A synchronization circuit may include: a delay line configured to delay a reference clock signal; a division circuit configured to generate a divided feedback clock signal by dividing a feedback clock signal at a division ratio which is set according to a division ratio control signal; a phase detection circuit configured to generate a phase detection signal by detecting the phase of the divided feedback clock signal based on the reference clock signal; and a delay line control circuit configured to control a delay time of the delay line according to the phase detection signal and the divided feedback clock signal.

A semiconductor system according to an embodiment includes: a semiconductor system including a normal memory cell array and a redundancy memory cell array for repairing a defective cell among memory cells within the normal memory cell array, and configured to output to an external a fail flag generated according to a number of fail bits within read data output from the redundancy memory cell array; and a host configured to store an address corresponding to the read data into a selected register group from among a plurality of register groups, the selected register group being matched to the fail flag.

An execution method of a firmware code, a memory storage device and a memory control circuit unit are disclosed. The method includes: executing a firmware code in a read only memory; after executing a first part of the firmware code, querying reference information in a reference memory according to index information in the firmware code; and determining, according to the reference information, to continuously execute a second part of the firmware code or switch to execute a replacement program code in the reference memory, so as to complete a startup procedure.

An apparatus includes a storage area signal generation circuit configured to generate a storage area signal when performing an internal information storage operation and an external information storage operation; and an information storage circuit configured to receive internal failure information, stored in the apparatus, based on the storage area signal and store the received internal failure information as failure information in a set storage capacity, and store external failure information, applied from outside the apparatus, as the failure information in a variable storage capacity.

Memory devices and methods of repairing a memory are provided. A first array includes normal memory cells, and a second array includes repair memory cells. The repair memory cells are configured to be used in place of the normal memory cells. A look-up table comprises memory bitcells configured to store a set of entries including addresses of defective memory cells of the normal memory cells. A match circuit is configured to evaluate whether an input memory address is stored as a defective address in the memory bitcells. The match circuit is also configured to generate a selection signal for selecting the normal memory cells or the repair memory cells based on the evaluation.

A latch circuit includes a plurality of latch sets, each including an enable latch and a plurality of address latches; and a plurality of latch-width adjusting circuits respectively corresponding to the latch sets, wherein, in each of the plurality of latch sets, the corresponding latch-width adjusting circuit is disposed between the enable latch of the corresponding latch set and the address latch adjacent to the enable latch, and couples the enable latch to the adjacent address latch depending on whether or not the corresponding latch set is used, at an end of a boot-up operation.

A method includes replacing an address of a first normal memory cell in a first column of a first memory block with a destination address that is an address of a second normal memory cell in a second column of the first memory block, and reassigning the address of the second normal memory cell in the second column of the first memory block to an address of a first redundancy memory cell in a redundancy block of the memory device.

Methods, systems, and devices for completing memory repair operations interrupted by power loss are described. A command to perform a memory repair of a memory device may be received. A memory repair process of the memory device may be initiated, based on the command. The memory repair process may include programming fuse elements of the memory device. Information associated with the initiated memory repair process may be stored in a non-volatile memory. The memory repair process may be interrupted by a power interruption. During powerup of the memory device, it may be determined that the memory repair process was initiated and not completed before the powerup, based on the stored information. The memory repair process of the memory device may be continued, based on the determination. Upon completion of the memory repair process, the stored information may be cleared.

Technology is disclosed herein for loading redundancy information during a memory system power on read (POR). A memory structure has primary regions (e.g., primary columns) and a number of redundant regions (e.g., redundant columns). The status of the regions is stored in isolation latches during the POR. Initially, simultaneously all latches for primary regions are reset to used and all latches for redundant regions are reset to unused. Then, isolation latches for defective primary regions are set to unused while isolation latches for corresponding redundant regions are set to used. There is no need to individually set isolation latches for redundant regions to unused, which saves time during POR. Moreover, whenever the isolation latch for a defective primary region is set from used to unused, in parallel the isolation latch for the replacement redundant column may be set from unused to used, thereby not incurring a time penalty.

A memory device including a memory cell array, a redundant fuse circuit and a memory controller is provided. The memory cell array includes multiple regular memory blocks and multiple redundant memory blocks. The redundant fuse circuit includes multiple fuse groups recording multiple repair information. Each repair information is associated with a corresponding one of the redundant memory blocks and includes a repair address, a first enable bit, and a second enable bit. The memory controller includes multiple determining circuits. Each of the multiple determining circuits generates a hit signal according to an operation address, the repair address, the first enable bit, and the second enable bit. When a target memory block is bad, and the determining circuit of the memory controller generates the hit signal, the memory controller disables the redundant memory block that is bad according to the hit signal.