the relocatable circuit:wherein the relocatable circuit is independent of the respective portions of the address space assigned to the instances of the relocatable circuit;for each of the instances of the relocatable circuit, selecting a respective one of a plurality of regions within an array of programmable logic and interconnect resources of the integrated circuit device;wherein each region is configurable to implement an instance of the relocatable circuit; andconfiguring the programmable logic and interconnect resources to implement the instances of the relocatable circuit and to couple each of the instances to the interface bus of the processor via the respective interface circuit;wherein the configuring includes the processor configuring the programmable logic and interconnect resources in the respective regions to implement the instances from a single copy of configuration data for implementing the relocatable circuit. 2. The method of claim 1, wherein: the configuring of the respective interface circuit for each of the instances of the relocatable circuit includes the processor writing a base register of the respective interface circuit with a value specifying whether an address of each transaction is included in the respective portion of the address space assigned to the instance in response to the address having a more significant part that matches the value; andthe relocatable circuit has the fixed address space that corresponds to a less significant part of the address in response to the more significant part matching the value. 3. The method of claim 1, wherein the configuring of the respective interface circuit for each of the instances of the relocatable circuit includes: specifying a base address of the instance in a specification of the respective interface circuit in a hardware description language;synthesizing the specification into configuration data; andconfiguring the programmable logic and interconnect resources of the integrated circuit device with the configuration data to implement the respective interface circuit. 4. The method of claim 1, wherein the configuring of the programmable logic and interconnect resources includes, for each of the instances of the relocatable circuit: the processor generating a configuration bitstream from the single copy of the configuration data and at least one configuration address of the respective region within the array of programmable logic and interconnect resources of the integrated circuit device; andthe processor configuring the programmable logic and interconnect resources in the respective region to implement the instance with the configuration bitstream. 5. The method of claim 1, further comprising synthesizing a specification of the relocatable circuit in a hardware description language only once for creating the single copy of the configuration data for all of the instances of the relocatable circuit. 6. The method of claim 1, further comprising: the processor controlling an enable signal to inactivate a plurality of interface signals driven from the respective interface circuits to the interface bus before the configuring of the programmable logic and interconnect resources;the processor controlling a reset signal to reset the instances of the relocatable circuit after the configuring of the programmable logic and interconnect resources; andthe processor controlling the enable signal to reactivate the interface signals after the reset of the instances of the relocatable circuit. 7. A system, comprising: an interface bus;an integrated circuit device coupled to the interface bus; anda processor coupled to the interface bus,wherein the processor is coupled to: for each of a plurality of instances of a relocatable circuit, assign a respective portion of an address space of the processor to the instance of the relocatable circuit, wherein the processor accesses the address space with read and write transactions issued on the interface bus;for each of the instances of the relocatable circuit, configure a respective interface circuit for translating the read and write transactions accessing the respective portion of the address space into a fixed address space of the relocatable circuit;wherein the relocatable circuit is independent of the respective portions of the address space assigned to the instances of the relocatable circuit;for each of the instances of the relocatable circuit, select a respective one of a plurality of regions within an array of programmable logic and interconnect resources of the integrated circuit device;wherein each region is configurable to implement an instance of the relocatable circuit; andconfigure the programmable logic and interconnect resources to implement the instances of the relocatable circuit and to couple each of the instances to the interface bus via the respective interface circuit;wherein the configuring includes the processor configuring the programmable logic and interconnect resources in the respective regions to implement the instances from a single copy of configuration data for implementing the relocatable circuit. 8. The system of claim 7, wherein: the processor being coupled to configure the respective interface circuit for each of the instances of the relocatable circuit includes the processor being coupled to write a base register of the respective interface circuit with a value specifying whether an address of each transaction is included in the respective portion of the address space assigned to the instance in response to the address having a more significant part that matches the value; andthe relocatable circuit has the fixed address space that corresponds to a less significant part of the address in response to the more significant part matching the value. 9. The system of claim 7, wherein the processor being coupled to configure the respective interface circuit for each of the instances of the relocatable circuit includes the processor being coupled to: specify a base address of the instance in a specification of the respective interface circuit in a hardware description language;synthesize the specification into configuration data; andconfigure the programmable logic and interconnect resources of the integrated circuit device with the configuration data to implement the respective interface circuit. 10. The system of claim 7, wherein the processor being coupled to configure the programmable logic and interconnect resources includes, for each of the instances of the relocatable circuit, the processor being coupled to: generate a configuration bitstream from the single copy of the configuration data and at least one configuration address of the respective region within the array of programmable logic and interconnect resources of the integrated circuit device; andconfigure the programmable logic and interconnect resources in the respective region to implement the instance with the configuration bitstream. 11. The system of claim 7, wherein the single copy of configuration data for implementing the relocatable circuit is created by synthesizing a specification of the relocatable circuit in a hardware description language only once for all of the instances of the relocatable circuit. 12. The system of claim 7, wherein the processor is further coupled to: control an enable signal to inactivate a plurality of interface signals driven from the respective interface circuits to the interface bus before the configuring of the programmable logic and interconnect resources;control a reset signal to reset the instances of the relocatable circuit after the configuring of the programmable logic and interconnect resources; andcontrol the enable signal to reactivate the interface signals after the reset of the instances of the relocatable circuit. 13. A system, comprising: an interface bus;an integrated circuit device coupled to the interface bus, the integrated circuit device comprising programmable logic;a processor coupled to the interface bus; anda processor-readable device coupled to the processor, the processor-readable device storing instructions causing the processor to perform operations including: for each of a plurality of instances of a relocatable circuit, assigning a respective portion of an address space of the processor to the instance of the relocatable circuit, wherein the processor accesses the address space with read and write transactions issued on the interface bus;for each of the instances of the relocatable circuit, configuring a respective interface circuit for translating the read and write transactions accessing the respective portion of the address space into a fixed address space of the relocatable circuit;wherein the relocatable circuit is independent of the respective portions of the address space assigned to the instances of the relocatable circuit;for each of the instances of the relocatable circuit, selecting a respective one of a plurality of regions within an array of programmable logic and interconnect resources of the integrated circuit device;wherein each region is configurable to implement an instance of the relocatable circuit; andconfiguring the programmable logic and interconnect resources to implement the instances of the relocatable circuit and to couple each of the instances to the interface bus via the respective interface circuit;wherein the configuring includes the processor configuring the programmable logic and interconnect resources in the respective regions to implement the instances from a single copy of configuration data for implementing the relocatable circuit. 14. The system of claim 13, wherein the processor-readable device further comprises the single copy of configuration data for implementing the relocatable circuit. 15. The system of claim 13, wherein: the operation of configuring the respective interface circuit for each of the instances of the relocatable circuit includes the processor writing a base register of the respective interface circuit with a value specifying whether an address of each transaction is included in the respective portion of the address space assigned to the instance in response to the address having a more significant part that matches the value; andthe relocatable circuit has the fixed address space that corresponds to a less significant part of the address in response to the more significant part matching the value. 16. The system of claim 13, wherein the operation of configuring the respective interface circuit for each of the instances of the relocatable circuit includes: specifying a base address of the instance in a specification of the respective interface circuit in a hardware description language;synthesizing the specification into configuration data; andconfiguring the programmable logic and interconnect resources of the integrated circuit device with the configuration data to implement the respective interface circuit. 17. The system of claim 13, wherein the operation of configuring the programmable logic and interconnect resources includes, for each of the instances of the relocatable circuit: generating a configuration bitstream from the single copy of the configuration data and at least one configuration address of the respective region within the array of programmable logic and interconnect resources of the integrated circuit device; andconfiguring the programmable logic and interconnect resources in the respective region to implement the instance with the configuration bitstream. 18. The system of claim 13, wherein the operations further comprise synthesizing a specification of the relocatable circuit in a hardware description language only once for creating the single copy of the configuration data for all of the instances of the relocatable circuit. 19. The system of claim 13, wherein the operations further comprise: controlling an enable signal to inactivate a plurality of interface signals driven from the respective interface circuits to the interface bus before the configuring of the programmable logic and interconnect resources;controlling a reset signal to reset the instances of the relocatable circuit after the configuring of the programmable logic and interconnect resources; andcontrolling the enable signal to reactivate the interface signals after the reset of the instances of the relocatable circuit.
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