Abstract: A fault-injection protection circuit includes a circuit under protection and a detection circuit. The detection circuit includes a detection cell having unequal pull-up capability and pull-down capability, and is arranged at a distance less than a laser spot diameter from the circuit under protection. The detection circuit is used to generate an alarm signal upon detecting a laser fault injection.

Abstract: A memory cell includes a first anti-fuse element, a first select transistor, a second anti-fuse element, a second select transistor, and a sensing control circuit. The first anti-fuse element is coupled to an anti-fuse control line, and the first select transistor transmits a voltage between a first bit line and the first anti-fuse element according to a voltage on the word line. The second anti-fuse element is coupled to the anti-fuse control line. The second select transistor transmits a voltage between a second bit line and the second anti-fuse element according to the voltage on the word line. The sensing control circuit provides a discharging path to a system voltage terminal from the first select transistor or the second select transistor according to states of the first anti-fuse element and the second anti-fuse element during a read operation.

Abstract: A memory cell includes a first anti-fuse element, a second anti-fuse element, and a selection circuit. The first anti-fuse element has a first terminal, a second terminal being floating, and a control terminal coupled to a first anti-fuse control line. The second anti-fuse element has a first terminal coupled to the first terminal of the first anti-fuse element, a second terminal being floating, and a control terminal coupled to a second anti-fuse control line. The selection circuit is coupled to the first terminal of the first anti-fuse element, the first terminal of the second anti-fuse element, and a source line. The selection circuit controls an electrical connection from the source line to the first terminal of the first anti-fuse element and the first terminal of the second anti-fuse element.

Abstract: A memory circuit includes a memory cell, a first program driver, a second program driver, and a sensing amplifier. A method for operating the memory circuit includes, during a program operation of the memory cell, providing a program voltage to the memory cell, enabling the first program driver to drive the first local bit line to be at a low voltage, enabling the second program driver, disabling the first program driver, and enabling the sensing amplifier to verify whether the first memory cell has been programmed or not. The second program driver has a weaker driving ability than the first program driver.

Abstract: A sensing amplification circuit includes a sensing amplifier and a trigger control circuit. The sensing amplifier receives a data voltage and a reference voltage, and outputs a first data signal and a second data signal by comparing the data voltage and the reference voltage. The trigger control circuit includes a logic circuit and a set-reset latch. The logic circuit receives the first data signal and the second data signal, and changes a first control signal from a first voltage level to a second voltage level when one of the first data signal and the second data signal changes its state. The first set-reset latch receives the first control signal and a second control signal, and generates a trigger signal to enable the sensing amplifier when the second control signal changes state and disable the sensing amplifier when the first control signal changes state.

Abstract: A memory cell includes a first anti-fuse element, a first select transistor, a second anti-fuse element, a second select transistor, and a sensing control circuit. The first anti-fuse element is coupled to an anti-fuse control line, and the first select transistor transmits a voltage between a first bit line and the first anti-fuse element according to a voltage on the word line. The second anti-fuse element is coupled to the anti-fuse control line. The second select transistor transmits a voltage between a second bit line and the second anti-fuse element according to the voltage on the word line. The sensing control circuit provides a discharging path to a system voltage terminal from the first select transistor or the second select transistor according to states of the first anti-fuse element and the second anti-fuse element during a read operation.

Abstract: A memory cell includes a first anti-fuse element, a second anti-fuse element, and a selection circuit. The first anti-fuse element has a first terminal, a second terminal being floating, and a control terminal coupled to a first anti-fuse control line. The second anti-fuse element has a first terminal coupled to the first terminal of the first anti-fuse element, a second terminal being floating, and a control terminal coupled to a second anti-fuse control line. The selection circuit is coupled to the first terminal of the first anti-fuse element, the first terminal of the second anti-fuse element, and a source line. The selection circuit controls an electrical connection from the source line to the first terminal of the first anti-fuse element and the first terminal of the second anti-fuse element.

Abstract: A sensing amplification circuit includes a sensing amplifier and a trigger control circuit. The sensing amplifier receives a data voltage and a reference voltage, and outputs a first data signal and a second data signal by comparing the data voltage and the reference voltage. The trigger control circuit includes a logic circuit and a set-reset latch. The logic circuit receives the first data signal and the second data signal, and changes a first control signal from a first voltage level to a second voltage level when one of the first data signal and the second data signal changes its state. The first set-reset latch receives the first control signal and a second control signal, and generates a trigger signal to enable the sensing amplifier when the second control signal changes state and disable the sensing amplifier when the first control signal changes state.

Abstract: A memory circuit includes a memory cell, a first program driver, a second program driver, and a sensing amplifier. A method for operating the memory circuit includes, during a program operation of the memory cell, providing a program voltage to the memory cell, enabling the first program driver to drive the first local bit line to be at a low voltage, enabling the second program driver, disabling the first program driver, and enabling the sensing amplifier to verify whether the first memory cell has been programmed or not. The second program driver has a weaker driving ability than the first program driver.