Abstract: Multiple independent point-to-point memory channels are operated, by at least one controller, in parallel to form a wider memory channel. The memory components on these point-to-point channels include the ability to connect to multiple (e.g., 2) instances of these independent memory channels. The controller operates multiple instances of the wider channels with the memory components configured in a clamshell mode. A single memory component is also operated in clamshell mode to provide error correction code information, independently of the other wider channels, to multiple instances of the wider memory channel.

Abstract: Multiple independent point-to-point memory channels are operated, by at least one controller, in parallel to form a wider memory channel. The memory components on these point-to-point channels include the ability to connect to multiple (e.g., 2) instances of these independent memory channels. The controller operates multiple instances of the wider channels with the memory components configured in a clamshell mode. A single memory component is also operated in clamshell mode to provide error correction code information, independently of the other wider channels, to multiple instances of the wider memory channel.

Abstract: Periodic signal timing calibration is implemented in time-distributed fragments executed concurrently with occasional system-idling maintenance operations to maintain reliable synchronous communication between interconnected system components without impacting system availability.

Abstract: Multiple independent point-to-point memory channels are operated, by at least one controller, in parallel to form a wider memory channel. The memory components on these point-to-point channels include the ability to connect to multiple (e.g., 2) instances of these independent memory channels. The controller operates multiple instances of the wider channels with the memory components configured in a clamshell mode. A single memory component is also operated in clamshell mode to provide error correction code information, independently of the other wider channels, to multiple instances of the wider memory channel.

Abstract: Periodic signal timing calibration is implemented in time-distributed fragments executed concurrently with occasional system-idling maintenance operations to maintain reliable synchronous communication between interconnected system components without impacting system availability.

Abstract: A command/address (CA) interface of a memory controller coupled to a memory component is trained (e.g., voltages and timings are adjusted to maximize signal eye opening, sample timing margins etc.) while the CA interface is operated at highest known supported controller PHY frequency. After the CA interface has been trained at highest known supported controller PHY frequency, vendor specific information (e.g., vendor ID number, clock configuration, VDDQ configuration, etc.) is read from the memory component. If the vendor specific information indicates that the CA interface may be operated at a different (e.g., higher) frequency, the memory controller reconfigures its physical interface to operate at the indicated frequency. The memory controller then re-trains its CA interface while operating the CA interface at the indicated frequency.

Abstract: Multiple independent point-to-point memory channels are operated, by at least one controller, in parallel to form a wider memory channel. The memory components on these point-to-point channels include the ability to connect to multiple (e.g., 2) instances of these independent memory channels. The controller operates multiple instances of the wider channels with the memory components configured in a clamshell mode. A single memory component is also operated in clamshell mode to provide error correction code information, independently of the other wider channels, to multiple instances of the wider memory channel.