Class / Patent application number | Description | Number of patent applications / Date published |
714744000 | Clock or synchronization | 24 |
20080215946 | SEMICONDUCTOR INTEGRATED CIRCUIT AND MEMORY TEST METHOD - A semiconductor integrated circuit is provided which is capable of testing a high-speed memory at the actual operation speed of the memory, even when the operation speed of the built-in self-test circuit of the integrated circuit is restricted. In order to test a memory operating on a first clock, the integrated circuit is provided with a first test pattern generation section, operating on a second clock, for generating test data, and a second test pattern generation section, operating on a third clock, the inverted clock of the second clock, for generating test data. Furthermore, the integrated circuit is provided with a test data selection section for selectively outputting either the test data output from the first test pattern generation section or the test data output from the second test pattern generation section depending on the signal value of the second clock, thereby inputting the test data to the memory as test data. The frequency of the second clock is lower than, for example, one quarter or one half, the frequency of the first clock. | 09-04-2008 |
20080313517 | DEBUG CIRCUIT - The present invention provide a debug circuit which has a structure in which a conversion block latches plural internal signals which are supposed to be effective in finding a cause of a malfunction and are outputted from a selection block, using a signal that is outputted from a timing generation block, converts these signals into serial data, and outputs the serial data to an output block, thereby observing plural signals in the LSI using fewer external pins, and performing analysis of the malfunction of the LSI speedy and reliably. | 12-18-2008 |
20090037788 | Shrink Test Mode to Identify Nth Order Speed Paths - In one embodiment, an integrated circuit comprises first circuitry; a first clock generator coupled to supply a first clock to the first circuitry, and a control unit coupled to the first clock generator. The first clock generator is coupled to receive an input clock to the integrated circuit and is configured to generate the first clock. The control unit is also coupled to receive a trigger input to the integrated circuit. During a test of the integrated circuit, the control unit is configured to cause the first clock generator to generate the first clock at a first clock frequency, The control unit is configured to cause the first clock generator to generate the first clock at a second frequency greater than the first clock frequency for at least one clock cycle responsive to an assertion of the trigger input. | 02-05-2009 |
20090055699 | SEMICONDUCTOR TEST APPARATUS - To provide a semiconductor test apparatus which is capable of adjusting skew efficiently with sufficient operational convenience. The semiconductor test apparatus tests a semiconductor device based on a signal obtained by applying a test signal to the semiconductor device, and includes a driver pin block. The driver pin block is provided with: a plurality of drivers which generate the test signal; at least one adjustment comparator which is connected to output terminals of the drivers and which is used for adjusting timings of the drivers; and a reference signal input terminal to which a reference signal for adjusting a timing of the adjustment comparator is input. | 02-26-2009 |
20090077442 | Shift register, data line driving circuit, scanning line driving circuit, electro-optical device, and electronic apparatus - To reduce a circuit area of a data line driving circuit. The data line driving circuit includes a plurality of circuit blocks. A circuit block has shift register unit circuits, logical operation unit circuits and a control unit circuit. The control unit circuit specifies the operation period of the corresponding circuit block on the basis of the input and output signals of the shift register unit circuits and supplies a clock signal and an inverted clock signal to the shift register unit circuit. | 03-19-2009 |
20090132884 | TIMING GENERATOR AND SEMICONDUCTOR TESTING APPARATUS - A timing generator that needs no analog circuit for adding jitters and allows the circuit scale and power consumption to be reduced. There are included a counter for performing a counting operation synchronized with a reference clock signal: a timing memory for outputting respective data corresponding to the quotient and remainder resulting from dividing the time from the front of a basic period until a generation of a timing edge by the period of the reference clock signal: a coincidence detecting circuit for outputting a signal that exhibits a high level when the count value of the counter coincides with the quotient: a jitter generating circuit for outputting as a jitter amplitude value: adders for adding a time corresponding to the remainder and a time represented by the jitter amplitude value outputted from the jitter generating circuit: and a variable delay circuit for delaying the output signal from the coincidence detecting circuit by the time represented by the addition result of the adders and outputting the delayed output signal. | 05-21-2009 |
20090183046 | Programmable Test Clock Generation Responsive to Clock Signal Characterization - Disclosed are, inter alia, methods, apparatus, mechanisms, and means for characterizing a clock signal within an application-specific integrated circuit (ASIC), and then, also on the ASIC, generating a testing clock signal based on the characterization of the operative clock signal for testing purposes. An ASIC includes a clock signal characterization circuit configured to characterize a clock signal within the ASIC; and a programmable testing clock signal generator configured for being programmed based on said characterization of the clock signal, and for generating a test clock signal based on its said programming. | 07-16-2009 |
20100011267 | MULTI-STROBE CIRCUIT - A multi-strobe circuit that latches a signal to be tested, an evaluation target, at each edge timing of a multi-strobe signal having a plurality of edges. An oscillator oscillates at a predetermined frequency in synchronization with a reference strobe signal. A latch circuit latches the signal to be tested at an edge timing of an output signal of the oscillator. A gate circuit is provided between a clock terminal of the latch circuit and the oscillator, and makes the output signal of the oscillator pass therethrough for a predetermined period. A clock transfer circuit loads the output signal of the latch circuit at an edge timing of the output signal of the oscillator and performs retiming on the output signal of the latch circuit by using a reference clock. | 01-14-2010 |
20100037111 | METHOD AND APPARATUS FOR TESTING DELAY FAULTS - An apparatus or method for testing of a SOC processor device may minimize interference that is caused by interfacing a comparatively low-speed testing device with the high-speed processor during testing. Implementations may gate the input clock signal at the clock input to each domain of the SOC processor device rather than at the output of the PLL clock. The gating of the clock signal to each domain may then be controlled by clock stop signals generated by the testing device and sent to the individual domains of the processor device. Gating the clock signal at the domain may provide a more natural state for the circuit during testing as well as allow the test control unit to test the different domains of the SOC device individually. | 02-11-2010 |
20100077271 | Method of achieving convergence of hold time error, device and program therefor - A method that achieves convergence of a hold time error in a relatively easy way without causing a setup time error even when the hold time error occurs in a large circuit, a device and a computer-readable storage medium storing a program therefor are provided. Group a first error path and a second error path in error paths which a hold time error occurs if there is a sharing path that shares its start point with the first error path and also shares its end point with the second error path, and insert a delay element without causing a setup time error per the grouped error paths. Convergence of a hold time error can be achieved without taking into account of a node that is not included in the group and there is no worry about causing a setup time error in a path that is not included in the group. | 03-25-2010 |
20100223520 | Error Detection in an Integrated Circuit - An electronic device includes an integrated circuit operating on the basis of an operating clock signal, an error detection circuit and a control circuit coupled to the error detection circuit. The control circuit is configured to increase the frequency of the operating clock signal starting from a nominal operating frequency of the integrated circuit, to evaluate a frequency increment at which an error is detected by the error detection circuit, and to reset the frequency of the operating clock signal to said nominal frequency. | 09-02-2010 |
20100235700 | TEST BOARD HAVING A PLURALITY OF TEST MODULES AND A TEST SYSTEM HAVING THE SAME - A test board includes a plurality of test modules. Each test module stores a first control signal, a data signal, and a second control signal in response to a clock signal, and tests a corresponding device under test (DUT) using the first control signal and the stored data signal in response to the second control signal to generate an error signal indicating whether the DUT is defective. Each test module outputs the first control signal, the data signal, and the second control signal to a test module in a next stage, and each test module of a subsequent stage receives the error signal stored generated by a test module in a previous stage in response to the clock signal. | 09-16-2010 |
20100306609 | Low Power Decompression Of Test Cubes - Disclosed below are representative embodiments of methods, apparatus, and systems used to generate test patterns for testing integrated circuits. Embodiments of the disclosed technology can be used to provide a low power test scheme and can be integrated with a variety of compression hardware architectures (e.g., an embedded deterministic test (“EDT”) environment). Certain embodiments of the disclosed technology can reduce the switching rates, and thus the power dissipation, in scan chains with no hardware modification. Other embodiments use specialized decompression hardware and compression techniques to achieve low power testing. | 12-02-2010 |
20100332932 | TEST METHOD, TEST CONTROL PROGRAM AND SEMICONDUCTOR DEVICE - In a method of performing a test on a logic circuit in accordance with an exemplary aspect of the present invention, the test is performed by supplying a clock signal from a clock supply circuit to a plurality of clock domains operating by a clock signal of a same frequency. The method includes calculating a number of test patterns of each of the plurality of internal clock domains; classifying the plurality of clock domains into a plurality of groups based on the calculated number of test patterns; and assigning a clock supply circuit independently to each of the groups into which the clock domains are classified. | 12-30-2010 |
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 |
20110154142 | TEST DEVICE AND SYSTEM-ON-CHIP HAVING THE SAME - A test device for a system-on-chip includes a sequential logic circuit and a test circuit. The sequential logic circuit generates a test input signal by converting a serial input signal into a parallel format in response to a serial clock signal and a serial enable signal and generates a serial output signal by converting a test output signal into a serial format in response to the serial clock signal and the serial enable signal. The test circuit includes at least one delay unit that is separated from a logic circuit performing original functions of the system-on-chip, performs a delay test on the at least one delay unit using the test input signal in response to a system clock signal and a test enable signal, and provides the test output signal to the sequential logic circuit, where the test output signal representing a result of the delay test. | 06-23-2011 |
20110161763 | TEST APPARATUS AND SYNCHRONIZATION METHOD - Provided is a test apparatus that tests a device under test, comprising (i) a master domain that includes a master period signal generating section, which generates a master period signal, and that operates based on the master period signal and (ii) a slave domain that includes a slave period signal generating section, which generates a slave period signal, and that operates based on the slave period signal. The master period signal generating section receives a control signal and resumes generation of the master period signal, which is being held, and the slave period signal generating section receives the control signal, initializes phase data of the slave period signal, and resumes generation of the slave period signal, which is being held. | 06-30-2011 |
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 |
20130091396 | PACKET-BASED PROPAGATION OF TESTING INFORMATION - A packet-based testing capability is provided. The packet-based testing capability is configured to provide a packet-based JTAG (PJTAG) protocol. The PJTAG protocol is an asynchronous protocol configured to support the synchronous JTAG protocol. The PJTAG protocol is configured to convert between JTAG signals and packets configured to transport information of the JTAG signals (e.g., to convert JTAG signals into PJTAG packets at an interface from a JTAG domain to a PJTAG domain and to convert PJTAG packets into JTAG signals at an interface from a PJTAG domain to JTAG domain). | 04-11-2013 |
20130262945 | METHODS AND STRUCTURE FOR CORRELATING MULTIPLE TEST OUTPUTS OF AN INTEGRATED CIRCUIT ACQUIRED DURING SEPARATE INSTANCES OF AN EVENT - Methods and structure for correlating multiple sets of test output signals in time are provided. The structure includes an integrated circuit comprising a block of circuitry that generates internal operational signals. The circuit also comprises a test multiplexer (MUX) hierarchy that selects subsets of the internal signals and applies the subsets to a testing element. A clock generator generates a clock signal for the selected signals. A test logic timer receives the clock signal and increments a counter value, and applies the counter value to the testing element. An event detector resets the counter value upon detection of an event, such that a first subset of the internal signals acquired from the test MUX hierarchy acquired responsive to detection of a first instance of the event may be correlated in time with a second subset of the internal signals acquired responsive to detection of a second instance of the event. | 10-03-2013 |
20130262946 | METHODS AND STRUCTURE FOR CORRELATION OF TEST SIGNALS ROUTED USING DIFFERENT SIGNALING PATHWAYS - Methods and structure for correlating internal operational signals routed via different paths of a test signal selection hierarchy. The structure includes a functional block of circuitry operable to generate internal operational signals and clock signals. The integrated circuit also comprises a test signal selection hierarchy operable to receive the internal operational signals and the clock signals and to selectively route the internal operational signals and the clock signals. Further, structure includes a control unit operable to receive the clock signals from the test signal selection hierarchy, to determine a delay between received clock signals routed via different signaling pathways of the test signal selection hierarchy. The control unit is further operable to program a delay line based upon the delay between the clock signals and based upon internal operational signals correlated with the clock signals. | 10-03-2013 |
20140101507 | HIGH SPEED DATA TESTING WITHOUT HIGH SPEED BIT CLOCK - System and method for testing a high speed data path without generating a high speed bit clock, includes selecting a first high speed data path from a plurality of data paths for testing. Coherent clock data patterns are driven on one or more of remaining data paths of the plurality of data paths, wherein the coherent clock data patterns are in coherence with a low speed base clock. The first high speed data path is sampled by the coherent clock data patterns to generate a sampled first high speed data path, which is then tested at a speed of the low speed base clock. | 04-10-2014 |
20150012791 | PARALLEL TEST DEVICE AND METHOD - A parallel test device and method are disclosed, which relates to a technology for performing a multi-bit parallel test by compressing data. The parallel test device includes: a pad unit through which data input/output (I/O) operations are achieved; a plurality of input buffers configured to activate write data received from the pad unit in response to a buffer enable signal, and output the write data to a global input/output (GIO) line; a plurality of output drivers configured to activate read data received from the global I/O (GIO) line in response to a strobe delay signal, and output the read data to the pad unit; and a test controller configured to activate the buffer enable signal and the strobe delay signal during a test mode in a manner that the read data received from the plurality of output drivers is applied to the plurality of input buffers such that the read data is operated as the write data. | 01-08-2015 |
20150128003 | AUTOMATED TEST SYSTEM WITH EVENT DETECTION CAPABILITY - A test technique that may be implemented in an automated test system for testing semiconductor devices. The test technique may enable the fast detection of a signal transition, such as an edge, within a waveform and the timing of that event. Circuitry within a digital instrument that can be quickly and flexibly programmed may, at least in part, implement the test technique. That circuitry may be simply programmed with testing parameters, such that application of the technique may lead to faster test development and faster times. In operation, that circuitry receives parameters specifying parameters of a window over a waveform in which samples of the waveform will be taken to detect the signal transition. The circuitry may convert these parameters into control signals for other components in the test system, such as an edge generator or pin electronics, to take a programmed number of samples at desired times. | 05-07-2015 |