Patent application number | Description | Published |
20080204065 | FAULT TOLERANT SELECTION OF DIE ON WAFER - In a functional mode, the functional core logic of a die is connected to the input and output pads and the die performs its intended function. In a bypass mode, the input and output buffers of the functional core logic are disabled and pad sites of corresponding position between a first set of opposite sides and between a second set of opposite sides are electrically connected. In bypass mode the die is transformed into a simple interconnect structure between the first sides and between the second sides. The interconnect structure includes plural conductors extending substantially parallel to one another between the first sides and further plural conductors extending substantially parallel to one another between the second sides. While in bypass mode, signals from a tester apparatus can flow through the conductors between the first sides and between the second sides to access and test a selected die on a wafer. | 08-28-2008 |
20080215282 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 09-04-2008 |
20080250282 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 10-09-2008 |
20080250286 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 10-09-2008 |
20080250287 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a TAP of IEEE standard 1149.1 is allowed to commandeer control from a WSP of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 10-09-2008 |
20080255791 | INTERFACE TO FULL AND REDUCE PIN JTAG DEVICES - The disclosure describes a process and apparatus for accessing devices on a substrate. The substrate may include only full pin JTAG devices ( | 10-16-2008 |
20080263419 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 10-23-2008 |
20080263420 | TEST STANDARD INTERFACES AND ARCHITECTURES - In a first embodiment a TAP | 10-23-2008 |
20080273640 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 11-06-2008 |
20080276142 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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 circuitry, 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. | 11-06-2008 |
20080276145 | INTEGRATED CIRCUIT HAVING ELECTRICALLY ISOLATABLE TEST CIRCUITRY - Special test circuitry in an IC for wafer level testing selectively connects the specialized test circuitry to the functional circuitry during wafer test. Following wafer test the special test circuitry is electrically isolated from the functional circuitry and power supplies such that it does not load functional circuit signals nor consume power. | 11-06-2008 |
20080281546 | TEST ACCESS PORT WITH ADDRESS AND COMMMAND CAPABILITY - 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. | 11-13-2008 |
20080288840 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 11-20-2008 |
20080288843 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 11-20-2008 |
20080320350 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 12-25-2008 |
20080320351 | LOW POWER SCAN & DELAY TEST METHOD AND APPARATUS - Scan and Scan-BIST architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure improves upon low power Scan and Scan-BIST methods. The improvement allows the low power Scan and Scan-BIST architectures to achieve a delay test capability equally as effective as the delay test capabilities used in conventional scan and Scan-BIST architectures. | 12-25-2008 |
20090033372 | SIMULTANEOUS LVDS I/O SIGNALING METHOD AND APPARATUS - First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half. | 02-05-2009 |
20090037785 | LOW OVERHEAD INPUT AND OUTPUT BOUNDARY SCAN CELLS - A process initializes the state of an output memory circuit of a scan cell located at the boundary of a logic circuit within an integrated circuit. Data is scanned into an input memory circuit of the cell while maintaining the cell in a mode providing normal operation of the logic circuit. The cell is placed in a test mode that disables normal operation of the logic circuit. The data scanned into the input memory circuit is transferred into the output memory circuit simultaneous with the placing the cell in the test mode. A transmission gate between the logic circuit and the output memory circuit and a transmission gate between the input memory circuit and the output memory circuit effect the changes between normal operation and test modes. | 02-05-2009 |
20090058448 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 03-05-2009 |
20090063919 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 03-05-2009 |
20090089634 | SCAN TESTING SYSTEM, METHOD AND APPARATUS - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 04-02-2009 |
20090115453 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 05-07-2009 |
20090119557 | HIGH SPEED INTERCONNECT CIRCUIT TEST METHOD AND APPARATUS - A Propagation Test instruction, a Decay Test instruction and a Cycle Test instruction provide testing of DC and AC interconnect circuits between circuits including JTAG boundary scan cells. A few additions to the Test Access Port circuitry, including gating producing a Capture Test Strobe (CTS) signal, and the boundary scan cells are required to implement the additional instructions. The instructions are extensions of the conventional JTAG operating structure. | 05-07-2009 |
20090119558 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 05-07-2009 |
20090119560 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 05-07-2009 |
20090119562 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 05-07-2009 |
20090125768 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. | 05-14-2009 |
20090132881 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Two common varieties of test interfaces exist for ICs and/or cores, the IEEE 1149.1 Test Access Port (TAP) interface and internal scan test ports. The TAP serves as a serial communication port for accessing a variety of circuitry including; IEEE 1149.1 boundary scan circuitry, built in self test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation/debug circuitry, and IEEE P1532 in-system programming circuitry. Internal scan test ports serve as a serial communication port for primarily accessing internal scan circuitry within ICs and cores. Today, the TAP and internal scan test ports are typically viewed as being separate test interfaces, each utilizing different IC pins and/or core terminals. The need for different IC pins and/or core terminals is overcome by an interface in accordance with the disclosure that allows the TAP and internal scan test ports to be merged so they both can co-exist and operate from the same set of IC pins and/or core terminals. Further, this interface allows merged TAP and scan test port interfaces to be selected individually or in groups. | 05-21-2009 |
20090158106 | Position Independent Testing of Circuits - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 06-18-2009 |
20090164845 | DEVICE TESTING ARCHITECTURE, METHOD AND SYSTEM - A device test architecture and interface is provided to enable efficient testing embedded cores within devices. The test architecture interfaces to standard IEEE 1500 core test wrappers and provides high test data bandwidth to the wrappers from an external tester. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. The test architecture includes a selector circuit for selecting a core for testing. Additional features and embodiments of the device test architectures are also disclosed. | 06-25-2009 |
20090172485 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 07-02-2009 |
20090206877 | QUAD STATE LOGIC DESIGN METHODS, CIRCUITS AND SYSTEMS - Quad-state logic elements and quad-state memory elements are used to reduce the wiring density of integrated circuits. The resulting reduction in wiring interconnects between memories and logic elements results in higher speed, higher density, and lower power integrated circuit designs. | 08-20-2009 |
20090210188 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 08-20-2009 |
20090212809 | DEVICE TEST AND DEBUG USING POWER AND GROUND TERMINALS - The present disclosure describes a novel method and apparatus for using a device's power and ground terminals as a test and/or debug interface for the device. According to the present disclosure, messages are modulated over DC voltages applied to the power terminals of a device to input test/debug messages to the device and output test/debug messages from the device. The present disclosure advantageously allows a device to be tested and/or debugged without the device having any shared or dedicated test or debug interface terminals. | 08-27-2009 |
20090217114 | SELECTABLE DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 08-27-2009 |
20090220037 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 09-03-2009 |
20090228750 | CONTROLLER APPLYING STIMULUS DATA WHILE CONTINUOUSLY RECEIVING SERIAL STIMULUS DATA - An emulator for emulating operations of data processing circuitry normally connected to and cooperable with a peripheral circuit includes serial scanning circuitry connectable to the peripheral circuit. The serial scanning circuitry provides to and receives from the peripheral circuit signals which would normally be provided and received by the data processing circuitry. The serial scanning circuitry is connectable to an emulation controller for transferring serial data between the emulation controller and the emulator. The serial scanning circuitry includes a first state machine having plural states controlling the transfer of serial data. The emulator further includes control circuitry connected to the serial scanning circuitry and connectable to the emulation controller. The control circuitry, when connected to the emulation controller, effects the providing and receiving of signals and the transferring of serial data between the emulation controller and the emulator continuously without interruption while the first state machine remains in one state. | 09-10-2009 |
20090235136 | ADDRESSABLE TEST ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for making device TAPs addressable to allow device TAPs to be accessed in a parallel arrangement without the need for having a unique TMS signal for each device TAP in the arrangement. According to the disclosure, device TAPs are addressed by inputting an address on the TDI input of devices on the falling edge of TCK. An address circuit within the device is associated with the device's TAP and responds to the address input to either enable or disable access of the device's TAP. | 09-17-2009 |
20090249144 | SHADOW ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing a shadow access port within a device. The shadow access port is accessed to perform operations in the device by reusing the TDI, TMS, TCK and TDO signals that are used to operate a test access port within the device. The presence and operation of the shadow access port is transparent to the presence and operation of the test access port. According to the disclosure, the shadow access port operates on the falling edge of the TCK signal while the test access port conventionally operates on the rising edge of the TCK signal. | 10-01-2009 |
20090259901 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 10-15-2009 |
20090259903 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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. | 10-15-2009 |
20090261326 | DIE TESTING USING TOP SURFACE TEST PADS - Timely testing of die on wafer reduces the cost to manufacture ICs. This disclosure describes a die test structure and process to reduce test time by adding test pads on the top surface of the die. The added test pads allow a tester to probe and test more circuits within the die simultaneously. Also, the added test pads contribute to a reduction in the amount of test wiring overhead traditionally required to access and test circuits within a die, thus reducing die size. | 10-22-2009 |
20090265594 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An addressable interface selectively enables JTAG TAP domain operations or Trace domain operations within an IC. After being enabled, the TAP receives TMS and TDI input from a single data pin. After being enabled, the Trace domain acquires data from a functioning circuit within the IC in response to a first clock and outputs the acquired data from the IC in response to a second clock. An addressable two pin interface loads and updates instructions and data to a TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. Trace circuitry within an IC can operate autonomously to store and output functional data occurring in the IC. The store and output operations of the trace circuitry are transparent to the functional operation of the IC. An auto-addressing RAM memory stores input data at an input address generated in response to an input clock, and outputs stored data from an output address generated in response to an output clock. | 10-22-2009 |
20090271672 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 10-29-2009 |
20090271674 | SCAN TEST METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing expected data, mask data, and control signals to scan test architectures within a device using the falling edge of a test/scan clock. The signals are provided on device leads that are also used to provide signals to scan test architectures using the rising edge of the test/scan clock. According to the disclosure, device test leads serve to input different test signals on the rising and falling edge of the test/scan clock which reduces the number of interconnects between a tester and the device under test. | 10-29-2009 |
20090284267 | INTEGRATED CIRCUIT HAVING ELECTRICALLY ISOLATABLE TEST CIRCUITRY - Special test circuitry in an IC for wafer level testing selectively connects the specialized test circuitry to the functional circuitry during wafer test. Following wafer test the special test circuitry is electrically isolated from the functional circuitry and power supplies such that it does not load functional circuit signals nor consume power. | 11-19-2009 |
20090287973 | ACCELERATING SCAN TEST BY RE-USING RESPONSE DATA AS STIMULUS DATA ABSTRACT - Scan testing of plural target electrical circuits, such as circuits | 11-19-2009 |
20090300447 | SCAN TESTING USING SCAN FRAMES WITH EMBEDDED COMMANDS - Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. | 12-03-2009 |
20090327823 | REMOVEABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 12-31-2009 |
20100007385 | SIMULTANEOUS LVDS I/O SIGNALING METHOD AND APPARATUS - First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half. | 01-14-2010 |
20100011262 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 01-14-2010 |
20100011263 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 01-14-2010 |
20100023822 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 01-28-2010 |
20100023823 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 01-28-2010 |
20100031102 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a TAP of IEEE standard 1149.1 is allowed to commandeer control from a WSP of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 02-04-2010 |
20100070810 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 03-18-2010 |
20100077269 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. | 03-25-2010 |
20100095171 | SCAN TESTING SYSTEM, METHOD AND APPARATUS - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 04-15-2010 |
20100095172 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 04-15-2010 |
20100095174 | SCAN FRAME BASED TEST ACCESS MECHANISMS - Testing of an electrical device is achieved by providing a test access mechanism within the device that can receive scan frames from an external tester. The received scan frames contain stimulus data to be applied to circuitry within the device to be tested, a command for enabling a test control operation, and a frame marker bit to indicate the end of the scan frame pattern. The inputting of scan frames can occur continuously and simultaneous with a commanded test control operation. | 04-15-2010 |
20100095175 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 04-15-2010 |
20100095176 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 04-15-2010 |
20100095178 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 04-15-2010 |
20100100780 | HIGH SPEED INTERCONNECT CIRCUIT TEST METHOD AND APPARATUS - A Propagation Test instruction, a Decay Test instruction and a Cycle Test instruction provide testing of DC and AC interconnect circuits between circuits including JTAG boundary scan cells. A few additions to the Test Access Port circuitry, including gating producing a Capture Test Strobe (CTS) signal, and the boundary scan cells are required to implement the additional instructions. The instructions are extensions of the conventional JTAG operating structure. | 04-22-2010 |
20100100782 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 04-22-2010 |
20100100783 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 04-22-2010 |
20100100784 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 04-22-2010 |
20100100785 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF-CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 04-22-2010 |
20100115354 | SCAN RESPONSE REUSE METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for allowing response data output from the scan outputs of a circuit under test to be formatted and applied as stimulus data input to the scan inputs of the circuit under test. Also the disclosure described a novel method and apparatus for allowing the response data output from the scan outputs of a circuit under test to be formatted and used as expected data to compare against the response data output from the circuit under test. Additional embodiments are also provided and described in the disclosure. | 05-06-2010 |
20100153798 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 06-17-2010 |
20100162059 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 06-24-2010 |
20100162061 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 06-24-2010 |
20100162062 | DIRECT SCAN ACCESS JTAG - The present disclosure describes novel methods and apparatuses for directly accessing JTAG Tap domains that exist in a scan path of many serially connected JTAG Tap domains. Direct scan access to a selected Tap domain by a JTAG controller is achieved using auxiliary digital or analog terminals associated with the Tap domain and connected to the JTAG controller. During direct scan access, the auxiliary digital or analog terminals serve as serial data input and serial data output paths between the selected Tap domain and the JTAG controller. | 06-24-2010 |
20100171522 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 07-08-2010 |
20100199137 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 08-05-2010 |
20100202577 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 08-12-2010 |
20100205494 | SELECTABLE DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 08-12-2010 |
20100205495 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Two common varieties of test interfaces exist for ICs and/or cores, the IEEE 1149.1 Test Access Port (TAP) interface and internal scan test ports. The TAP serves as a serial communication port for accessing a variety of circuitry including; IEEE 1149.1 boundary scan circuitry, built in self test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation/debug circuitry, and IEEE P1532 in-system programming circuitry. Internal scan test ports serve as a serial communication port for primarily accessing internal scan circuitry within ICs and cores. Today, the TAP and internal scan test ports are typically viewed as being separate test interfaces, each utilizing different IC pins and/or core terminals. The need for different IC pins and/or core terminals is overcome by an interface in accordance with the disclosure that allows the TAP and internal scan test ports to be merged so they both can co-exist and operate from the same set of IC pins and/or core terminals. Further, this interface allows merged TAP and scan test port interfaces to be selected individually or in groups. | 08-12-2010 |
20100211838 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 08-19-2010 |
20100223517 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 09-02-2010 |
20100229059 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 09-09-2010 |
20100241915 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a TAP of IEEE standard 1149.1 is allowed to commandeer control from a WSP of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 09-23-2010 |
20100241917 | GATING TAP REGISTER CONTROL BUS AND AUXILIARY/WRAPPER TEST BUS - In a first embodiment a TAP | 09-23-2010 |
20100259297 | QUAD STATE LOGIC DESIGN METHODS, CIRCUITS, AND SYSTEMS - Quad-state logic elements and quad-state memory elements are used to reduce the wiring density of integrated circuits. The resulting reduction in wiring interconnects between memories and logic elements results in higher speed, higher density, and lower power integrated circuit designs. | 10-14-2010 |
20100262874 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An addressable interface selectively enables JTAG TAP domain operations or Trace domain operations within an IC. After being enabled, the TAP receives TMS and TDI input from a single data pin. After being enabled, the Trace domain acquires data from a functioning circuit within the IC in response to a first clock and outputs the acquired data from the IC in response to a second clock. An addressable two pin interface loads and updates instructions and data to a TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. Trace circuitry within an IC can operate autonomously to store and output functional data occurring in the IC. The store and output operations of the trace circuitry are transparent to the functional operation of the IC. An auto-addressing RAM memory stores input data at an input address generated in response to an input clock, and outputs stored data from an output address generated in response to an output clock. | 10-14-2010 |
20100262878 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface are provided to enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface is achieved using a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE | 10-14-2010 |
20100275078 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITS - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 10-28-2010 |
20100281317 | CONTROLLER APPLYING STIMULUS DATA WHILE CONTINUOUSLY RECEIVING SERIAL STIMULUS DATA - An emulator for emulating operations of data processing circuitry normally connected to and cooperable with a peripheral circuit includes serial scanning circuitry connectable to the peripheral circuit. The serial scanning circuitry provides to and receives from the peripheral circuit signals which would normally be provided and received by the data processing circuitry. The serial scanning circuitry is connectable to an emulation controller for transferring serial data between the emulation controller and the emulator. The serial scanning circuitry includes a first state machine having plural states controlling the transfer of serial data. The emulator further includes control circuitry connected to the serial scanning circuitry and connectable to the emulation controller. The control circuitry, when connected to the emulation controller, effects the providing and receiving of signals and the transferring of serial data between the emulation controller and the emulator continuously without interruption while the first state machine remains in one state. | 11-04-2010 |
20100281319 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 11-04-2010 |
20100287431 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 11-11-2010 |
20100299568 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 11-25-2010 |
20100299569 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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. | 11-25-2010 |
20100299570 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 11-25-2010 |
20100299571 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 11-25-2010 |
20100318863 | PARALLEL AND SERIAL ACCESS TO TEST COMPRESSION ARCHITECTURES - The disclosure describes novel methods and apparatuses for accessing test compression architectures (TCA) in a device using either a parallel or serial access technique. The serial access technique may be controlled by a device tester or by a JTAG controller. Further the disclosure provides an approach to access the TCA of a device when the device exists in a daisy-chain arrangement with other devices, such as in a customer's system. Additional embodiments are also provided and described in the disclosure. | 12-16-2010 |
20100318866 | TEST COMPRESSION IN A JTAG DAISY-CHAIN ENVIRONMENT - The disclosure describes novel methods and apparatuses for controlling a device's TCA circuit when the device exists in a JTAG daisy-chain arrangement with other devices. The methods and apparatuses allow the TCA test pattern set used during device manufacturing to be reused when the device is placed in a JTAG daisy-chain arrangement with other devices, such as in a customers system using the device. Additional embodiments are also provided and described in the disclosure. | 12-16-2010 |
20100327908 | METHOD AND APPARATUS FOR DIE TESTING ON WAFER - An integrated circuit includes switching circuits for selectively connecting the bond pads to functional core logic and isolating the bond pads from second conductors, and the switch circuits for selectively connecting the bond pads to the second conductors to provide bi-directional connections between the bond pads on opposite sides of the substrate and isolating the bond pads from the functional core logic. | 12-30-2010 |
20110001503 | INTEGRATED CIRCUIT HAVING ELECTRICALLY ISOLATABLE TEST CIRCUITRY - Special test circuitry in an IC for wafer level testing selectively connects the specialized test circuitry to the functional circuitry during wafer test. Following wafer test the special test circuitry is electrically isolated from the functional circuitry and power supplies such that it does not load functional circuit signals nor consume power. | 01-06-2011 |
20110004434 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 01-06-2011 |
20110010594 | INTERFACE TO FULL AND REDUCE PIN JTAG DEVICES - The disclosure describes a process and apparatus for accessing devices on a substrate. The substrate may include only full pin JTAG devices ( | 01-13-2011 |
20110010595 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 01-13-2011 |
20110012642 | SIMULTANEOUS LVDS I/O SIGNALING METHOD AND APPARATUS - First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half. | 01-20-2011 |
20110016365 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 01-20-2011 |
20110016366 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 01-20-2011 |
20110022912 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF/CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 01-27-2011 |
20110041019 | SCAN TESTING SYSTEM, METHOD AND APPARATUS - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 02-17-2011 |
20110043247 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 02-24-2011 |
20110058634 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 03-10-2011 |
20110066907 | METHOD AND APPARATUS FOR DEVICE ACCESS PORT SELECTION - The disclosure describes a novel method and apparatuses for allowing a controller to select and access different types of access ports in a device. The selecting and accessing of the access ports is achieved using only the dedicated TDI, TMS, TCK, and TDO signal terminals of the device. The selecting and accessing of device access ports can be achieved when a single device is connected to the controller, when multiple devices are placed in a daisy-chain arrangement and connected to the controller, or when multiple devices are placed in a addressable parallel arrangement and connected to the controller. Additional embodiments are also provided and described in the disclosure. | 03-17-2011 |
20110068804 | DEVICE TEST AND DEBUG USING POWER AND GROUND TERMINALS - The present disclosure describes a novel method and apparatus for using a device's power and ground terminals as a test and/or debug interface for the device. According to the present disclosure, messages are modulated over DC voltages applied to the power terminals of a device to input test/debug messages to the device and output test/debug messages from the device. The present disclosure advantageously allows a device to be tested and/or debugged without the device having any shared or dedicated test or debug interface terminals. | 03-24-2011 |
20110068814 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 03-24-2011 |
20110072324 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 03-24-2011 |
20110072325 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 03-24-2011 |
20110078524 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 03-31-2011 |
20110087936 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An addressable interface selectively enables JTAG TAP domain operations or Trace domain operations within an IC. After being enabled, the TAP receives TMS and TDI input from a single data pin. After being enabled, the Trace domain acquires data from a functioning circuit within the IC in response to a first clock and outputs the acquired data from the IC in response to a second clock. An addressable two pin interface loads and updates instructions and data to a TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. Trace circuitry within an IC can operate autonomously to store and output functional data occurring in the IC. The store and output operations of the trace circuitry are transparent to the functional operation of the IC. An auto-addressing RAM memory stores input data at an input address generated in response to an input clock, and outputs stored data from an output address generated in response to an output clock. | 04-14-2011 |
20110087937 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 04-14-2011 |
20110087938 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. | 04-14-2011 |
20110087939 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Two common varieties of test interfaces exist for ICs and/or cores, the IEEE 1149.1 Test Access Port (TAP) interface and internal scan test ports. The TAP serves as a serial communication port for accessing a variety of circuitry including; IEEE 1149.1 boundary scan circuitry, built in self test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation/debug circuitry, and IEEE P1532 in-system programming circuitry. Internal scan test ports serve as a serial communication port for primarily accessing internal scan circuitry within ICs and cores. Today, the TAP and internal scan test ports are typically viewed as being separate test interfaces, each utilizing different IC pins and/or core terminals. The need for different IC pins and/or core terminals is overcome by an interface in accordance with the disclosure that allows the TAP and internal scan test ports to be merged so they both can co-exist and operate from the same set of IC pins and/or core terminals. Further, this interface allows merged TAP and scan test port interfaces to be selected individually or in groups. | 04-14-2011 |
20110087940 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 04-14-2011 |
20110087941 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a TAP of IEEE standard 1149.1 is allowed to commandeer control from a WSP of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 04-14-2011 |
20110099441 | ACCELERATING SCAN TEST BY RE-USING RESPONSE DATA AS STIMULUS DATA ABSTRACT - Scan testing of plural target electrical circuits, such as circuits | 04-28-2011 |
20110102013 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 05-05-2011 |
20110107163 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 05-05-2011 |
20110119540 | OPTIMIZING JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 05-19-2011 |
20110119543 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 05-19-2011 |
20110138238 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 06-09-2011 |
20110138239 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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. | 06-09-2011 |
20110145666 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 06-16-2011 |
20110145667 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 06-16-2011 |
20110154088 | FALLING CLOCK EDGE JTAG BUS ROUTERS - The disclosure describes a novel method and apparatus for allowing a controller to access a bus router using a communication occurring in response to one edge of a clock to select one or more devices for access using a communication occurring on the opposite edge of the clock. Additional embodiments are also provided and described in the disclosure. | 06-23-2011 |
20110154140 | DIRECT SCAN ACCESS JTAG - The present disclosure describes novel methods and apparatuses for directly accessing JTAG Tap domains that exist in a scan path of many serially connected JTAG Tap domains. Direct scan access to a selected Tap domain by a JTAG controller is achieved using auxiliary digital or analog terminals associated with the Tap domain and connected to the JTAG controller. During direct scan access, the auxiliary digital or analog terminals serve as serial data input and serial data output paths between the selected Tap domain and the JTAG controller. | 06-23-2011 |
20110161757 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 06-30-2011 |
20110161758 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 06-30-2011 |
20110161761 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 06-30-2011 |
20110161762 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface are provided to enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface is achieved using a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE 1500 and/or IEEE 1149.1 test circuits, to provide high test data bandwidth to the test circuits using a minimum of test interface signals. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. Additional features and embodiments of the device test architecture and reduced test interface are also disclosed. | 06-30-2011 |
20110169526 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 07-14-2011 |
20110185242 | INTERFACE TO FULL AND REDUCED PIN JTAG DEVICES - The disclosure describes a process and apparatus for accessing devices on a substrate. The substrate may include only full pin JTAG devices ( | 07-28-2011 |
20110197102 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 08-11-2011 |
20110202806 | TAM CONTROLLER CONNECTED WITH TAM AND FUNCTIONAL CORE WRAPPER CIRCUIT - A device test architecture and interface is provided to enable efficient testing embedded cores within devices. The test architecture interfaces to standard IEEE 1500 core test wrappers and provides high test data bandwidth to the wrappers from an external tester. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. The test architecture includes a selector circuit for selecting a core for testing. Additional features and embodiments of the device test architectures are also disclosed. | 08-18-2011 |
20110202807 | LOCK STATE MACHINE OPERATIONS UPON STP DATA CAPTURES AND SHIFTS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 08-18-2011 |
20110202808 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. | 08-18-2011 |
20110202811 | TEST ACCESS PORT WITH ADDRESS AND COMMAND CAPABILITY - 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. | 08-18-2011 |
20110204915 | DIE TESTING USING TOP SURFACE TEST PADS - Timely testing of die on wafer reduces the cost to manufacture ICs. This disclosure describes a die test structure and process to reduce test time by adding test pads on the top surface of the die. The added test pads allow a tester to probe and test more circuits within the die simultaneously. Also, the added test pads contribute to a reduction in the amount of test wiring overhead traditionally required to access and test circuits within a die, thus reducing die size. | 08-25-2011 |
20110209013 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 08-25-2011 |
20110209014 | HIGH SPEED INTERCONNECT CIRCUIT TEST METHOD AND APPARATUS - A Propagation Test instruction, a Decay Test instruction and a Cycle Test instruction provide testing of DC and AC interconnect circuits between circuits including JTAG boundary scan cells. A few additions to the Test Access Port circuitry, including gating producing a Capture Test Strobe (CTS) signal, and the boundary scan cells are required to implement the additional instructions. The instructions are extensions of the conventional JTAG operating structure. | 08-25-2011 |
20110209016 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110209017 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110209018 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110209019 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110209020 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 08-25-2011 |
20110209022 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110209023 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 08-25-2011 |
20110214027 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 09-01-2011 |
20110214028 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITS - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 09-01-2011 |
20110215835 | QUAD STATE LOGIC DESIGN METHODS, CIRCUITS AND SYSTEMS - Quad-state logic elements and quad-state memory elements are used to reduce the wiring density of integrated circuits. The resulting reduction in wiring interconnects between memories and logic elements results in higher speed, higher density, and lower power integrated circuit designs. | 09-08-2011 |
20110225456 | COMMANDED JTAG TEST ACCESS PORT OPERATIONS - The disclosure describes a novel method and apparatus for improving the operation of a TAP architecture in a device through the use of Command signal inputs to the TAP architecture. In response to a Command signal input, the TAP architecture can perform streamlined and uninterrupted Update, Capture and Shift operation cycles to a target circuit in the device or streamlined and uninterrupted capture and shift operation cycles to a target circuit in the device. The Command signals can be input to the TAP architecture via the devices dedicated TMS or TDI inputs or via a separate CMD input to the device. | 09-15-2011 |
20110239066 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 09-29-2011 |
20110239068 | TAM WITH SCAN FRAME COPY REGISTER COUPLED WITH SERIAL OUTPUT - Testing of an electrical device is achieved by providing a test access mechanism within the device that can receive scan frames from an external tester. The received scan frames contain stimulus data to be applied to circuitry within the device to be tested, a command for enabling a test control operation, and a frame marker bit to indicate the end of the scan frame pattern. The inputting of scan frames can occur continuously and simultaneous with a commanded test control operation. | 09-29-2011 |
20110258500 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 10-20-2011 |
20110258502 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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 circuitry, 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. | 10-20-2011 |
20110258506 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 10-20-2011 |
20110264970 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 10-27-2011 |
20110271160 | ACCELERATING SCAN TEST BY RE-USING RESPONSE DATA AS STIMULUS DATA ABSTRACT - Scan testing of plural target electrical circuits, such as circuits | 11-03-2011 |
20110273204 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 11-10-2011 |
20110276847 | SHADOW ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing a shadow access port within a device. The shadow access port is accessed to perform operations in the device by reusing the TDI, TMS, TCK and TDO signals that are used to operate a test access port within the device. The presence and operation of the shadow access port is transparent to the presence and operation of the test access port. According to the disclosure, the shadow access port operates on the falling edge of the TCK signal while the test access port conventionally operates on the rising edge of the TCK signal. | 11-10-2011 |
20110283154 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 11-17-2011 |
20110285423 | SIMULTANEOUS LVDS I/O SIGNALING METHOD AND APPARATUS - First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half. | 11-24-2011 |
20110289370 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 11-24-2011 |
20110289371 | LOW POWER SCAN AND DELAY TEST METHOD AND APPARATUS - Scan and Scan-BIST architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure improves upon low power Scan and Scan-BIST methods. The improvement allows the low power Scan and Scan-BIST architectures to achieve a delay test capability equally as effective as the delay test capabilities used in conventional scan and Scan-BIST architectures. | 11-24-2011 |
20110296263 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 12-01-2011 |
20110314348 | SCAN TESTING USING SCAN FRAMES WITH EMBEDDED COMMANDS - Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. | 12-22-2011 |
20110320897 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 12-29-2011 |
20120005546 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 01-05-2012 |
20120007622 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 01-12-2012 |
20120011410 | SCAN TEST METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing expected data, mask data, and control signals to scan test architectures within a device using the falling edge of a test/scan clock. The signals are provided on device leads that are also used to provide signals to scan test architectures using the rising edge of the test/scan clock. According to the disclosure, device test leads serve to input different test signals on the rising and falling edge of the test/scan clock which reduces the number of interconnects between a tester and the device under test. | 01-12-2012 |
20120011412 | ADDRESSABLE TEST ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for making device TAPs addressable to allow device TAPs to be accessed in a parallel arrangement without the need for having a unique TMS signal for each device TAP in the arrangement. According to the disclosure, device TAPs are addressed by inputting an address on the TDI input of devices on the falling edge of TCK. An address circuit within the device is associated with the device's TAP and responds to the address input to either enable or disable access of the device's TAP. | 01-12-2012 |
20120017129 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 01-19-2012 |
20120019280 | INTEGRATED CIRCUIT HAVING ELECTRICALLY ISOLATABLE TEST CIRCUITRY - Special test circuitry in an IC for wafer level testing selectively connects the specialized test circuitry to the functional circuitry during wafer test. Following wafer test the special test circuitry is electrically isolated from the functional circuitry and power supplies such that it does not load functional circuit signals nor consume power. | 01-26-2012 |
20120023381 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF-CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 01-26-2012 |
20120032701 | QUAD STATE LOGIC DESIGN METHODS, CIRCUITS, AND SYSTEMS - Quad-state logic elements and quad-state memory elements are used to reduce the wiring density of integrated circuits. The resulting reduction in wiring interconnects between memories and logic elements results in higher speed, higher density, and lower power integrated circuit designs. | 02-09-2012 |
20120036406 | METHOD AND APPARATUS FOR DEVICE ACCESS PORT SELECTION - The disclosure describes a novel method and apparatuses for allowing a controller to select and access different types of access ports in a device. The selecting and accessing of the access ports is achieved using only the dedicated TDI, TMS, TCK, and TDO signal terminals of the device. The selecting and accessing of device access ports can be achieved when a single device is connected to the controller, when multiple devices are placed in a daisy-chain arrangement and connected to the controller, or when multiple devices are placed in a addressable parallel arrangement and connected to the controller. Additional embodiments are also provided and described in the disclosure. | 02-09-2012 |
20120036407 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 02-09-2012 |
20120043992 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 02-23-2012 |
20120079333 | LOCK STATE MACHINE OPERATIONS UPON STP DATA CAPTURES AND SHIFTS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 03-29-2012 |
20120082279 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 04-05-2012 |
20120084613 | SCAN RESPONSE REUSE METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for allowing response data output from the scan outputs of a circuit under test to be formatted and applied as stimulus data input to the scan inputs of the circuit under test. Also the disclosure described a novel method and apparatus for allowing the response data output from the scan outputs of a circuit under test to be formatted and used as expected data to compare against the response data output from the circuit under test. Additional embodiments are also provided and described in the disclosure. | 04-05-2012 |
20120089878 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Connection circuitry couples scan test port (STP) circuitry to test access port (TAP) circuitry. The connection circuitry has inputs connected to scan circuitry control output leads from the TAP circuitry, a select input lead, and a clock input lead. The connection circuitry has outputs connected to a scan enable (SE) input lead, a capture select (CS) input lead, and the scan clock (CK) input lead of the STP circuitry. The connection circuitry includes a multiplexer having a control input connected with a clock select lead from the TAP circuitry, an input connected with a functional clock lead, an input connected with the clock input lead, an input connected with a Clock-DR lead from the TAP circuitry, an OFF lead, and an output connected with the scan clock input lead. | 04-12-2012 |
20120096324 | TEST COMPRESSION IN A JTAG DAISY-CHAIN ENVIRONMENT - The disclosure describes novel methods and apparatuses for controlling a device's TCA circuit when the device exists in a JTAG daisy-chain arrangement with other devices. The methods and apparatuses allow the TCA test pattern set used during device manufacturing to be reused when the device is placed in a JTAG daisy-chain arrangement with other devices, such as in a customers system using the device. Additional embodiments are also provided and described in the disclosure. | 04-19-2012 |
20120096325 | In or relating to 1149.1tap linking modules - Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 04-19-2012 |
20120102375 | AT-SPEED TEST ACCESS PORT OPERATIONS - This disclosure describes different ways to improve the operation of a device's 1149.1 TAP to where the TAP can perform at-speed Update & Capture, Shift & Capture and Back to Back Capture & Shift operations. In a first embodiment of the disclosure the at-speed operations are achieved by time division multiplexing CMD signals onto the TMS input to the TAP. The CMD signals are input to a CMD circuit that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a second embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR state as a CMD signal that is input to the CMD circuit that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a third embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR and PauseDR states and in response producing Capture and Update signals that are input to a Programmable Switch that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a fourth embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR and PauseDR states and inputting these states to a Dual Port Router to control the at-speed operations of a circuit. Each of the embodiments may be augmented to include externally accessible Update and Capture input signals that can be selected to allow a tester to directly control the at-speed operations of a circuit. The improvements of the disclosure are achieved without requiring any additional IC pins beyond the 4 required TAP pins, except for examples showing use of additional data input pins (TDI or WPI signals), additional data output pins (TDO or WPO signals) or examples showing use of additional control input pins (Capture and Update signals). Devices including the TAP improvements can be operated compliantly in a daisy-chain arrangement with devices that don't include the TAP improvements. | 04-26-2012 |
20120117434 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 05-10-2012 |
20120117435 | PARALLEL AND SERIAL ACCESS TO TEST COMPRESSION ARCHITECTURES - The disclosure describes novel methods and apparatuses for accessing test compression architectures (TCA) in a device using either a parallel or serial access technique. The serial access technique may be controlled by a device tester or by a JTAG controller. Further the disclosure provides an approach to access the TCA of a device when the device exists in a daisy-chain arrangement with other devices, such as in a customer's system. Additional embodiments are also provided and described in the disclosure. | 05-10-2012 |
20120124438 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 05-17-2012 |
20120144254 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF-CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 06-07-2012 |
20120144255 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 06-07-2012 |
20120159275 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a TAP of IEEE standard 1149.1 is allowed to commandeer control from a WSP of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 06-21-2012 |
20120179945 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 07-12-2012 |
20120182033 | DIE TESTING USING TOP SURFACE TEST PADS - Timely testing of die on wafer reduces the cost to manufacture ICs. This disclosure describes a die test structure and process to reduce test time by adding test pads on the top surface of the die. The added test pads allow a tester to probe and test more circuits within the die simultaneously. Also, the added test pads contribute to a reduction in the amount of test wiring overhead traditionally required to access and test circuits within a die, thus reducing die size. | 07-19-2012 |
20120185742 | TEST ACCESS PORT WITH ADDRESS AND COMMAND CAPABILITY - 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. | 07-19-2012 |
20120192022 | DIRECT SCAN ACCESS JTAG - The present disclosure describes novel methods and apparatuses for directly accessing JTAG Tap domains that exist in a scan path of many serially connected JTAG Tap domains. Direct scan access to a selected Tap domain by a JTAG controller is achieved using auxiliary digital or analog terminals associated with the Tap domain and connected to the JTAG controller. During direct scan access, the auxiliary digital or analog terminals serve as serial data input and serial data output paths between the selected Tap domain and the JTAG controller. | 07-26-2012 |
20120198295 | POSITION INDEPENDENT TEST OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 08-02-2012 |
20120198296 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 08-02-2012 |
20120204072 | LOW POWER SCAN & DELAY TEST METHOD AND APPARATUS - Scan and Scan-BIST architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure improves upon low power Scan and Scan-BIST methods. The improvement allows the low power Scan and Scan-BIST architectures to achieve a delay test capability equally as effective as the delay test capabilities used in conventional scan and Scan-BIST architectures. | 08-09-2012 |
20120204073 | IEEE 1149.1 INTERPOSER METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for improving interposers that connected stacked die assemblies to system substrates. The improvement includes the addition of IEEE 1149.1 circuitry within interposers to allow simplifying interconnect testing of digital and analog signal connections between the interposer and system substrate it is attached too. The improvement also includes the additional 1149.1 controlled circuitry that allows real time monitoring of voltage supply and ground buses in the interposer. The improvement also includes the additional of 1149.1 controlled circuitry that allows real time monitoring of functional digital and analog input and output signals in the interposer. The improvement also provides the ability to selectively serially link the 1149.1 circuitry in the interposer with 1149.1 circuitry in the die of the stack. | 08-09-2012 |
20120210182 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 08-16-2012 |
20120216087 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 08-23-2012 |
20120216090 | REDUCED SIGNALING INTERFACE METHOD AND APPARATUS - 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. | 08-23-2012 |
20120221907 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITS - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 08-30-2012 |
20120221908 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 08-30-2012 |
20120221909 | SHADOW ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing a shadow access port within a device. The shadow access port is accessed to perform operations in the device by reusing the TDI, TMS, TCK and TDO signals that are used to operate a test access port within the device. The presence and operation of the shadow access port is transparent to the presence and operation of the test access port. According to the disclosure, the shadow access port operates on the falling edge of the TCK signal while the test access port conventionally operates on the rising edge of the TCK signal. | 08-30-2012 |
20120239994 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 09-20-2012 |
20120246530 | INTERFACE TO FULL AND REDUCE PIN JTAG DEVICES - The disclosure describes a process and apparatus for accessing devices on a substrate. The substrate may include only full pin JTAG devices ( | 09-27-2012 |
20120246532 | SCAN TEST METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing expected data, mask data, and control signals to scan test architectures within a device using the falling edge of a test/scan clock. The signals are provided on device leads that are also used to provide signals to scan test architectures using the rising edge of the test/scan clock. According to the disclosure, device test leads serve to input different test signals on the rising and falling edge of the test/scan clock which reduces the number of interconnects between a tester and the device under test. | 09-27-2012 |
20120260140 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 10-11-2012 |
20120266035 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface uses a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE 1500 and/or IEEE 1149.1 test circuits, to provide high test data bandwidth to the test circuits using a minimum of test interface signals. The test architecture includes compare circuits that compare test response data within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. | 10-18-2012 |
20120278674 | INTERPOSER INSTRUMENTATION METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for improving interposers to include embedded monitoring instruments for real time monitoring digital signals, analog signals, voltage signals and temperature sensors located in the interposer. An embedded monitor trigger unit controls the starting and stopping of the real time monitoring operations. The embedded monitoring instruments are accessible via an | 11-01-2012 |
20120284578 | GATING TAP REGISTER CONTROL BUS AND AUXILIARY/WRAPPER TEST BUS - In a first embodiment a TAP | 11-08-2012 |
20120284579 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 11-08-2012 |
20120284580 | DEVICE TESTING ARCHITECTURE, METHOD, AND SYSTEM - A device test architecture and interface is provided to enable efficient testing embedded cores within devices. The test architecture interfaces to standard IEEE 1500 core test wrappers and provides high test data bandwidth to the wrappers from an external tester. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. The test architecture includes a selector circuit for selecting a core for testing. Additional features and embodiments of the device test architectures are also disclosed. | 11-08-2012 |
20120297262 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 11-22-2012 |
20120304028 | SCAN RESPONSE REUSE METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for allowing response data output from the scan outputs of a circuit under test to be formatted and applied as stimulus data input to the scan inputs of the circuit under test. Also the disclosure described a novel method and apparatus for allowing the response data output from the scan outputs of a circuit under test to be formatted and used as expected data to compare against the response data output from the circuit under test. Additional embodiments are also provided and described in the disclosure. | 11-29-2012 |
20120304029 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 11-29-2012 |
20120317451 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 12-13-2012 |
20120317452 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 12-13-2012 |
20120317453 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 12-13-2012 |
20120324304 | SCAN TESTING USING SCAN FRAMES WITH EMBEDDED COMMANDS - Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. | 12-20-2012 |
20120324305 | TESTING INTERPOSER METHOD AND APPARATUS - 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. | 12-20-2012 |
20120324306 | ADDRESSABLE TEST ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for making device TAPs addressable to allow device TAPs to be accessed in a parallel arrangement without the need for having a unique TMS signal for each device TAP in the arrangement. According to the disclosure, device TAPs are addressed by inputting an address on the TDI input of devices on the falling edge of TCK. An address circuit within the device is associated with the device's TAP and responds to the address input to either enable or disable access of the device's TAP. | 12-20-2012 |
20120331360 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 12-27-2012 |
20130019135 | TEST ACCESS PORT WITH ADDRESS AND COMMAND CAPABILITY - 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. | 01-17-2013 |
20130021055 | SCAN TESTING SYSTEM, METHOD AND APPARATUS - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 01-24-2013 |
20130024738 | METHOD AND APPARATUS FOR DEVICE ACCESS PORT SELECTION - The disclosure describes a novel method and apparatuses for allowing a controller to select and access different types of access ports in a device. The selecting and accessing of the access ports is achieved using only the dedicated TDI, TMS, TCK, and TDO signal terminals of the device. The selecting and accessing of device access ports can be achieved when a single device is connected to the controller, when multiple devices are placed in a daisy-chain arrangement and connected to the controller, or when multiple devices are placed in a addressable parallel arrangement and connected to the controller. Additional embodiments are also provided and described in the disclosure. | 01-24-2013 |
20130024739 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 01-24-2013 |
20130031435 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 01-31-2013 |
20130042159 | LOCK STATE MACHINE OPERATIONS UPON STP DATA CAPTURES AND SHIFTS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 02-14-2013 |
20130042160 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 02-14-2013 |
20130042161 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 02-14-2013 |
20130043899 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 02-21-2013 |
20130047047 | 3D STACKED DIE TEST ARCHITECTURE - This disclosure describes a test architecture that supports a common approach to testing individual die and dies in a 3D stack arrangement. The test architecture uses an improved TAP design to facilitate the testing of parallel test circuits within the die. | 02-21-2013 |
20130047048 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 02-21-2013 |
20130067291 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 03-14-2013 |
20130073915 | TEST COMPRESSION IN A JTAG DAISY-CHAIN ENVIRONMENT - The disclosure describes novel methods and apparatuses for controlling a device's TCA circuit when the device exists in a JTAG daisy-chain arrangement with other devices. The methods and apparatuses allow the TCA test pattern set used during device manufacturing to be reused when the device is placed in a JTAG daisy-chain arrangement with other devices, such as in a customers system using the device. Additional embodiments are also provided and described in the disclosure. | 03-21-2013 |
20130073916 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Connection circuitry couples scan test port (STP) circuitry to test access port (TAP) circuitry. The connection circuitry has inputs connected to scan circuitry control output leads from the TAP circuitry, a select input lead, and a clock input lead. The connection circuitry has outputs connected to a scan enable (SE) input lead, a capture select (CS) input lead, and the scan clock (CK) input lead of the STP circuitry. The connection circuitry includes a multiplexer having a control input connected with a clock select lead from the TAP circuitry, an input connected with a functional clock lead, an input connected with the clock input lead, an input connected with a Clock-DR lead from the TAP circuitry, an OFF lead, and an output connected with the scan clock input lead. | 03-21-2013 |
20130073917 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface are provided to enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface is achieved using a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE 1500 and/or IEEE 1149.1 test circuits, to provide high test data bandwidth to the test circuits using a minimum of test interface signals. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. Additional features and embodiments of the device test architecture and reduced test interface are also disclosed. | 03-21-2013 |
20130093455 | TSV TESTING METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for testing TSVs in a single die or TSV connections in a stack of die. | 04-18-2013 |
20130097466 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 04-18-2013 |
20130097467 | SCAN FRAME BASED TEST ACCESS MECHANISMS - Testing of an electrical device is achieved by providing a test access mechanism within the device that can receive scan frames from an external tester. The received scan frames contain stimulus data to be applied to circuitry within the device to be tested, a command for enabling a test control operation, and a frame marker bit to indicate the end of the scan frame pattern. The inputting of scan frames can occur continuously and simultaneous with a commanded test control operation. | 04-18-2013 |
20130097468 | LOW POWER SCAN & DELAY TEST METHOD AND APPARATUS - Scan and Scan-BIST architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure improves upon low power Scan and Scan-BIST methods. The improvement allows the low power Scan and Scan-BIST architectures to achieve a delay test capability equally as effective as the delay test capabilities used in conventional scan and Scan-BIST architectures. | 04-18-2013 |
20130103996 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITS - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 04-25-2013 |
20130124935 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 05-16-2013 |
20130124936 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 05-16-2013 |
20130139017 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 05-30-2013 |
20130145226 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 06-06-2013 |
20130151916 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF-CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 06-13-2013 |
20130151917 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 06-13-2013 |
20130153896 | SCAN TESTABLE THROUGH SILICON VIAs - 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. | 06-20-2013 |
20130159801 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 06-20-2013 |
20130179619 | TWO PIN SERIAL BUS COMMUNICATION INTERFACE AND PROCESS - A two pin communication interface bus and control circuits are used with circuit boards, integrated circuits, or embedded cores within integrated circuits. One pin carries data bi-directionally and address and instruction information from a controller to a selected port. The other pin carries a clock signal from the controller to a target port or ports in or on the desired circuit or circuits. The bus may be used for serial access to circuits where the availability of pins on ICs or terminals on cores is minimal. The bus is used for communication, such as serial communication related to the functional operation of an IC or core design, or serial communication related to test, emulation, debug, and/or trace operations of an IC or core design. | 07-11-2013 |
20130179744 | DIRECT SCAN ACCESS JTAG - The present disclosure describes novel methods and apparatuses for directly accessing JTAG Tap domains that exist in a scan path of many serially connected JTAG Tap domains. Direct scan access to a selected Tap domain by a JTAG controller is achieved using auxiliary digital or analog terminals associated with the Tap domain and connected to the JTAG controller. During direct scan access, the auxiliary digital or analog terminals serve as serial data input and serial data output paths between the selected Tap domain and the JTAG controller. | 07-11-2013 |
20130198579 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 08-01-2013 |
20130219239 | DIE STACK TEST ARCHITECTURE AND METHOD - A test control port (TCP) includes a state machine SM, an instruction register IR, data registers DRs, a gating circuit and a TDO MX. The SM inputs TCI signals and outputs control signals to the IR and to the DR. During instruction or data scans, the IR or DRs are enabled to input data from TDI and output data to the TDO MX and the top surface TDO signal. The bottom surface TCI inputs may be coupled to the top surface TCO signals via the gating circuit. The top surface TDI signal may be coupled to the bottom surface TDO signal via TDO MX. This allows concatenating or daisy-chaining the IR and DR of a TCP of a lower die with an IR and DR of a TCP of a die stacked on top of the lower die. | 08-22-2013 |
20130227363 | OPTIMIZED JTAG INTERFACE - An optimized JTAG interface is used to access JTAG Tap Domains within an integrated circuit. The interface requires fewer pins than the conventional JTAG interface and is thus more applicable than conventional JTAG interfaces on an integrated circuit where the availability of pins is limited. The interface may be used for a variety of serial communication operations such as, but not limited to, serial communication related integrated circuit test, emulation, debug, and/or trace operations. | 08-29-2013 |
20130227364 | DEVICE TESTING ARCHITECTURE, METHOD, AND SYSTEM - A device test architecture and interface is provided to enable efficient testing embedded cores within devices. The test architecture interfaces to standard IEEE 1500 core test wrappers and provides high test data bandwidth to the wrappers from an external tester. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. The test architecture includes a selector circuit for selecting a core for testing. Additional features and embodiments of the device test architectures are also disclosed. | 08-29-2013 |
20130227513 | GATING TAP REGISTER CONTROL BUS AND AUXILIARY/WRAPPER TEST BUS - In a first embodiment a TAP | 08-29-2013 |
20130232387 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 09-05-2013 |
20130232388 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 09-05-2013 |
20130238949 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 09-12-2013 |
20130246870 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface are provided to enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface is achieved using a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE 1500 and/or IEEE 1149.1 test circuits, to provide high test data bandwidth to the test circuits using a minimum of test interface signals. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. Additional features and embodiments of the device test architecture and reduced test interface are also disclosed. | 09-19-2013 |
20130246871 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 09-19-2013 |
20130246872 | LOCK STATE MACHINE OPERATIONS UPON STP DATA CAPTURES AND SHIFTS - A process of selecting alternative test circuitry within an integrated circuit enables a test access port. Scan test instruction data is loaded into an instruction register of a test access port TAP, the instruction data including information for selecting the alternative test circuitry. An Update-IR instruction update operation is performed at the end of the loading to output scan test control signals from the instruction register. A lockout signal is changed to an active state to disable the test access port and enable scan test circuits. | 09-19-2013 |
20130246873 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 09-19-2013 |
20130246874 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 09-19-2013 |
20130248864 | DIE TESTING USING TOP SURFACE TEST PADS - Timely testing of die on wafer reduces the cost to manufacture ICs. This disclosure describes a die test structure and process to reduce test time by adding test pads on the top surface of the die. The added test pads allow a tester to probe and test more circuits within the die simultaneously. Also, the added test pads contribute to a reduction in the amount of test wiring overhead traditionally required to access and test circuits within a die, thus reducing die size. | 09-26-2013 |
20130249590 | TSV Testing Using Test Circuits and Grounding Means - This disclosure describes a novel method and apparatus for testing TSVs within a semiconductor device. According to embodiments illustrated and described in the disclosure, a TSV may be tested by stimulating and measuring a response from a first end of a TSV while the second end of the TSV held at ground potential. Multiple TSVs within the semiconductor device may be tested in parallel to reduce the TSV testing time according to the disclosure. | 09-26-2013 |
20130254605 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 09-26-2013 |
20130254606 | METHOD AND APPARATUS FOR DEVICE ACCESS PORT SELECTION - The disclosure describes a novel method and apparatuses for allowing a controller to select and access different types of access ports in a device. The selecting and accessing of the access ports is achieved using only the dedicated TDI, TMS, TCK, and TDO signal terminals of the device. The selecting and accessing of device access ports can be achieved when a single device is connected to the controller, when multiple devices are placed in a daisy-chain arrangement and connected to the controller, or when multiple devices are placed in a addressable parallel arrangement and connected to the controller. Additional embodiments are also provided and described in the disclosure. | 09-26-2013 |
20130254607 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 09-26-2013 |
20130254608 | IEEE 1149.1 AND P1500 TEST INTERFACES COMBINED CIRCUITS AND PROCESSES - In a first embodiment a Test Access Port (TAP) of IEEE standard 1149.1 is allowed to commandeer control from a Wrapper Serial Port (WSP) of IEEE standard P1500 such that the P1500 architecture, normally controlled by the WSP, is rendered controllable by the TAP. In a second embodiment (1) the TAP and WSP based architectures are merged together such that the sharing of the previously described architectural elements are possible, and (2) the TAP and WSP test interfaces are merged into a single optimized test interface that is operable to perform all operations of each separate test interface. One approach provides for the TAP to maintain access and control of the TAP instruction register, but provides for a selected data register to be accessed and controlled by either the TAP+ATC (Auxiliary Test Control bus) or by the discrete CaptureDR, UpdateDR, TransferDR, ShiftDR, and ClockDR WSP data register control signals. | 09-26-2013 |
20130254610 | Interconnections for Plural and Hierarchical P1500 Test Wrappers - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 09-26-2013 |
20130268816 | Interconnections for Plural and Hierarchical P1500 Test Wrappers - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores.—The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 10-10-2013 |
20130275825 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 10-17-2013 |
20130275826 | Interconnections for Plural and Hierarchical P1500 Test Wrappers - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores. The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 10-17-2013 |
20130278288 | IC OUTPUT SIGNAL PATH WITH SWITCH, BUS HOLDER, AND BUFFER - An electronic integrated circuit includes a signal path connected between the functional logic ( | 10-24-2013 |
20130285701 | SIMULTANEOUS LVDS I/O SIGNALING METHOD AND APPARATUS - First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half. | 10-31-2013 |
20130290800 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. | 10-31-2013 |
20130290801 | SCAN RESPONSE REUSE METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for allowing response data output from the scan outputs of a circuit under test to be formatted and applied as stimulus data input to the scan inputs of the circuit under test. Also the disclosure described a novel method and apparatus for allowing the response data output from the scan outputs of a circuit under test to be formatted and used as expected data to compare against the response data output from the circuit under test. Additional embodiments are also provided and described in the disclosure. | 10-31-2013 |
20130300443 | MODULATED TEST MESSAGING FROM DEDICATED TEST CIRCUITRY TO POWER TERMINAL - The present disclosure describes a novel method and apparatus for using a device's power and ground terminals as a test and/or debug interface for the device. According to the present disclosure, messages are modulated over DC voltages applied to the power terminals of a device to input test/debug messages to the device and output test/debug messages from the device. The present disclosure advantageously allows a device to be tested and/or debugged without the device having any shared or dedicated test or debug interface terminals. | 11-14-2013 |
20130305108 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 11-14-2013 |
20130305109 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITS - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 11-14-2013 |
20130305110 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. In a fifth aspect of the present disclosure, an interface select circuit, FIGS. | 11-14-2013 |
20130311842 | TEST COMPRESSION IN A JTAG DAISY-CHAIN ENVIRONMENT - The disclosure describes novel methods and apparatuses for controlling a device's TCA circuit when the device exists in a JTAG daisy-chain arrangement with other devices. The methods and apparatuses allow the TCA test pattern set used during device manufacturing to be reused when the device is placed in a JTAG daisy-chain arrangement with other devices, such as in a customers system using the device. Additional embodiments are also provided and described in the disclosure. | 11-21-2013 |
20130318409 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 11-28-2013 |
20130318411 | SCAN TEST METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing expected data, mask data, and control signals to scan test architectures within a device using the falling edge of a test/scan clock. The signals are provided on device leads that are also used to provide signals to scan test architectures using the rising edge of the test/scan clock. According to the disclosure, device test leads serve to input different test signals on the rising and falling edge of the test/scan clock which reduces the number of interconnects between a tester and the device under test. | 11-28-2013 |
20130318412 | TEST ACCESS PORT WITH ADDRESS AND COMMAND CAPABILITY - 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. | 11-28-2013 |
20130318413 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Connection circuitry couples scan test port (STP) circuitry to test access port (TAP) circuitry. The connection circuitry has inputs connected to scan circuitry control output leads from the TAP circuitry, a select input lead, and a clock input lead. The connection circuitry has outputs connected to a scan enable (SE) input lead, a capture select (CS) input lead, and the scan clock (CK) input lead of the STP circuitry. The connection circuitry includes a multiplexer having a control input connected with a clock select lead from the TAP circuitry, an input connected with a functional clock lead, an input connected with the clock input lead, an input connected with a Clock-DR lead from the TAP circuitry, an OFF lead, and an output connected with the scan clock input lead. | 11-28-2013 |
20130326298 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 12-05-2013 |
20130339773 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 12-19-2013 |
20140013174 | IEEE 1149.1 INTERPOSER METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for improving interposers that connected stacked die assemblies to system substrates. The improvement includes the addition of IEEE 1149.1 circuitry within interposers to allow simplifying interconnect testing of digital and analog signal connections between the interposer and system substrate it is attached too. The improvement also includes the additional 1149.1 controlled circuitry that allows real time monitoring of voltage supply and ground buses in the interposer. The improvement also includes the additional of 1149.1 controlled circuitry that allows real time monitoring of functional digital and analog input and output signals in the interposer. The improvement also provides the ability to selectively serially link the 1149.1 circuitry in the interposer with 1149.1 circuitry in the die of the stack. | 01-09-2014 |
20140013175 | PARALLEL AND SERIAL ACCESS TO TEST COMPRESSION ARCHITECTURES - The disclosure describes novel methods and apparatuses for accessing test compression architectures (TCA) in a device using either a parallel or serial access technique. The serial access technique may be controlled by a device tester or by a JTAG controller. Further the disclosure provides an approach to access the TCA of a device when the device exists in a daisy-chain arrangement with other devices, such as in a customer's system. Additional embodiments are also provided and described in the disclosure. | 01-09-2014 |
20140013176 | ADAPTING SCAN-BIST ARCHITECTURES FOR LOW POWER OPERATION - A Scan-BIST architecture is adapted into a low power Scan-BIST architecture. A generator | 01-09-2014 |
20140026007 | COMMANDED JTAG TEST ACCESS PORT OPERATIONS - The disclosure describes a novel method and apparatus for improving the operation of a TAP architecture in a device through the use of Command signal inputs to the TAP architecture. In response to a Command signal input, the TAP architecture can perform streamlined and uninterrupted Update, Capture and Shift operation cycles to a target circuit in the device or streamlined and uninterrupted capture and shift operation cycles to a target circuit in the device. The Command signals can be input to the TAP architecture via the devices dedicated TMS or TDI inputs or via a separate CMD input to the device. | 01-23-2014 |
20140040689 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 02-06-2014 |
20140040690 | REMOVABLE AND REPLACEABLE TAP DOMAIN SELECTION CIRCUITRY - Today many instances of IEEE 1149.1 Tap domains are included in integrated circuits (ICs). While all TAP domains may be serially connected on a scan path that is accessible external to the IC, it is generally preferred to have selectivity on which Tap domain or Tap domains are accessed. Therefore Tap domain selection circuitry may be included in ICs and placed in the scan path along with the Tap domains. Ideally, the Tap domain selection circuitry should only be present in the scan path when it is necessary to modify which Tap domains are selected in the scan path. The present disclosure describes a novel method and apparatus which allows the Tap domain selection circuitry to be removed from the scan path after it has been used to select Tap domains and to be replaced back into the scan path when it is necessary to select different Tap domains. | 02-06-2014 |
20140040691 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 02-06-2014 |
20140047294 | LOW POWER TESTING OF VERY LARGE CIRCUITS - Plural scan test paths ( | 02-13-2014 |
20140055158 | Integrated Circuit Die Having Input and Output Circuit Pads, Test Circuitry, and Multiplex Circuitry - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 02-27-2014 |
20140056384 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 02-27-2014 |
20140068363 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 03-06-2014 |
20140075254 | SCAN TESTING USING SCAN FRAMES WITH EMBEDDED COMMANDS - Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. | 03-13-2014 |
20140082441 | 3D TAP AND SCAN PORT ARCHITECTURES - 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. | 03-20-2014 |
20140082442 | GATING TAP REGISTER CONTROL BUS AND AUXILIARY/WRAPPER TEST BUS - In a first embodiment a TAP | 03-20-2014 |
20140082443 | ACCELERATING SCAN TEST BY RE-USING RESPONSE DATA AS STIMULUS DATA ABSTRACT - Scan testing of plural target electrical circuits, such as circuits | 03-20-2014 |
20140082444 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 03-20-2014 |
20140082445 | PROBELESS TESTING OF PAD BUFFERS ON WAFER - The peripheral circuitry ( | 03-20-2014 |
20140095950 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 04-03-2014 |
20140095952 | ADAPTING SCAN ARCHITECTURES FOR LOW POWER OPERATION - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 04-03-2014 |
20140101502 | FALLING CLOCK EDGE JTAG BUS ROUTERS - The disclosure describes a novel method and apparatus for allowing a controller to access a bus router using a communication occurring in response to one edge of a clock to select one or more devices for access using a communication occurring on the opposite edge of the clock. Additional embodiments are also provided and described in the disclosure. | 04-10-2014 |
20140101504 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 04-10-2014 |
20140122763 | TWO PIN SERIAL BUS COMMUNICATION INTERFACE AND PROCESS - A two pin communication interface bus and control circuits are used with circuit boards, integrated circuits, or embedded cores within integrated circuits. One pin carries data bi-directionally and address and instruction information from a controller to a selected port. The other pin carries a clock signal from the controller to a target port or ports in or on the desired circuit or circuits. The bus may be used for serial access to circuits where the availability of pins on ICs or terminals on cores is minimal. The bus is used for communication, such as serial communication related to the functional operation of an IC or core design, or serial communication related to test, emulation, debug, and/or trace operations of an IC or core design. | 05-01-2014 |
20140122954 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 05-01-2014 |
20140129886 | BOUNDARY SCAN PATH METHOD AND SYSTEM WITH FUNCTIONAL AND NON-FUNCTIONAL SCAN CELL MEMORIES - An integrated circuit or circuit board includes functional circuitry and a scan path. The scan path includes a test data input lead, a test data output lead, a multiplexer, and scan cells. A dedicated scan cell has a functional data output separate from a test data output. Shared scan cells each have a combined output for functional data and test data. The shared scan cells are coupled in series. The test data input of the first shared scan cell is connected to the test data output of the dedicated scan cell. The combined output of one shared scan cell is coupled to the test data input lead of another shared scan cell. The multiplexer has an input coupled to the test data output, an input connected to the combined output lead of the last shared scan cell in the series, and an output connected in the scan path. | 05-08-2014 |
20140136913 | DUAL MODE TEST ACCESS PORT METHOD AND APPARATUS - Connection circuitry couples scan test port (STP) circuitry to test access port (TAP) circuitry. The connection circuitry has inputs connected to scan circuitry control output leads from the TAP circuitry, a select input lead, and a clock input lead. The connection circuitry has outputs connected to a scan enable (SE) input lead, a capture select (CS) input lead, and the scan clock (CK) input lead of the STP circuitry. The connection circuitry includes a multiplexer having a control input connected with a clock select lead from the TAP circuitry, an input connected with a functional clock lead, an input connected with the clock input lead, an input connected with a Clock-DR lead from the TAP circuitry, an OFF lead, and an output connected with the scan clock input lead. | 05-15-2014 |
20140143622 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 05-22-2014 |
20140157070 | SELECTIVELY ACCESSING TEST ACCESS PORTS IN A MULTIPLE TEST ACCESS PORT ENVIRONMENT - A TAP linking module ( | 06-05-2014 |
20140157071 | LOW POWER SCAN & DELAY TEST METHOD AND APPARATUS - Scan and Scan-BIST architectures are commonly used to test digital circuitry in integrated circuits. The present disclosure improves upon low power Scan and Scan-BIST methods. The improvement allows the low power Scan and Scan-BIST architectures to achieve a delay test capability equally as effective as the delay test capabilities used in conventional scan and Scan-BIST architectures. | 06-05-2014 |
20140164838 | AT-SPEED TEST ACCESS PORT OPERATIONS - This disclosure describes different ways to improve the operation of a device's 1149.1 TAP to where the TAP can perform at-speed Update & Capture, Shift & Capture and Back to Back Capture & Shift operations. In a first embodiment of the disclosure the at-speed operations are achieved by time division multiplexing CMD signals onto the TMS input to the TAP. The CMD signals are input to a CMD circuit that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a second embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR state as a CMD signal that is input to the CMD circuit that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a third embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR and PauseDR states and in response producing Capture and Update signals that are input to a Programmable Switch that operates in conjunction with a Dual Port Router to execute the at-speed operations of a circuit. In a fourth embodiment of the disclosure the at-speed operations are achieved by detecting the TAP's Exit1DR and PauseDR states and inputting these states to a Dual Port Router to control the at-speed operations of a circuit. Each of the embodiments may be augmented to include externally accessible Update and Capture input signals that can be selected to allow a tester to directly control the at-speed operations of a circuit. The improvements of the disclosure are achieved without requiring any additional IC pins beyond the 4 required TAP pins, except for examples showing use of additional data input pins (TDI or WPI signals), additional data output pins (TDO or WPO signals) or examples showing use of additional control input pins (Capture and Update signals). Devices including the TAP improvements can be operated compliantly in a daisy-chain arrangement with devices that don't include the TAP improvements. | 06-12-2014 |
20140167792 | SCAN TESTING SYSTEM, METHOD AND APPARATUS - Test circuits located on semiconductor die enable a tester to test a plurality of die/ICs in parallel by inputting both stimulus and response patterns to the plurality of die/ICs. The response patterns from the tester are input to the test circuits along with the output response of the die/IC to be compared. Also disclosed is the use of a response signal encoding scheme whereby the tester transmits response test commands to the test circuits, using a single signal per test circuit, to perform: (1) a compare die/IC output against an expected logic high, (2) a compare die/IC output against an expected logic low, and (3) a mask compare operation. The use of the signal encoding scheme allows functional testing of die and ICs since all response test commands (i.e. 1-3 above) required at each die/IC output can be transmitted to each die/IC output using only a single tester signal connection per die/IC output. In addition to functional testing, scan testing of die and ICs is also possible. | 06-19-2014 |
20140181606 | DIRECT SCAN ACCESS JTAG - The present disclosure describes novel methods and apparatuses for directly accessing JTAG Tap domains that exist in a scan path of many serially connected JTAG Tap domains. Direct scan access to a selected Tap domain by a JTAG controller is achieved using auxiliary digital or analog terminals associated with the Tap domain and connected to the JTAG controller. During direct scan access, the auxiliary digital or analog terminals serve as serial data input and serial data output paths between the selected Tap domain and the JTAG controller. | 06-26-2014 |
20140181607 | LOCK STATE MACHINE OPERATIONS UPON STP DATA CAPTURES AND SHIFTS - Operating a state machine includes enabling operation of the state machine upon receiving a signal indicating a change from operation of a test access port to a scan test port. The process maintains the state machine in an IDLE 1 state while receiving a scan test port capture signal and transitions the state machine to an IDLE 2 state when receiving a scan test port shift signal. The process then transitions the state machine to a SEQUENCE 1 state, then to a SEQUENCE 2 state, and then to a SEQUENCE 3 state when receiving sequential scan test port capture signals. The state machine then transitions to an UNLOCK TAP state and then back to the IDLE 1 state when receiving sequential scan test port shift signals on the test mode select/capture select lead. | 06-26-2014 |
20140181608 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 06-26-2014 |
20140181609 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 06-26-2014 |
20140195869 | SERIAL I/O USING JTAG TCK AND TMS SIGNALS - The present disclosure describes a novel method and apparatus of using the JTAG TAP's TMS and TCK terminals as a general purpose serial Input/Output (I/O) bus. According to the present disclosure, the TAP's TMS terminal is used as a clock signal and the TCK terminal is used as a bidirectional data signal to allow serial communication to occur between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. | 07-10-2014 |
20140215282 | 1149.1 TAP LINKING MODULES - IEEE 1149.1 Test Access Ports (TAPs) may be utilized at both IC and intellectual property core design levels. TAPs serve as serial communication ports for accessing a variety of embedded circuitry within ICs and cores including; IEEE 1149.1 boundary scan circuitry, built in test circuitry, internal scan circuitry, IEEE 1149.4 mixed signal test circuitry, IEEE P5001 in-circuit emulation circuitry, and IEEE P1532 in-system programming circuitry. Selectable access to TAPs within ICs is desirable since in many instances being able to access only the desired TAP(s) leads to improvements in the way testing, emulation, and programming may be performed within an IC. A TAP linking module is described that allows TAPs embedded within an IC to be selectively accessed using 1149.1 instruction scan operations. | 07-31-2014 |
20140215283 | INTEGRATED CIRCUIT WITH JTAG PORT, TAP LINKING MODULE, AND OFF-CHIP TAP INTERFACE PORT - An IC includes an IEEE 1149.1 standard test access port (TAP) interface and an additional Off-Chip TAP interface. The Off-Chip TAP interface connects to the TAP of another IC. The Off Chip TAP interface can be selected by a TAP Linking Module on the IC. | 07-31-2014 |
20140237309 | INTERCONNECTIONS FOR PLURAL AND HIERARCHICAL P1500 TEST WRAPPERS - A test architecture accesses IP core test wrappers within an IC using a Link Instruction Register (LIR). An IEEE P1500 standard is in development for providing test access to these individual cores via a test structure called a wrapper. The wrapper resides at the boundary of the core and provides a way to test the core and the interconnections between cores.—The test architecture enables each of the plural wrappers in the IC, including wrappers in cores embedded within other cores, with separate enable signals. | 08-21-2014 |
20140245090 | PARALLEL SCAN DISTRIBUTORS AND COLLECTORS AND PROCESS OF TESTING INTEGRATED CIRCUITS - An integrated circuit ( | 08-28-2014 |
20140250342 | AUTOMATABLE SCAN PARTITIONING FOR LOW POWER USING EXTERNAL CONTROL - Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of circuits (such as DSP or CPU core circuits) embedded in an IC/die to be tested in parallel without consuming too much power within the IC/die. Since the low power scan architecture reduces test power consumption, it is possible to simultaneously test more die on a wafer than previously possible using conventional scan architectures. This allows wafer test times to be reduced which reduces the manufacturing cost of each die on the wafer. | 09-04-2014 |
20140258799 | IP CORE DESIGN SUPPORTING USER-ADDED SCAN REGISTER OPTION - An integrated circuit carries an intellectual property core. The intellectual property core includes a test access port | 09-11-2014 |
20140289577 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 09-25-2014 |
20140304563 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 10-09-2014 |
20140304564 | SCAN FRAME BASED TEST ACCESS MECHANISMS - Testing of an electrical device is achieved by providing a test access mechanism within the device that can receive scan frames from an external tester. The received scan frames contain stimulus data to be applied to circuitry within the device to be tested, a command for enabling a test control operation, and a frame marker bit to indicate the end of the scan frame pattern. The inputting of scan frames can occur continuously and simultaneous with a commanded test control operation. | 10-09-2014 |
20140334581 | PLURAL CIRCUIT SELECTION USING ROLE REVERSING CONTROL INPUTS - Data is communicated through two separate circuits or circuit groups, each having clock and mode inputs, by sequentially reversing the role of the clock and mode inputs. The data communication circuits have data inputs, data outputs, a clock input for timing or synchronizing the data input and/or output communication, and a mode input for controlling the data input and/or output communication. A clock/mode signal connects to the clock input of one circuit and to the mode input of the other circuit. A mode/clock signal connects to the mode input of the one circuit and to the clock input of the other circuit. The role of the mode and clock signals on the mode/clock and clock/mode signals, or their reversal, selects one or the other of the data communication circuits. | 11-13-2014 |
20140337679 | JTAG BUS COMMUNICATION METHOD AND APPARATUS - The present disclosure describes using the JTAG Tap's TMS and/or TCK terminals as general purpose serial Input/Output (I/O) Manchester coded communication terminals. The Tap's TMS and/or TCK terminal can be used as a serial I/O communication channel between; (1) an IC and an external controller, (2) between a first and second IC, or (3) between a first and second core circuit within an IC. The use of the TMS and/or TCK terminal as serial I/O channels, as described, does not effect the standardized operation of the JTAG Tap, since the TMS and/or TCK I/O operations occur while the Tap is placed in a non-active steady state. | 11-13-2014 |
20140351665 | INTERFACE TO FULL AND REDUCED PIN JTAG DEVICES - The disclosure describes a process and apparatus for accessing devices on a substrate. The substrate may include only full pin JTAG devices ( | 11-27-2014 |
20140359387 | TAP AND LINKING MODULE FOR SCAN ACCESS OF MULTIPLE CORES WITH IEEE 1149.1 TEST ACCESS PORTS - An architecture for testing a plurality of circuits on an integrated circuit is described. The architecture includes a TAP Linking Module located between test pins on the integrated circuit and 1149.1 Test Access Ports (TAP) of the plurality of circuits to be tested. The TAP Linking Module operates in response to 1149.1 scan operations from a tester connected to the test pins to selectively switch between 1149.1 TAPs to enable test access between the tester and plurality of circuits. The TAP Linking Module's 1149.1 TAP switching operation is based upon augmenting 1149.1 instruction patterns to affix an additional bit or bits of information which is used by the TAP Linking Module for performing the TAP switching operation. | 12-04-2014 |
20140359388 | CORE CIRCUIT TEST ARCHITECTURE - A scan test architecture facilitates low power testing of semiconductor circuits by selectively dividing the serial scan paths into shorter sections. Multiplexers between the sections control connecting the sections into longer or shorted paths. Select and enable signals control the operation of the scan path sections. The output of each scan path passes through a multiplexer to compare circuits on the semiconductor substrate. The compare circuits also receive expected data and mask data. The compare circuits provide a fail flag output from the semiconductor substrate. | 12-04-2014 |
20150019928 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 01-15-2015 |
20150026533 | WAFER SCALE TESTING USING A 2 SIGNAL JTAG INTERFACE - 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. | 01-22-2015 |
20150026534 | INTERPOSER INSTRUMENTATION METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for improving interposers to include embedded monitoring instruments for real time monitoring digital signals, analog signals, voltage signals and temperature sensors located in the interposer. An embedded monitor trigger unit controls the starting and stopping of the real time monitoring operations. The embedded monitoring instruments are accessible via an 1149.1 TAP interface on the interposer. | 01-22-2015 |
20150033088 | REDUCED SIGNALING INTERFACE METHOD & APPARATUS - 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. | 01-29-2015 |
20150052412 | SELECTABLE JTAG OR TRACE ACCESS WITH DATA STORE AND OUTPUT - An address and command port interface selectively enables JTAG TAP domain operations and Trace domain operations within an IC. The port carries TMS and TDI input and TDO output on a single pin and receives a clock signal on a separate pin. The addressable two pin interface loads and updates instructions and data to the TAP domain within the IC. The instruction or data update operations in multiple ICs occur simultaneously. A process transmits data from an addressed target device to a controller using data frames, each data frame comprising a header bit and data bits. The logic level of the header bit is used to start, continue, and stop the data transmission to the controller. A data and clock signal interface between a controller and multiple target devices provides for each target device to be individually addressed and commanded to perform a JTAG or Trace operation. | 02-19-2015 |
20150058689 | HIGH SPEED DOUBLE DATA RATE JTAG INTERFACE - A process and apparatus provide a JTAG TAP controller ( | 02-26-2015 |
20150067427 | GATING TAP REGISTER CONTROL BUS AND AUXILIARY/WRAPPER TEST BUS - In a first embodiment a TAP | 03-05-2015 |
20150074479 | METHOD AND APPARATUS FOR TEST CONNECTIVITY, COMMUNICATION, AND CONTROL - Functional circuits and cores of circuits are tested on integrated circuits using scan paths. Using parallel scan distributor and collector circuits for these scan paths improves test access of circuits and cores embedded within ICs and reduces the IC's power consumption during scan testing. A controller for the distributor and collector circuits includes a test control register, a test control state machine and a multiplexer. These test circuits can be connected in a hierarchy or in parallel. A conventional test access port or TAP can be modified to work with the disclosed test circuits. | 03-12-2015 |
20150082110 | 3D STACKED DIE TEST ARCHITECTURE - This disclosure describes a test architecture that supports a common approach to testing individual die and dies in a 3D stack arrangement. The test architecture uses an improved TAP design to facilitate the testing of parallel test circuits within the die. | 03-19-2015 |
20150089313 | HIERARCHICAL ACCESS OF TEST ACCESS PORTS IN EMBEDDED CORE INTEGRATED CIRCUITSGB - An integrated circuit can have plural core circuits, each having a test access port that is defined in IEEE standard 1149.1. Access to and control of these ports is though a test linking module. The test access ports on an integrated circuit can be arranged in a hierarchy with one test linking module controlling access to plural secondary test linking modules and test access ports. Each secondary test linking module in turn can also control access to tertiary test linking modules and test access ports. The test linking modules can also be used for emulation. | 03-26-2015 |
20150089314 | POSITION INDEPENDENT TESTING OF CIRCUITS - Scan distributor, collector, and controller circuitry connect to the functional inputs and outputs of core circuitry on integrated circuits to provide testing through those functional inputs and outputs. Multiplexer and demultiplexer circuits select between the scan circuitry and the functional inputs and outputs. The core circuitry can also be provided with built-in scan distributor, collector, and controller circuitry to avoid having to add it external of the core circuitry. With appropriately placed built-in scan distributor and collector circuits, connecting together the functional inputs and outputs of the core circuitry also connects together the scan distributor and collector circuitry in each core. This can provide a hierarchy of scan circuitry and reduce the need for separate test interconnects and multiplexers. | 03-26-2015 |