In one embodiment, a device comprises: a first die having disposed thereon a first plurality of latches wherein ones of the first plurality of latches are operatively connected to an adjacent one of the first plurality of latches; and a second die having disposed thereon a second plurality of latches wherein ones of the second plurality of latches are operatively connected to an adjacent one of the second plurality of latches. Each latch of the first plurality of latches on said first die corresponds to a latch in the second plurality of latches on said second die. Each set of corresponding latches are operatively connected. A scan path comprises a closed loop comprising each of said first and second plurality of latches. One of the second plurality of latches is operatively connected to another one of the second plurality of latches via an inverter.

The disclosure describes a novel method and apparatus for testing different types of TSVs in a single die or different types of TSV connections in a stack of die. The testing is facilitated by test circuitry associated with each type of TSV. The test circuitry includes a scan cell adapted for testing TSVs.

The disclosure describes a novel method and apparatus for improving silicon interposers to include test circuitry for testing stacked die mounted on the interposer. The improvement allows for the stacked die to be selectively tested by an external tester or by the test circuitry included in the interposer.

A circuit includes a test data input (TDI) pin receiving a test data input signal, a test data out (TDO) pin outputting a test data output signal, and debugging test access port (TAP) having a test data input coupled to the TDI pin and a bypass register having an input coupled to the test data input of the debugging TAP. A multiplexer has inputs coupled to the TDI pin and the debugging TAP. A testing TAP has a test data input coupled to the output of the multiplexer, and a data register having an input coupled to the test data input of the testing TAP. The multiplexer switches so the test data input signal is selectively coupled to the input of the data register of the testing TAP so the output of the debugging TAP is selectively coupled to the input of the data register of the testing TAP.

Performing series equivalent scans spanning a plurality of scan technologies in a complex scan topology may be performed by performing shift operations in the complex scan topology while only one branch of the complex scan topology connectivity is enabled, and performing capture and update operations in parallel while scan topology connectivity of two or more of the plurality of scan technologies is enabled.

The disclosure describes a novel method and apparatus for testing different types of TSVs in a single die or different types of TSV connections in a stack of die. The testing is facilitated by test circuitry associated with each type of TSV. The test circuitry includes a scan cell adapted for testing TSVs.

A device comprises a first die; and a second die stacked below the first die with interconnections between the first die and the second die. A least one of the first die or the second die has a circuit for performing a function and provides a functional path. Each of the first and second dies comprise a plurality of latches, including a respective latch corresponding to each one of the interconnections; and a plurality of multiplexers. Each multiplexer is connected to a respective one of the plurality of latches and arranged for receiving and selecting one of a scan test pattern or a signal from the functional path for outputting during a scan chain test of the first die and second die.

An integrated circuit package for scan testing a semiconductor chip includes at least one first input pad configured to receive a first input signal, at least one chip connected to the first input pad, and at least one first output pad configured to receive a first output signal generated by the at least one chip, wherein each of the at least one chip includes at least one second input pad configured to receive a second input signal, a plurality of scan chains, a first test circuit and a second test circuit, which share the plurality of scan chains, and at least one second output pad configured to receive a second output signal from the first test circuit.

In one embodiment, a device comprises: a first die having disposed thereon a first plurality of latches wherein ones of the first plurality of latches are operatively connected to an adjacent one of the first plurality of latches; and a second die having disposed thereon a second plurality of latches wherein ones of the second plurality of latches are operatively connected to an adjacent one of the second plurality of latches. Each latch of the first plurality of latches on said first die corresponds to a latch in the second plurality of latches on said second die. Each set of corresponding latches are operatively connected. A scan path comprises a closed loop comprising each of said first and second plurality of latches. One of the second plurality of latches is operatively connected to another one of the second plurality of latches via an inverter.

Various aspects of the disclosed technology relate to using capture-per-cycle test points to reduce test application time. A scan-based testing system includes a plurality of regular scan chains and one or more capture-per-cycle scan chains on which scan cells capture and compact test responses at predetermined observation points per shift clock cycle.