A semiconductor integrated circuit pertaining to the present invention comprises a plurality of storage elements for storing and holding an input signal, a majority circuit that outputs a result of a majority decision of outputs from the plurality of storage elements; an error detector circuit that detects a mismatch among the outputs of the plurality of storage elements and outputs error signals; and a monitor circuit that monitors the error signals from the error detector circuit, wherein the monitor circuit, based on the error signals, orders a refresh action that rewrites data for rectification to a storage element in which an output mismatch occurs out of the plurality of storage elements and, if rewrite and rectification by the refresh action are unsuccessful, sends a notification to an external unit or process.

A System-on-Chip includes a data processing engine array. The data processing engine array includes a plurality of data processing engines organized in a grid. The plurality of data processing engines are partitioned into at least a first partition and a second partition. The first partition includes one or more first data processing engines of the plurality of data processing engines. The second partition includes one or more second data processing engines of the plurality of data processing engines. Each partition is configured to implement an application that executes independently of the other partition.

An integrated circuit includes current-mode circuitry implemented on a substrate. The current-mode circuitry includes i) a plurality of instances of a translinear circuit, and ii) a plurality of selection circuits coupled to respective instances of the translinear circuit, each selection circuit configured to selectively disable the respective instance of the translinear circuit. The current-mode circuitry is configured to generate a first output using one or more instances of the translinear circuit that are not disabled by one or more respective selection circuits. Drive circuitry is also implemented on the substrate and is coupled to the current-mode circuitry. The drive circuitry is configured to generate a second output using the first output of the current-mode circuitry.

A module includes one or more output channels, wherein each output channel is configured to transmit digital output signals, wherein each output channel comprises switching devices and a load is connectable between the switching devices, and wherein each output channel is individually configurable to operate according to a first output type or a second output type.

A module includes one or more output channels, wherein each output channel is configured to transmit digital output signals, wherein each output channel comprises switching devices and a load is connectable between the switching devices, and wherein each output channel is individually configurable to operate according to a first output type or a second output type.

An electronic device includes at least two electronic components. A reset circuit includes: a parity control circuit; at least two first flip-flops, wherein each first flip-flop has an output coupled to at least one of the at least two electronic components; and at least two second flip-flops, wherein each second flip-flop has at least one output coupled to an input of the parity control circuit.

A module includes one or more output channels, wherein each output channel is configured to transmit digital output signals, wherein each output channel comprises switching devices and a load is connectable between the switching devices, and wherein each output channel is individually configurable to operate according to a first output type or a second output type.

A module includes one or more output channels, wherein each output channel is configured to transmit digital output signals, wherein each output channel comprises switching devices and a load is connectable between the switching devices, and wherein each output channel is individually configurable to operate according to a first output type or a second output type.

A circuit includes an input-output, a supply terminal, a reference terminal, a high-side transistor, a low-side transistor, a driver, and a bias generation circuit. The driver circuit includes a first inverter having an output, a second inverter having an input, an output, and first and second supply inputs, and a transmission gate having an input, an output, and first and second enable inputs. The input of the second inverter is coupled to the output of the first inverter. The first enable input is coupled to the output of the first inverter, the second enable input is coupled to the output of the second inverter, the output of the transmission gate is coupled to the output of the driver, the first supply input of the second inverter is coupled to the output of the transmission gate, and the second supply input of the second inverter is coupled to a reference terminal.

A circuit includes an input-output, a supply terminal, a reference terminal, a high-side transistor, a low-side transistor, a driver, and a bias generation circuit. The driver circuit includes a first inverter having an output, a second inverter having an input, an output, and first and second supply inputs, and a transmission gate having an input, an output, and first and second enable inputs. The input of the second inverter is coupled to the output of the first inverter. The first enable input is coupled to the output of the first inverter, the second enable input is coupled to the output of the second inverter, the output of the transmission gate is coupled to the output of the driver, the first supply input of the second inverter is coupled to the output of the transmission gate, and the second supply input of the second inverter is coupled to a reference terminal.