A storage system includes a plurality of storage media and a method of managing volumes of the storage system is applied thereto. The method includes receiving a volume management request and correlation information between the volumes, and allocating storage spaces of the storage media to the volumes based on the correlation information between the volumes. The correlation information indicates information of the volumes in which the allocated storage media are physically isolated from each other.

A data protection system and a data protection method for handling an errored command are provided. The data protection system includes a master device and a slave device. The master device is configured to send command. The slave device is coupled to the master device. The save device is configured to receive the command from the master device. The master device includes a master interface. The slave device includes a slave interface. The master interface and the slave interface are electrically connected via one or plurality of bonds and/or TSVs and configured for interfacing between the master device and the slave device. The errored command represents the command having a parity or other error. The slave device is further configured to receive the errored command and to respond the errored command according to read or write operation.

Methods, systems, and devices for error correction management are described. A system may include a memory device that supports internal detection and correction of corrupted data, and whether such detection and correction functionality is operating properly may be evaluated. A known error may be included (e.g., intentionally introduced) into either data stored at the memory device or an associated error correction codeword, among other options, and data or other indications subsequently generated by the memory device may be evaluated for correctness in view of the error. Thus, either the memory device or a host device coupled with the memory device, among other devices, may determine whether error detection and correction functionality internal to the memory device is operating properly.

A data protection system and a data protection method for handling an errored command are provided. The data protection system includes a master device and a slave device. The master device is configured to send command. The slave device is coupled to the master device. The save device is configured to receive the command from the master device. The master device includes a master interface. The slave device includes a slave interface. The master interface and the slave interface are electrically connected via one or plurality of bonds and/or TSVs and configured for interfacing between the master device and the slave device. The errored command represents the command having a parity or other error. The slave device is further configured to receive the errored command and to respond the errored command according to read or write operation.

Apparatuses and methods related to providing transaction metadata. Providing transaction metadata includes providing an address of data stored in the memory device using an address bus coupled to the memory device and the controller. Providing transaction metadata also includes transferring the data, associated with the address, from the memory device using a data bus coupled to the memory device and the controller. Providing transaction metadata further includes transferring a sideband signal synchronously with the data bus and in conjunction with the address bus using a transaction metadata bus coupled to the memory device and the controller.

A memory device, such as a MRAM device, includes a plurality of memory macros, where each includes an array of memory cells and a first ECC circuit configured to detect data errors in the respective memory macro. A second ECC circuit that is remote from the plurality of memory macros is communicatively coupled to each of the plurality of memory macros. The second ECC circuit is configured to receive the detected data errors from the first ECC circuits of the plurality of memory macros and correct the data errors.

Methods, systems, and devices for erroneous bit discovery in a memory system are described. A controller or memory controller, for example, may read a code word from a memory medium. The code word may include a set of bits that each correspond to a respective Minimum Substitution Region (MSR) of the memory medium. Each MSR may include a portion of memory cells of the memory medium and be associated with a counter to count a quantity of erroneous bits in each MSR. When the controller identifies a quantity of erroneous bits in the code word using an error control operation, the controller may update values of counters associated with respective MSRs that correspond to the quantity of erroneous bits to count erroneous bit counts for each MSR. In some cases, the controller may perform operations described herein as part of a background operation.

Systems, methods, and apparatus related to data recovery in memory devices. In one approach, a memory device encodes stored data. The memory device reads a codeword from a storage media and determines that a number errors in the codeword exceeds an error correction capability of the memory device. The errors are due, for example, to one or more stuck bits. In response to this determination, one or more data patterns are written to the storage media at the same address from which the codeword is read. The data patterns are read to identify bit locations of the stuck bits. The identified locations are used to correct bit errors of the read codeword that correspond to the identified locations. The corrected code word is sent to a host device (e.g., which requested data from the memory device using a read command).

A method for the self-diagnosis of RAM error detection logic of a powertrain controller includes: idling, by a first core, an operation of a second core; testing an error correction code (ECC) module corresponding to a RAM operating by the second core; idling, by the second core, an operation of a core of a plurality of un tested cores; and testing an ECC module corresponding to a RAM operating by the core of the plurality of untested cores.

A method of correcting one or more bit errors in a memory device includes retrieving a codeword from a memory device. The codeword includes a data and an error correcting code. The method further includes determining whether the one or more bit errors are present in the retrieved codeword and correcting the retrieved codeword for the one bit error in response to determining one bit error is present in the retrieved codeword. The method also includes flipping a bit of the retrieved codeword in response to determining a plurality of bit errors is present in the retrieved codeword and correcting the retrieved codeword for the plurality of bit errors based on the bit-flipped codeword.