A memory device includes a memory bank that includes a first set of memory rows in a first section of the memory bank, a first set of redundant rows in a first section of the memory bank, a second set of memory rows in a second section of the memory bank, and a second set of redundant rows in the second section of the memory bank. The memory bank also includes a repeater blocker circuit that when in operation selectively blocks a signal from transmission to the second section of the memory bank and blocker control circuitry that when in operation transmits a control signal to control the selective blocking of the signal by the repeater blocker circuit.

A memory device includes a memory bank that includes a first set of memory rows in a first section of the memory bank, a first set of redundant rows in a first section of the memory bank, a second set of memory rows in a second section of the memory bank, and a second set of redundant rows in the second section of the memory bank. The memory bank also includes a repeater blocker circuit that when in operation selectively blocks a signal from transmission to the second section of the memory bank and blocker control circuitry that when in operation transmits a control signal to control the selective blocking of the signal by the repeater blocker circuit.

An apparatus having memory cells, an error correction module with a predetermined code rate, a processing device configured to arrange data storage in the memory cells for improved capability in recovering from random bit errors in raw data retrieved from the memory cells. For example, user data and redundant data are stored in the memory cells. The redundant data is generated according to the predetermined code rate from not only the user data but also known data. The known data is not stored in the memory cells. As a result, the error correction module has increased capability in recovering from random bit errors in raw data retrieved from the memory cells. The increased capability can be used to extend the useful life of the memory cells and/or improve the reliability of retrieving error free data from the memory cells.

A repair system and a repair method for a semiconductor structure, a storage medium, and an electronic device are provided. The semiconductor structure includes a main memory area and a redundant memory area. The repair system of the present disclosure includes a test circuit, a control circuit, and a repair circuit. The test circuit is configured to perform defect detection on the main memory area to determine a failed cell of the main memory area and position information of the failed cell. The control circuit is connected to the test circuit, and is configured to store the position information of the failed cell and generate a repair signal according to the position information. The repair circuit is connected to the control circuit, and is configured to receive the repair signal and perform a repair operation on the failed cell through the redundant memory area.

A semiconductor device, the device including: a first level including control circuits, where the control circuits include a plurality of first transistors and a plurality of metal layers; a memory level disposed on top of the first level, where the memory level includes an array of memory cells, where each of the memory cells include at least one second transistor, where the control circuits control the array of memory cells, where the first level is bonded to the memory level, where the bonded includes oxide to oxide bonding regions and a plurality of metal to metal bonding regions, and where at least one of the memory cells is disposed directly above at least one of the plurality of metal to metal bonding regions.

A semiconductor device, the device including: a first level including a plurality of first memory arrays, where the first level includes a plurality of first transistors and a plurality of metal layers; a second level disposed on top of the first level, where the second level includes a plurality of second memory arrays, where the first level is bonded to the second level, where the bonded includes oxide to oxide bonding regions and a plurality of metal to metal bonding regions, where the plurality of first memory arrays includes a plurality of first DRAM (Dynamic Random Access Memory) cells, and where the plurality of second memory arrays includes a plurality of second DRAM (Dynamic Random Access Memory) cells.

A semiconductor device, the device including: a first level overlaid by a first memory control level; a first memory level disposed on top of said first control level, where said first memory level includes a first thinned single crystal substrate; a second memory level, said second memory level disposed on top of said first memory level, where said second memory level includes a second thinned single crystal substrate, where said memory control level is bonded to said first memory level, and where said bonded includes oxide to oxide and conductor to conductor bonding.

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.

A memory device includes a mode register set configured to store a first repair mode, a second repair mode, and a second repair off mode, and a repair control circuit configured to perform a first repair operation for permanently repairing a first wordline corresponding to a defective address to a first redundancy wordline in the first repair mode, to perform a second repair operation for temporarily repairing the first wordline corresponding to the defective address to a second redundancy wordline in the second repair mode, and to turn off a repair logic that is configured to perform the second repair operation in the second repair off mode to access old data after the second repair operation.

A memory device includes a memory bank that includes a first set of memory rows in a first section of the memory bank, a first set of redundant rows in a first section of the memory bank, a second set of memory rows in a second section of the memory bank, and a second set of redundant rows in the second section of the memory bank. The memory bank also includes a repeater blocker circuit that when in operation selectively blocks a signal from transmission to the second section of the memory bank and blocker control circuitry that when in operation transmits a control signal to control the selective blocking of the signal by the repeater blocker circuit.