The disclosure provides a novel method and apparatus for inputting addresses to devices to select the device TAP for access. Further, the disclosure provides a novel method and apparatus for inputting addresses for selecting device TAPs and for inputting commands for commanding circuitry within the device. The inputting of addresses or the inputting of addresses and commands is initiated by a control bit input on TDI that is recognized during the Run Test/Idle, Pause-DR or Pause-IR TAP states.

A system comprising a network-on-chip (NOC) fabric comprising a plurality of routes to communicate data between a plurality of agents; a plurality of built-in self-test (BIST) generators, wherein a BIST generator of the plurality of BIST generators is coupled between an agent of the plurality of agents and the NOC fabric and is to transmit at least one test pattern through the NOC fabric; and a plurality of BIST checkers, wherein a BIST checker of the plurality of BIST checkers is coupled between the agent of the plurality of agents and the NOC fabric and is to receive at least one test pattern through the NOC fabric from at least one of the plurality of BIST generators and to verify whether the at least one test pattern was transmitted correctly through the NOC fabric.

A basic logic element (1) includes: a calculation unit (11) configured to perform calculation processing; a self-diagnosis unit (12) configured to self-diagnose whether or not there is an abnormality in a result of the calculation output from the basic logic element; a management unit (13) configured to determine whether or not to retain authority to output the result of the calculation based on a result of the diagnosis performed by the self-diagnosis unit (12) and output a result of the determination as an authority signal; and an output control unit (14) configured to control whether or not to output the result of the calculation performed by the calculation unit (11) based on whether or not the authority to output data is retained by the management unit (13).

Disclosed are methods, systems and devices for implementing built-in self-test (BIST) to be performed by an untrusted party and/or in an unsecure testing environment. In an embodiment, a test access port (TAP) on a device may enable a party to initiate execution of one or more BIST procedures on the device. Additionally, such a TAP may enable loading of encrypted instructions to be executed by one or more processors formed on a device under test.

A memory device includes; a memory cell array including memory cells, a row decoder selecting a word line in response to a received address, and control logic including a sensing capacitor having a size proportional to a size of a word line capacitor associated with the selected word line. The control logic measures line resistance of the selected word line by precharging the selected word line, performing a charge sharing operation between the selected word line and the sensing capacitor following the precharging of the selected word line, and measuring a voltage of the sensing capacitor following the performing of the charge sharing operation.

A semiconductor integrated circuit includes a digital-to-analog converter and a built-in self-test circuit. The digital-to-analog converter performs a normal conversion operation to generate an analog output signal by converting a digital input signal corresponding to an external digital signal that is provided from an external device outside the semiconductor integrated circuit and provide the analog output signal to the external device. The built-in self-test circuit, while the digital-to-analog converter performs the normal conversion operation, performs a real-time monitoring operation to generate a comparison alarm signal based on the digital input signal and the analog output signal such that the comparison alarm signal indicates whether the digital-to-analog converter operates normally. Performance and reliability of the digital-to-analog converter and the semiconductor integrated circuit including the digital-to-analog converter may be enhanced by monitoring in real-time abnormality of the digital-to-analog converter using the on-time monitor.

A memory sequencer system for external memory protocols including a control center and a microcontroller; a control center network-on-chip having nodes connected point-to-point to synchronize and co-ordinate communication; whereby a command and address sequencer to generate command, control and address commands for specific memory protocols; and at least one data sequencer to generate pseudo-random or deterministic data patterns for each byte lane of a memory interface; wherein said command and address sequencer and said data sequencer are chained to form complex address and data sequences for memory interface training, calibrating and debugging; wherein said control center network-on-chip interconnecting the control center with said command and address sequencer and data sequencer to provide firmware controllability.

According to one or more embodiments, the semiconductor integrated circuit device includes a pattern generator, a result comparator, and a control circuit. The pattern generator supplies input data to a device-under-test. The result comparator compares output data of the device-under-test with expected value data and outputs a test result signal. The control circuit controls the pattern generator and the result comparator. The device-under-test and the result comparator are commonly connected to a first clock line. The pattern generator and the control circuit are commonly connected to a second clock line different from the first clock line.

An apparatus and method for providing a phase noise built-in self test (BIST) circuit are disclosed herein. In some embodiments, a method and apparatus for forming a multi-stage noise shaping (MASH) type high-order delta sigma (ΔΣ) time-to-digital converter (TDC) are disclosed. In some embodiments, an apparatus includes a plurality of first-order ΔΣ TDCs formed in an integrated circuit (IC) chip, wherein each of the first-order ΔΣ TDCs are connected to one another in a MASH type configuration to provide the MASH type high-order ΔΣ TDC, wherein the MASH type high-order ΔΣ TDC is configured to measure the phase noise of a device under text (DUT).

An integrated circuit includes a processor core configured to perform boot operations; and a microcontroller coupled to a processor core. The microcontroller includes: a set of microcontroller components; and a state machine coupled to the set of microcontroller components. The state machine is configured to perform self-test operations on the set of microcontroller components before the boot operations.