Examples involve a control device using a social networking service to facilitate registration of a streaming media service with a media playback system. An example implementation receives (i) data indicating login credentials for a given account of a social networking service, and (ii) input data to configure streaming media services with a media playback system. Based on receiving the input data to configure the media playback system, the implementation queries the social networking service for streaming media services associated with the given account, and in response to the query, receives data indicating a first streaming media service associated with the given account. The implementation configures the media playback system to playback audio content from the first streaming media service that is associated with the given account and causes the media playback system to playback audio content from the first streaming media service.

Methods, apparatus, systems and articles of manufacture are disclosed for allocation in a victim cache system. An example apparatus includes a first cache storage, a second cache storage, a cache controller coupled to the first cache storage and the second cache storage and operable to receive a memory operation that specifies an address, determine, based on the address, that the memory operation evicts a first set of data from the first cache storage, determine that the first set of data is unmodified relative to an extended memory, and cause the first set of data to be stored in the second cache storage.

Methods, apparatus, systems and articles of manufacture are disclosed for allocation in a victim cache system. An example apparatus includes a first cache storage, a second cache storage, a cache controller coupled to the first cache storage and the second cache storage and operable to receive a memory operation that specifies an address, determine, based on the address, that the memory operation evicts a first set of data from the first cache storage, determine that the first set of data is unmodified relative to an extended memory, and cause the first set of data to be stored in the second cache storage.

The present disclosure provides a game server architecture. A gateway server can pull operation data of game servers and write the operation data into a load balancing cluster to balance load of the game servers, avoiding the crash of the game servers due to excessive load of a certain game server. A database cluster uses data identification segments to balance an amount of data by weight. When the amount of data generated by the game servers or a logic server group is too large, the database cluster can be dynamically expanded to meet storage requirements of the larger amount of data. In addition, when data in the database cluster and a consistent-hash-based cache server is accessed, the data is preferentially accessed from the consistent-hash-based cache server, to avoid a problem that each data access is done through the database, which causes a huge pressure on database IO.

The present disclosure provides a game server architecture. A gateway server can pull operation data of game servers and write the operation data into a load balancing cluster to balance load of the game servers, avoiding the crash of the game servers due to excessive load of a certain game server. A database cluster uses data identification segments to balance an amount of data by weight. When the amount of data generated by the game servers or a logic server group is too large, the database cluster can be dynamically expanded to meet storage requirements of the larger amount of data. In addition, when data in the database cluster and a consistent-hash-based cache server is accessed, the data is preferentially accessed from the consistent-hash-based cache server, to avoid a problem that each data access is done through the database, which causes a huge pressure on database IO.

A first read request for data stored at a non-volatile memory is received by a primary storage controller. The data is programmed from the non-volatile memory to a first cache of the primary storage controller, the first cache to store the data over a first time range. A second read request is received for the data. In response to receiving the second read request for the data, the data is programmed to a second cache to store the data over a second time range that is greater than the first time range. A notification is transmitted to a secondary storage controller, the notification including information associated with the programming of the data to the second cache.

A first read request for data stored at a non-volatile memory is received by a primary storage controller. The data is programmed from the non-volatile memory to a first cache of the primary storage controller, the first cache to store the data over a first time range. A second read request is received for the data. In response to receiving the second read request for the data, the data is programmed to a second cache to store the data over a second time range that is greater than the first time range. A notification is transmitted to a secondary storage controller, the notification including information associated with the programming of the data to the second cache.

A method includes transferring data out of a first buffer coupled to a first plane of a plurality of planes of a memory component, where the data was previously transferred from the first plane to the first buffer responsive to an access request to sense data stored in the plurality of planes of the memory component. The method further includes transferring, subsequent to transferring the data out of the first buffer and independently of a command from a processing device, data out of a second buffer coupled to a second plane of the plurality of planes of the memory component, where the data transferred out of the second buffer was previously transferred from the second plane to the second buffer responsive to the access request.

A method includes transferring data out of a first buffer coupled to a first plane of a plurality of planes of a memory component, where the data was previously transferred from the first plane to the first buffer responsive to an access request to sense data stored in the plurality of planes of the memory component. The method further includes transferring, subsequent to transferring the data out of the first buffer and independently of a command from a processing device, data out of a second buffer coupled to a second plane of the plurality of planes of the memory component, where the data transferred out of the second buffer was previously transferred from the second plane to the second buffer responsive to the access request.

A method is described, which includes receiving, by a memory subsystem, a memory command targeted at a memory array; determining, by the memory subsystem, if the memory command is a high priority memory command; and determining if the memory subsystem is processing any non-high priority memory commands. The memory subsystem enables a read page cache mode for processing the memory command in response to determining that (1) the memory command is a high priority memory command and (2) the memory subsystem is not processing any non-high priority memory commands Thereafter, the memory subsystem processes the memory command using the read page cache mode.