In an integrated circuit, a first current source is coupled between a first supply voltage and a first node. An output stage includes a first current steering PMOS transistor coupled to the first node, a first current steering NMOS transistor including a first current electrode coupled to the first current steering PMOS transistor at a second node, a second current steering PMOS coupled to the first node, and a second current steering NMOS transistor including a first current electrode coupled to the second current steering PMOS transistor at a third node. Voltage at the second node is used to drive a gate of the second current steering PMOS transistor, and voltage at the third node is used to drive a gate of the first current steering PMOS transistor. First and second programmable slew rate pre-drivers provide outputs to the gates of the first and second current steering NMOS transistors, respectively.

A level shifter includes a control circuit and a bias circuit. The control circuit receives a bias voltage, a first signal associated with a first voltage domain, and supply voltages associated with a second voltage domain, and outputs a second signal that is associated with the second voltage domain. The bias circuit generates the bias voltage that is indicative of the duty cycle of the second signal, and provides the bias voltage to the control circuit to control the duty cycle of the second signal. The duty cycle of the second signal is controlled such that a difference between a duty cycle of the first signal and an inverse of the duty cycle of the second signal is less than a tolerance limit.

A high-frequency high-linear input buffer includes a first MOS transistor, a second MOS transistor, a third MOS transistor, and a signal panning unit. A gate terminal of the first MOS transistor is used as an input terminal of the buffer. A current input terminal of the first MOS transistor is connected to a current output terminal of the second MOS transistor. A current output terminal of the first MOS transistor is connected to a current input terminal of the third MOS transistor. A current input terminal of the second MOS transistor is connected to a gate terminal of the third MOS transistor. An input terminal of the signal panning unit is connected to an input terminal of the buffer. An output terminal of the signal panning unit is connected to a gate terminal of the second MOS transistor. An output terminal of the third MOS transistor is connected to ground.

An interface circuit may convert an input electrical signal at an input node in a first power domain having a first ground or reference voltage into an output electrical signal at an output node in a second power domain having a second ground or reference voltage. Notably, a level-shifting circuit in the interface circuit may selectively electrically couple to the input node and the output node. Then, when there is electrical coupling, the level-shifting circuit may perform level shifting between the first power domain and the second power domain. The level shifting may involve: passing, using a first filter, frequencies in the input electrical signal below a first corner frequency; passing, using a second filter in parallel with the first filter, frequencies in the input electrical signal above a second corner frequency; and combining outputs of the first filter and the second filter as the output electrical signal.

A memory includes a bank, the bank includes a plurality of sections, each of the plurality of section includes a plurality of word lines, a plurality of bit lines, and a plurality of storage units arranged in an array, and each of the plurality of storage units is connected to one of the plurality of word lines and one of the plurality of bit lines; the bank is configured to: in a preset mode, in response to a control signal, activate each of a plurality of word lines in at least one target section of the bank, pull up or pull down a level of each of a plurality of bit lines in the target section, and pull a complementary bit line of each of the plurality of bit lines in the target section to a level opposite to a level of the plurality of bit lines.

A low voltage differential driver includes a first driver, a second driver, and an output driver. The output driver is configured to provide an output between a first output node and a second output node, and includes a current source, a first branch, and a second branch. The current source is configured to provide a source current. The current source is connected with a parallel arrangement of the first branch and the second branch. The first switch and the second switch are respectively controlled by a first switch circuit and a second switch circuit which together comprise the first driver. The third switch and the fourth switch are respectively controlled by a third switch circuit and a fourth switch circuit which together comprise the second driver. Each of the first to fourth switch circuits is connected between the upper node and the lower node.

Various embodiments relate to a skew detector circuit, including: a logic circuit having two inputs configured to generate a logic 1 output when the two inputs have a logic 0 value and generator a logic 0 output when the two input have a logic 1 value; a first level shifter configured to increase the output of the logic circuit to a higher voltage; a second level shifter configured to increase the output of the first level shifter to a higher voltage; and a voltage regulator configured to produce a first voltage for the logic circuit, a second voltage for the first level shifter, and a third voltage for the second level shift.

An input circuit includes an input buffer circuit using a first node as an input and a second node as an output, an N-type transistor having a source coupled to the input terminal, a drain coupled to the first node, and a gate coupled to a power supply, and a pull-up circuit provided between the first node and the power supply. The pull-up circuit is configured to make the power supply and the first node conducive with each other for a predetermined period when the input signal transitions from low to high and not to make the power supply and the first node conductive with each other when the input signal transitions from high to low.

A system includes a cross-point memory array and a decoder circuit coupled to the cross-point memory array. The decoder circuit includes a predecoder having predecode logic to generate a control signal and a level shifter circuit to generate a voltage signal. The decoder circuit further includes a post-decoder coupled to the predecoder, the post-decoder including a first stage and a second stage coupled to the first stage, the control signal to control the first stage and the second stage to route the voltage signal through the first stage and the second stage to a selected conductive array line of a plurality of conductive array lines coupled to a memory array.

Described is an apparatus which comprises: a reference device; and a processor having a plurality of circuit units, each circuit unit is operable to electronically couple with the reference device such that only one circuit unit of the plurality of circuit units is electronically coupled to the reference device at a given time while other circuit units of the plurality are electronically uncoupled to the reference device during that time.