摘要:
A method for initializing a chain of non-initialized data collectors is disclosed. The chain of non-initialized data collectors are coupled to a controller. In a first step communication between the controller and each data collector in the chain of non-initialized collectors is disabled, except for an active non-initialized data collector, The active non-initialized collector is coupled to the controller and any remaining non-initialized data collectors. Next, the active non-initialized data collector is initialized by assigning an identification number to the active non-initialized data collectors. The active non-initialized collector becomes an initialized data collector. Then, communication is restored between the initialized data collector and a next active non-initialized data collector in the chain of non-initialized data collectors. The method repeats until all non-initialized data collectors are initialized.
摘要:
A communication network is provided. The network includes a least one switch and a plurality of ports. Each port is in communication with the at least one switch. At least one of the ports is configured to introduce a time delay after each transmission of a frame based at least in part on a maximum transmission rate of the at least one port and its allocated transmission rate.
摘要:
A communication network is provided. The network includes a least one switch and a plurality of ports. Each port is in communication with the at least one switch. At least one of the ports is configured to introduce a time delay after each transmission of a frame based at least in part on a maximum transmission rate of the at least one port and its allocated transmission rate.
摘要:
Systems and methods for bounded minimal latency for network resources without synchronization are provided. In one embodiment, a method for managing data traffic between nodes in an asynchronous network comprises: receiving a data request message at a first port of network switch; storing information about the data request message in a memory at the network switch; forwarding the data request message to a producer node; receiving a data message at a second port of the network switch; determining whether the data message is responsive to the data request message; when the data message is responsive, forwarding the data message from the network switch; and when the data message is not responsive, blocking the data message from being forwarded from the network.
摘要:
Systems and methods for bounded minimal latency for network resources without synchronization are provided. In one embodiment, a method for managing data traffic between nodes in an asynchronous network comprises: receiving a data request message at a first port of network switch; storing information about the data request message in a memory at the network switch; forwarding the data request message to a producer node; receiving a data message at a second port of the network switch; determining whether the data message is responsive to the data request message; when the data message is responsive, forwarding the data message from the network switch; and when the data message is not responsive, blocking the data message from being forwarded from the network.
摘要:
The present invention is a quick connect receiver adapter assembly for an automatic or semi-automatic rifle, specifically the AR-15 assault rifle. The adapter system is used to quickly exchange barrels on an AR-15 rifle platform, and allows the user to convert the AR-15 from a single caliber weapon to a multi-caliber weapon. The system has a receiver attached portion comprising a three piece locking ring assembly, and separate barrel adapter assembly which can be attached to any caliber barrel suitable for use with the AR-15 assault rifle.
摘要:
Systems and methods for improved multiple-port memory are provided. In one embodiment, a processing system comprises: at least one processing core; a peripheral bus; and a memory for storing digital data, the memory divided into a first and a second partition of memory segments. The memory includes a first port coupled to the peripheral bus providing read access and write access only to the first partition, wherein the first partition stores peripheral data associated with one or more peripheral components coupled to the peripheral bus; a second port coupled to the at least one processor providing read-only access to only the second partition, wherein the second partition stores executable code for the at least one processing core; and a third port coupled to the at least one processor providing read access and write access to the entire first partition and the second partition.
摘要:
A method for refreshing memory is provided. The method comprises determining when a first memory of a plurality of memories is not being accessed and sending a refresh opportunity command from a master refresh controller to one of a plurality of local refresh controllers when the first memory is not being accessed, wherein the one of a plurality of local refresh controllers controls only the first memory. The method further comprises determining when the first memory needs refreshing and refreshing the first memory.
摘要:
A self-checking network is provided, comprising a first command processor configured to execute a performance function and a second command processor configured to execute the performance function, coupled to the first command processor. The self-checking network also comprises a first monitor processor configured to execute a monitor function that is coupled to the first command processor and a second monitor processor configured to execute the monitor function that is coupled to the second command processor. The first and second command processors compare outputs, the first and second monitor processors compare outputs, and the first monitor processor determines whether an output of the first command processor exceeds a first selected limit.
摘要:
Methods and apparatus are provided for verifying the integrity of a signal transmitted across a multiple rail data bus. The method and apparatus provide for independently processing a signal by a first processor and a second processor, the first and second processors being connected in parallel thereby generating a first processed signal and a second processed signal. Each of the processed signals is split into a first component sequence and a second component sequence, the first component sequences being different from the second component sequences. It is then determined that the first component sequences are not identical and that the second component sequences are not identical. If either of the first component sequences is not identical, or if either of the second component sequences is not identical, then an error signal is transmitted to a receiving device via a first or second rail of the bus.