IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0697085
(2010-01-29)
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등록번호 |
US-8788714
(2014-07-22)
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발명자
/ 주소 |
- Anugu, Ram Mohan
- Hamers, Adrianus Cornelis Maria
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출원인 / 주소 |
- Honeywell International Inc.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
A system includes multiple processing devices. Each processing device is configured to receive first and second status flags from first and second neighboring processing devices, respectively. Each status flag identifies whether one or more of the processing devices are ready for operation. Each pro
A system includes multiple processing devices. Each processing device is configured to receive first and second status flags from first and second neighboring processing devices, respectively. Each status flag identifies whether one or more of the processing devices are ready for operation. Each processing device is also configured to determine that all processing devices are ready for operation using the status flags. Each processing device is further configured to wait for a specified amount of time before entering operation. The specified amount of time is selected so that the processing devices are substantially synchronized. The processing devices could be coupled together in a ring configuration, the first neighboring processing device could include a right neighboring processing device in the ring configuration, and the second neighboring processing device could include a left neighboring processing device in the ring configuration.
대표청구항
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1. A system comprising: an industrial process controller configured to control at least a portion of an industrial process;wherein the industrial process controller comprises multiple processing devices, each processing device configured to: receive first and second status flags from first and secon
1. A system comprising: an industrial process controller configured to control at least a portion of an industrial process;wherein the industrial process controller comprises multiple processing devices, each processing device configured to: receive first and second status flags from first and second neighboring processing devices, respectively, each status flag identifying whether one or more of the processing devices are ready for operation;determine that all processing devices are ready for operation using the status flags; andwait for a specified amount of time before entering operation, the specified amount of time selected so that the processing devices are substantially synchronized; andwherein the processing devices as substantially synchronized are configured to execute common control logic, receive common measurements of the industrial process, and generate control signals for controlling one or more common characteristics of the industrial process. 2. The system of claim 1, wherein: the processing devices are coupled together in a ring configuration;the first neighboring processing device comprises a right neighboring processing device in the ring configuration; andthe second neighboring processing device comprises a left neighboring processing device in the ring configuration. 3. The system of claim 2, wherein: the first status flag identifies a status of the right neighboring processing device and optionally a status of one or more processing devices on a right of the right neighboring processing device; andthe second status flag identifies a status of the left neighboring processing device and optionally a status of one or more processing devices on a left of the left neighboring processing device. 4. The system of claim 3, wherein: a number of processing devices in the ring configuration is equal to N; andeach processing device is configured to determine whether all processing devices are ready for operation by determining whether at least one of the status flags indicates that N−1 processing devices are ready for operation. 5. The system of claim 1, wherein each processing device is configured to determine whether all processing devices are ready for operation by: constructing an index value using the status flags; andaccessing an entry in a look-up table using the index value, the entry defining whether all processing devices are ready for operation. 6. The system of claim 5, wherein: each processing device is configured to maintain a link status identifying a state of logical communication links to other processing devices; andeach processing device is configured to construct the index value using the status flags and the link status. 7. The system of claim 1, wherein: each processing device is configured to perform the receiving, determining, and waiting operations during each of multiple iterations of a synchronization process;each processing device is configured to maintain a link status identifying a state of logical communication links to other processing devices; andeach processing device is configured to update the link status during one iteration of the synchronization process to identify one or more additional processing devices such that, during a subsequent iteration of the synchronization process, the one or more additional processing devices are synchronized. 8. The system of claim 1, wherein: each processing device is configured to perform the receiving, determining, and waiting operations during each of multiple iterations of a synchronization process;the synchronization process is associated with a timer defining a length of each iteration;each processing device is configured to maintain a link status identifying a state of logical communication links to other processing devices; andwhen the timer expires prior to the processing devices determining that all processing devices are ready for operation during one iteration, each processing device is configured to update the processing device's link status to exclude one or more processing devices from a subsequent iteration of the synchronization process. 9. The system of claim 1, wherein: a first of the processing devices to determine that all processing devices are ready for operation waits for a longest specified amount of time before entering operation; anda last of the processing devices to determine that all processing devices are ready for operation waits for a shortest specified amount of time before entering operation. 10. The system of claim 1, wherein all of the processing devices are configured to execute common instructions synchronously. 11. The system of claim 10, wherein all of the processing devices are configured to read data from and write data to common field devices synchronously in the industrial process. 12. A method comprising: substantially synchronizing multiple processing devices, including: receiving, at a first of the processing devices, status flags from at least one other of the processing devices, each status flag identifying whether one or more of the processing devices are ready for operation;determining that all processing devices are ready for operation using at least one of the status flags; andwaiting for a specified amount of time before entering operation, the specified amount of time selected so that the processing devices are substantially synchronized; andcontrolling at least a portion of an industrial process using the processing devices as substantially synchronized, wherein the processing devices as substantially synchronized execute common control logic, receive common measurements of the industrial process, and generate control signals for controlling one or more common characteristics of the industrial process. 13. The method of claim 12, wherein: the at least one other processing device comprises a right neighboring processing device and a left neighboring processing device; andthe status flags comprise: a first status flag identifying a status of the right neighboring processing device and optionally a status of one or more processing devices on a right of the right neighboring processing device; anda second status flag identifying a status of the left neighboring processing device and optionally a status of one or more processing devices on a left of the left neighboring processing device. 14. The method of claim 13, wherein: a number of processing devices in a ring configuration is equal to N; anddetermining that all processing devices are ready for operation comprises determining that at least one of the status flags indicates that N−1 processing devices are ready for operation. 15. The method of claim 13, further comprising: maintaining a link status identifying a state of logical communication links between the first processing device and the at least one other processing device;wherein determining that all processing devices are ready for operation comprises: constructing an index value using the status flags and the link status; andaccessing an entry in a look-up table using the index value, the entry defining whether all processing devices are ready for operation. 16. The method of claim 15, wherein: the first status flag comprises one of multiple first unique values;the second status flag comprises one of multiple second unique values; andthe first and second unique values are selected such that a unique index value into the look-up table is constructed using the first unique value in the first status flag, the second unique value in the second status flag, and the link status. 17. The method of claim 12, wherein: the receiving, determining, and waiting steps are performed during each of multiple iterations of a synchronization process; andthe method further comprises: maintaining a link status identifying a state of logical communication links between the first processing device and the at least one other processing device; andupdating the link status during one iteration of the synchronization process to identify one or more additional processing devices such that, during a subsequent iteration of the synchronization process, the one or more additional processing devices are synchronized. 18. The method of claim 12, wherein: the receiving, determining, and waiting steps are performed during each of multiple iterations of a synchronization process;the synchronization process is associated with a timer defining a length of each iteration; andthe method further comprises: maintaining a link status identifying a state of logical communication links between the first processing device and the at least one other processing device; andwhen the timer expires prior to determining that all processing devices are ready for operation during one iteration, updating the link status to exclude one or more processing devices from a subsequent iteration of the synchronization process. 19. A non-transitory computer readable medium embodying a computer program, the computer program comprising computer readable program code for: substantially synchronizing multiple processing devices, including: receiving, at a first of the processing devices, status flags from at least one other of the processing devices, each status flag identifying whether one or more of the processing devices are ready for operation;determining that all processing devices are ready for operation using at least one of the status flags; andwaiting for a specified amount of time before entering operation, the specified amount of time selected so that the processing devices are substantially synchronized; andcontrolling at least a portion of an industrial process using the processing devices as substantially synchronized;wherein the processing devices as substantially synchronized execute common control logic, receive common measurements of the industrial process, and generate control signals for controlling one or more common characteristics of the industrial process. 20. The non-transitory computer readable medium of claim 19, wherein: the at least one other processing device comprises a right neighboring processing device in a ring configuration and a left neighboring processing device in the ring configuration;a number of processing devices in the ring configuration is equal to N;the status flags comprise: a first status flag identifying a status of the right neighboring processing device and optionally a status of one or more processing devices on a right of the right neighboring processing device;a second status flag identifying a status of the left neighboring processing device and optionally a status of one or more processing devices on a left of the left neighboring processing device; andthe computer readable program code for determining that all processing devices are ready for operation comprises computer readable program code for determining whether at least one of the status flags indicates that N−1 processing devices are ready for operation. 21. The non-transitory computer readable medium of claim 19, further comprising: computer readable program code for maintaining a link status identifying a state of logical communication links between the first processing device and the at least one other processing device;wherein the computer readable program code for determining that all processing devices are ready for operation comprises computer readable program code for: constructing an index value using the status flags and the link status; andaccessing an entry in a look-up table using the index value, the entry defining whether all processing devices are ready for operation. 22. The non-transitory computer readable medium of claim 19, wherein: the receiving, determining, and waiting operations are performed during each of multiple iterations of a synchronization process;the synchronization process is associated with a timer defining a length of each iteration; andthe computer readable medium further comprises computer readable program code for: maintaining a link status identifying a state of logical communication links between the first processing device and the at least one other processing device;updating the link status during one of the iterations to identify one or more additional processing devices such that, during a first subsequent iteration of the synchronization process, the one or more additional processing devices are synchronized; andwhen the timer expires prior to determining that all processing devices are ready for operation during another of the iterations, updating the link status to exclude one or more processing devices from a second subsequent iteration of the synchronization process.
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