The present invention provides a method, device, and system for testing devices under testing (DUTs). The method comprises: sending a scan activated signal and a synchronous clock signal via the second signal line, and sending a first preset signal via the serial signal line, wherein each bit of the first preset signal is transmitted to a corresponding scan chain unit in a sequence of serial connection of the plurality of scan chain units with according to the synchronous clock signal, the corresponding scan chain unit is one of the plurality of scan chain units connected serially and coupled to the plurality of DUTs via a third signal line; sending a scan deactivated signal via the second signal line, to deactivate the scan chain units from identifying and receiving the first preset signal; and sending a second preset signal via the second signal line, and sending a test signal via the first signal line.

The present invention discloses an isolation circuit having test mechanism. An isolation circuit component performs signal transmission when a signal that a control terminal receives has an enabling state and performs signal isolation when the signal has a disabling state. The test circuit includes a multiplexer and a control circuit. Under a shifting operation state in a test mode, the control circuit controls the multiplexer to select an operation input terminal to receive and output an isolation control signal having the enabling state to the control input terminal. Under a capturing operation state in the test mode, the control circuit controls the multiplexer to select a test input terminal to receive and output the test signal to the control input terminal. The control circuit further determines whether the isolation circuit performs signal transmission or signal isolation according to the signals at the data input terminal and the data output terminal.

This disclosure describes a reduced pin bus that can be used on integrated circuits or embedded cores within integrated circuits. The bus may be used for serial access to circuits where the availability of pins on ICs or terminals on cores is limited. The bus may be used for a variety of serial communication operations such as, but not limited to, serial communication related test, emulation, debug, and/or trace operations of an IC or core design. Other aspects of the disclosure include the use of reduced pin buses for emulation, debug, and trace operations and for functional operations.

This disclosure describes die test architectures that can be implemented in a first, middle and last die of a die stack. The die test architectures are mainly the same, but for the exceptions mentioned in this disclosure.

This disclosure describes die test architectures that can be implemented in a first, middle and last die of a die stack. The die test architectures are mainly the same, but for the exceptions mentioned in this disclosure.

Testing of die on wafer is achieved by; (1) providing a tester with the capability of externally communicating JTAG test signals using simultaneously bidirectional transceiver circuitry, (2) providing die on wafer with the capability of externally communicating JTAG test signals using simultaneously bidirectional transceiver circuity, and (3) providing a connectivity mechanism between the bidirectional transceiver circuitry's of the tester and a selected group or all of the die on wafer for communication of the JTAG signals.

A method for testing a chip comprising: receiving N scan-in chains of test data; using the N scan-in chains of test data to perform tests on the chip; receiving a merged expected test-result and masking-instruction signal on X pins of the chip from the off-chip test equipment, X being less than 2*N; decoding the merged expected test-result and masking-instruction signal to extract N decoded output signals, each of the N decoded output signals corresponding to a respective chain of test results.

A falling edge controller includes a controller having an inverted TCK (Test Clock) input, a TMS (Test Mode Select) input, a shift register control output, an update register control output, and a shift output; a shift register having a TDI (Test Data In) input, a shift register control input coupled to the shift register control output, address inputs, a select input, address and select outputs, and a TDO (Test Data Out) output; an update register having address and select inputs coupled to the address and select outputs, an update register control input coupled to the update register control output, address outputs coupled to the address inputs, and a select output coupled to the select input; and address circuitry having address inputs coupled to the address outputs, and having an enable output.

The present invention discloses an isolation circuit having test mechanism. An isolation circuit component performs signal transmission when a signal that a control terminal receives has an enabling state and performs signal isolation when the signal has a disabling state. The test circuit includes a multiplexer and a control circuit. Under a shifting operation state in a test mode, the control circuit controls the multiplexer to select an operation input terminal to receive and output an isolation control signal having the enabling state to the control input terminal. Under a capturing operation state in the test mode, the control circuit controls the multiplexer to select a test input terminal to receive and output the test signal to the control input terminal. The control circuit further determines whether the isolation circuit performs signal transmission or signal isolation according to the signals at the data input terminal and the data output terminal.

A controller for a memory component comprises a processing unit and at least one memory unit coupled to the processing unit, the memory unit comprising at least a first area for storing a user firmware and a second area for storing a controller firmware; the processing unit is configured to capture a memory address of a program instruction to be executed, compare the memory address with a reference value, and, based on that comparison, enable/restricting actions associated with the program instruction. A related memory component and related methods are also disclosed.