A communications network and method for operating the communications network that includes ring devices that are networked to one another in a ring topology, where the ring devices participate in a ring redundancy process in which an administrating ring device regularly sends test packets over the communications network, which received in sequence by other ring devices and successively forwarded by these devices back to the administrating ring device so as to detect faults in the communications network, where a transmission delay of a test packet along the ring topology because of interfering packets within the ring topology is prevented by synchronizing the ring devices and processing at least parts of a data traffic schedule in accordance with the 802.1Qbv standard in the ring redundancy process applied, and where transmission of the test packets is scheduled and controlled such that the packets are forwarded to the ring devices substantially without delay.

A communications network and method for operating the communications network that includes ring devices that are networked to one another in a ring topology, where the ring devices participate in a ring redundancy process in which an administrating ring device regularly sends test packets over the communications network, which received in sequence by other ring devices and successively forwarded by these devices back to the administrating ring device so as to detect faults in the communications network, where a transmission delay of a test packet along the ring topology because of interfering packets within the ring topology is prevented by synchronizing the ring devices and processing at least parts of a data traffic schedule in accordance with the 802.1Qbv standard in the ring redundancy process applied, and where transmission of the test packets is scheduled and controlled such that the packets are forwarded to the ring devices substantially without delay.

A memory system includes a printed circuit board, at least one memory chip mounted on the printed circuit board, and a memory controller arranged on the printed circuit board and connected to 2.sup.N (where N is an integer of 2 or more) channels, the memory controller configured to perform a write operation and a read operation on the at least one memory chip. In the printed circuit board, a first subset of the channels corresponds to a first channel group configured in a point to point topology, and a remaining subset of the channels corresponds to a second channel group configured in a daisy chain topology.

A memory system includes a printed circuit board, at least one memory chip mounted on the printed circuit board, and a memory controller arranged on the printed circuit board and connected to 2.sup.N (where N is an integer of 2 or more) channels, the memory controller configured to perform a write operation and a read operation on the at least one memory chip. In the printed circuit board, a first subset of the channels corresponds to a first channel group configured in a point to point topology, and a remaining subset of the channels corresponds to a second channel group configured in a daisy chain topology.

Methods, devices, and systems are provided to reduce instances of accidents along a path and mitigate accidents that occur. Upon detecting an incident, the traffic system can be controlled to operate in a partially-adapted state providing safer recovery from the occurrence of one or more incidents along a path. The partially-adapted state of the traffic system may provide routing of certain vehicular traffic away from detected turbulence or incident while routing other vehicular traffic toward the detected turbulence or incident. The methods and systems provided herein may determine to move an incident from a particular area, or point, along a path to a different zone to control the negative effect on traffic flow and/or reduce the likelihood of secondary incidents or harm from occurring at, or near, the point of the incident.

Methods, devices, and systems are provided to reduce instances of accidents along a path and mitigate accidents that occur. Upon detecting an incident, the traffic system can be controlled to operate in a partially-adapted state providing safer recovery from the occurrence of one or more incidents along a path. The partially-adapted state of the traffic system may provide routing of certain vehicular traffic away from detected turbulence or incident while routing other vehicular traffic toward the detected turbulence or incident. The methods and systems provided herein may determine to move an incident from a particular area, or point, along a path to a different zone to control the negative effect on traffic flow and/or reduce the likelihood of secondary incidents or harm from occurring at, or near, the point of the incident.

The present disclosure relates to a service sending method and apparatus, and a service receiving method and apparatus. One example service sending method includes obtaining, by a network device, a first data stream and a second data stream, and inserting the first data stream into the second data stream to generate a third data stream. The third data stream includes a first information block and a second information block, the first information block is used to carry the first data stream, the second information block is used to carry a first data stream distribution indication map, the first data stream distribution indication map is used to indicate a location of the first information block, and the second information block is identified by using a preset map block type.

A time slot management method for use in a time division multiple access system that couples a line terminator via a tree-like network to a plurality of network terminations is provided. At least one grant is transmitted by the line terminator towards a network terminator in order to allocate at least one adjacent subsequent corresponding upstream time-slot to the network terminator. The grant is received by the network terminator from the line terminator, and it is recognized if the at least one grant is associated with the network termination. Upon recognition of the at least one grant being associated with the network termination by the network terminator, overhead data in the first time slot of the at least one time slot and payload data in each potential adjacent subsequent time slot of at least one time-slot allocated to said network terminator is transmitted.

An integrated circuit is described. The integrated circuit comprises an analog-to-digital converter circuit configured to receive an input signal at an input and generate an output signal at an output; and a monitor circuit coupled to the output of the analog-to-digital converter circuit, the monitor circuit configured to receive the output signal and to generate integration coefficients for the analog-to-digital converter circuit; wherein the integration coefficients are dynamically generated based upon signal characteristics of the output signal generated by the analog-to-digital converter circuit. A method of receiving data in an integrated circuit is also described.

A memory system includes a printed circuit board, at least one memory chip mounted on the printed circuit board, and a memory controller arranged on the printed circuit board and connected to 2.sup.N (where N is an integer of 2 or more) channels, the memory controller configured to perform a write operation and a read operation on the at least one memory chip. In the printed circuit board, a first subset of the channels corresponds to a first channel group configured in a point to point topology, and a remaining subset of the channels corresponds to a second channel group configured in a daisy chain topology.