The present embodiments provides a memory repair solution finding device and method which find a fault by testing a memory and find a repair solution in parallel and dynamically reconfigure the stored fault information to minimize a repair solution searching time with an optimal repair rate.

A self-correcting memory system comprising an integrated circuit including memory and memory content authentication functionality, which is operative to compare content to be authenticated to a standard and to output authentic if the content to be authenticated equals the standard and non-authentic otherwise; and error correction functionality which is operative to apply at least one possible correction to at least one erroneous word entity in said memory, yielding a possibly correct word entity, call said authentication for application to the possibly correct word entity, and if the authentication's output is authentic, to replace said erroneous word entity in said memory, with said possibly correct word entity thereby to yield error correction at a level of confidence derived from the level of confidence associated with the authentication.

Apparatuses and methods for providing clocks to data paths are disclosed. An example apparatus includes a first circuit in a data path, a second circuit in the data path, and a multiplexer. The first circuit is configured to provide data based on a first clock and the second circuit is configured to receive the data and provide the data based on a second clock. The multiplexer is configured to provide a third clock as the second clock for some test operations and further configured to provide the first clock as the second clock for other test operations. A timing of the first clock is adjusted for the first circuit during the test operations.

In some examples, a defective memory cell detection circuitry is configured to provide a failure signal indicative of a failure of a sub-group of memory cells (e.g., a row of memory cells). The failure signal is generated responsive to the failure of a sense line to transition to one of a set of reference voltages within a threshold time from a memory command. In some examples, failure signals indicative of a failure of a sub-group of memory cells is used by vehicle computer control systems to operate a vehicle.

A solid state storage device includes a non-volatile memory and a control circuit. The non-volatile memory includes a specified region. The control circuit is connected with the non-volatile memory, and includes a function storage circuit. A state prediction function for a first failure mode and a state prediction function for a second failure mode are stored in the function storage circuit. If the control circuit confirms that the specified region is changed from the first failure mode to the second failure mode, the control circuit predicts the specified region according to current state parameters of the specified region and the state prediction function for the second failure mode.

A semiconductor system includes a first semiconductor device and a first semiconductor device. The first semiconductor device outputs a clock, a chip selection signal and addresses. The second semiconductor device generates a masking signal from the addresses inputted in synchronization with a first pulse of the clock in response to the chip selection signal and decodes internal addresses generated from the addresses inputted in synchronization with a second pulse of the clock to select a word line. The second semiconductor device controls a connection between an address decoder and a fuse circuit in response to the masking signal. The address decoder selects the word line.

A semiconductor system includes a first semiconductor device and a first semiconductor device. The first semiconductor device outputs a clock, a chip selection signal and addresses. The second semiconductor device generates a masking signal from the addresses inputted in synchronization with a first pulse of the clock in response to the chip selection signal and decodes internal addresses generated from the addresses inputted in synchronization with a second pulse of the clock to select a word line. The second semiconductor device controls a connection between an address decoder and a fuse circuit in response to the masking signal. The address decoder selects the word line.

Examples of defective memory cell detection circuitry are described herein. Defective memory cell detection circuitry may provide a failure signal indicative of a failure of a sub-group of memory cells (e.g., a row of memory cells). The failure signal may be generated responsive to the failure of a sense line to transition to one of a set of reference voltages within a threshold time from a memory command. Failure signals indicative of a failure of a sub-group of memory cells may be used by vehicle computer control systems to improve performance and/or reliability of vehicle operations.

A solid state storage device includes a non-volatile memory and a control circuit. The non-volatile memory includes a specified region. The control circuit is connected with the non-volatile memory, and includes a function storage circuit. A state prediction function for a first failure mode and a state prediction function for a second failure mode are stored in the function storage circuit. If the control circuit confirms that the specified region is changed from the first failure mode to the second failure mode, the control circuit predicts the specified region according to current state parameters of the specified region and the state prediction function for the second failure mode.

Providing efficient handling of memory array failures in processor-based systems is disclosed. In this regard, in one aspect, a memory controller of a processor-based device is configured to detect a defect within a memory element of a plurality of memory elements of a memory array. In response, a disable register of one or more disable registers is set to correspond to the memory element to indicate that the memory element is disabled. The memory controller receives a memory access request to a memory address corresponding to the memory element, and determines, based on one or more disable registers, whether the memory element is disabled. If so, the memory controller disallows the memory access request. Some aspects may provide that the memory controller, in response to detecting the defect, provides a failure indication to an executing process, and subsequently receives, from the executing process, a request to set the disable register.