A processing system of a storage network operates by: receiving a write request to store a data object; selecting a selected memory type of a plurality of memory types to store the data object, based on object parameters associated with the data object; selecting a selected memory to store the data object, the selected memory having the selected memory type of the plurality of memory types; and facilitating storage of the data object in the selected memory having the selected memory type of the plurality of memory types, wherein the data object is dispersed error encoded and stored as a plurality of encoded data slices.

A method includes receiving a write request to store a data object; identifying object parameters associated with the data object; selecting a memory type based on the identified object parameters; selecting a selected memory based on the memory type; and facilitating storage of the data object in the selected memory, wherein the data object is dispersed error encoded.

A processing system of a storage network operates by: receiving a write request to store a data object; selecting a selected memory type of a plurality of memory types to store the data object, based on object parameters associated with the data object; selecting a selected memory to store the data object, the selected memory having the selected memory type of the plurality of memory types; and facilitating storage of the data object in the selected memory having the selected memory type of the plurality of memory types, wherein the data object is dispersed error encoded and stored as a plurality of encoded data slices.

A method for execution by a processing system in dispersed storage and task network (DSTN) that includes a processor, includes: identifying a slice name of a slice in error of a set of slices stored in a set of dispersed storage (DS) units; identifying a number of slice errors of the set of slices; generating a queue entry that includes the slice name of the slice in error, a rebuilding task indicator, an identity of the set of slices, and the number of slice errors; identifying a rebuilding queue based on the number of slice errors, wherein the rebuilding queue is associated with one of: the set of DS units or another set of DS units; and facilitating storing the queue entry in the identified rebuilding queue.

An example method involves receiving, at a first memory node, data to be written at a memory location in the first memory node. The data is received from a device. At the first memory node, old data is read from the memory location, without sending the old data to the device. The data is written to the memory location. The data and the old data are sent from the first memory node to a second memory node to store parity information in the second memory node without the device determining the parity information. The parity information is based on the data stored in the first memory node.

A method begins with receiving an encoded data slice that has associated therewith a slice name that is representative of a dispersed storage network (DSN) logical address. The method continues with accessing a DSN address to memory device mapping based on the DSN logical address to identify a memory device of the storage unit. The method continues with retrieving a logical zone to physical address space mapping of the identified memory device. The method continues with determining information regarding the encoded data slice and a logical zone of the memory device from the logical zone to physical address space mapping based on the encoded data slice information. The method continues with generating a physical address within the identified logical zone for storing the encoded data slice. The method continues with storing the encoded data slice within the identified memory device at the physical address.

A processing system of a storage network operates by: selecting a queue memory type of a plurality of memory types to store a data object, based on a size parameter associated with the data object; storing the data object in a queue memory device having the queue memory type, when the queue memory type is selected; selecting a main memory type of a plurality of memory types to store the data object, when the queue memory type is not selected; and storing the data object in a main memory device having the main memory type, when the queue memory type is not selected; wherein the data object is dispersed error encoded and stored as a plurality of encoded data slices.

A method for execution by a processing system in dispersed storage and task network (DSTN) that includes a processor, includes: identifying a slice name of a slice in error of a set of slices stored in a set of dispersed storage (DS) units; identifying a number of slice errors of the set of slices; generating a queue entry that includes the slice name of the slice in error, a rebuilding task indicator, an identity of the set of slices, and the number of slice errors; identifying a rebuilding queue based on the number of slice errors, wherein the rebuilding queue is associated with one of: the set of DS units or another set of DS units; and facilitating storing the queue entry in the identified rebuilding queue.

A method for execution by a processing system in dispersed storage and task network (DSTN) that includes a processor, includes: identifying a slice name of a slice in error of a set of slices stored in a set of dispersed storage (DS) units; identifying a number of slice errors of the set of slices; generating a queue entry that includes the slice name of the slice in error, a rebuilding task indicator, an identity of the set of slices, and the number of slice errors; identifying a rebuilding queue based on the number of slice errors, wherein the rebuilding queue is associated with one of: the set of DS units or another set of DS units; and facilitating storing the queue entry in the identified rebuilding queue.

A method begins with receiving an encoded data slice that has associated therewith a slice name that is representative of a dispersed storage network (DSN) logical address. The method continues with accessing a DSN address to memory device mapping based on the DSN logical address to identify a memory device of the storage unit. The method continues with retrieving a logical zone to physical address space mapping of the identified memory device. The method continues with determining information regarding the encoded data slice and a logical zone of the memory device from the logical zone to physical address space mapping based on the encoded data slice information. The method continues with generating a physical address within the identified logical zone for storing the encoded data slice. The method continues with storing the encoded data slice within the identified memory device at the physical address.