Methods and apparatus relating to an adaptive multibit bus for energy optimization are described. In an embodiment, a 1-bit interconnect of a processor is caused to select between a plurality of operational modes. The plurality of operational modes comprises a first mode and a second mode. The first mode causes transmission of a single bit over the 1-bit interconnect at a first frequency and the second mode causes transmission of a plurality of bits over the 1-bit interconnect at a second frequency based at least in part on a determination that an operating voltage of the 1-bit interconnect is at a high voltage level and that the second frequency is lower than the first frequency. Other embodiments are also disclosed and claimed.

Apparatuses, systems, and methods for memory initiated calibration. The memory includes a termination circuit with a tunable resistor and a calibration detection circuit with a replica tunable resistor. The calibration detection circuit measures a resistance of the replica tunable resistor and provides a calibration request signal if the resistance is outside a tolerance. Responsive to the calibration request signal, a controller of the memory schedules the memory for a calibration operation.

The present disclosure provides a level shifter including: a level shifter section that is driven by a first power source voltage, and that, in accordance with switching of an input signal of a voltage lower than the first power source voltage, switches an output signal that has been level-shifted, from the first power source voltage to a voltage lower than the first power source voltage; and a threshold voltage changing circuit that, in accordance with a switching direction of the input signal, changes a threshold voltage of the input signal for switching the output signal.

Apparatuses, and methods, for digital cells power reduction are disclosed. For an embodiment, a first plurality of digital logic cells are directly connected to a Vdd terminal and a Vss terminal that have a potential difference of VDD, a second plurality of digital logic cells being directly connected to a Vdd_R terminal and a Vss_R terminal, wherein a potential difference between the Vdd_R terminal and the Vss terminal is (VDD?X1), and a potential difference between the Vss_R terminal and the Vss terminal is X2, wherein at least one digital logic cell has at least one of (a) an input connected to an output of at least one digital logic cell of the second plurality, or (b) an output connected to an input of at least one digital logic cell of the second plurality. Vdd, Vdd_R and Vss_R terminal voltages can be generated by an array of devices.

Methods and apparatus relating to an adaptive multibit bus for energy optimization are described. In an embodiment, a 1-bit interconnect of a processor is caused to select between a plurality of operational modes. The plurality of operational modes comprises a first mode and a second mode. The first mode causes transmission of a single bit over the 1-bit interconnect at a first frequency and the second mode causes transmission of a plurality of bits over the 1-bit interconnect at a second frequency based at least in part on a determination that an operating voltage of the 1-bit interconnect is at a high voltage level and that the second frequency is lower than the first frequency. Other embodiments are also disclosed and claimed.

Methods and apparatus relating to an adaptive multibit bus for energy optimization are described. In an embodiment, a 1-bit interconnect of a processor is caused to select between a plurality of operational modes. The plurality of operational modes comprises a first mode and a second mode. The first mode causes transmission of a single bit over the 1-bit interconnect at a first frequency and the second mode causes transmission of a plurality of bits over the 1-bit interconnect at a second frequency based at least in part on a determination that an operating voltage of the 1-bit interconnect is at a high voltage level and that the second frequency is lower than the first frequency. Other embodiments are also disclosed and claimed.

Circuits and methods for determining a majority vote from a plurality of inputs. An example circuit includes a voting input stage, a transfer stage, and an accumulating stage. The voting input stage includes at least three input switched capacitors. The transfer stage includes transfer switched capacitors corresponding to the input switched capacitors. The transfer switched capacitors charge a voting capacitor corresponding to each input switched capacitor during a state of a clock signal. The accumulating stage includes accumulating switched capacitors connecting the voting capacitors in series. The accumulating switched capacitors cause the charges of the voting capacitors to be accumulated during an alternate state of the clock signal. The accumulated charge of the voting capacitors represents a majority vote of the input switched capacitors.

A method of detecting and mitigating an SEL is provided. The method includes measuring a current of a first circuit block of a semiconductor device and determining that the measured current exceeds a first threshold. In response to the measured current exceeding the first threshold, a supply voltage of the first circuit block is reduced from a nominal voltage value to a predetermined voltage value. After reducing the supply voltage to the predetermined voltage value, the supply voltage is restored to the nominal voltage value.

The present disclosure provides a level shifter including: a level shifter section that is driven by a first power source voltage, and that, in accordance with switching of an input signal of a voltage lower than the first power source voltage, switches an output signal that has been level-shifted, from the first power source voltage to a voltage lower than the first power source voltage; and a threshold voltage changing circuit that, in accordance with a switching direction of the input signal, changes a threshold voltage of the input signal for switching the output signal.

In an embodiment an integrated device includes a first physical unclonable function module configured to generate an initial data group and management module configured to generate an output data group from at least the initial data group, authorize only D successive deliveries of the output data group on a first output interface of the device, D being a non-zero positive integer, and prevent any new generation of the output data group.