Abstract: In accordance with the present description, a device includes an internal defect detection and repair circuit which includes a self-test logic circuit built in within the device and a self-repair logic circuit also built in within the device. In one embodiment, the built in self-test logic circuit may be configured to automatically identify defective memory cells in a memory. Upon identifying one or more defective memory cells, the built in self-repair logic circuit may be configured to automatically repair the defective memory cells by replacing defective cells with spare cells within the memory.

Abstract: In accordance with the present description, a device includes an internal defect detection and repair circuit which includes a self-test logic circuit built in within the device and a self-repair logic circuit also built in within the device. In one embodiment, the built in self-test logic circuit may be configured to automatically identify defective memory cells in a memory. Upon identifying one or more defective memory cells, the built in self-repair logic circuit may be configured to automatically repair the defective memory cells by replacing defective cells with spare cells within the memory.

Abstract: Methods and apparatus related to Rack Scale Architecture (RSA) and/or Shared Memory Controller (SMC) techniques of fast zeroing are described. In one embodiment, a storage device stores meta data corresponding to a portion of a non-volatile memory. Logic, coupled to the non-volatile memory, causes an update to the stored meta data in response to a request for initialization of the portion of the non-volatile memory. The logic causes initialization of the portion of the non-volatile memory prior to a reboot or power cycle of the non-volatile memory. Other embodiments are also disclosed and claimed.

Abstract: In accordance with the present description, a device includes an internal defect detection and repair circuit which includes a self-test logic circuit built in within the device and a self-repair logic circuit also built in within the device. In one embodiment, the built in self-test logic circuit may be configured to automatically identify defective memory cells in a memory. Upon identifying one or more defective memory cells, the built in self-repair logic circuit may be configured to automatically repair the defective memory cells by replacing defective cells with spare cells within the memory. In one embodiment, data patterns are generated as a function of memory addresses and periodic address offsets. Other aspects are described herein.

Abstract: In accordance with the present description, a device includes an internal defect detection and repair circuit which includes a self-test logic circuit built in within the device and a self-repair logic circuit also built in within the device. In one embodiment, the built in self-test logic circuit may be configured to automatically identify defective memory cells in a memory. Upon identifying one or more defective memory cells, the built in self-repair logic circuit may be configured to automatically repair the defective memory cells by replacing defective cells with spare cells within the memory. Other aspects are described herein.

Abstract: An apparatus and method is described herein for providing a test, validation, and debug architecture. At a target or base level, hardware (Design for Test or DFx) are designed into and integrated with silicon parts. A controller may provide abstracted access to such hooks, such as through an abstraction layer that abstracts low level details of the hardware DFx. In addition, the abstraction layer through an interface, such as APIs, provides services, routines, and data structures to higher-level software/presentation layers, which are able to collect test data for validation and debug of a unit/platform under test. Moreover, the architecture potentially provides tiered (multiple levels of) secure access to the test architecture. Additionally, physical access to the test architecture for a platform may be simplified through use of a unified, bi-directional test access port, while also potentially allowing remote access to perform remote test and de-bug of a part/platform under test.

Abstract: REUT (Robust Electrical Unified Testing) for memory links is introduced which speeds testing, tool development, and debug. In addition it provides training hooks that have enough performance to be used by BIOS to train parameters and conditions that have not been possible with past implementations. Address pattern generation circuitry is also disclosed.

Abstract: REUT (Robust Electrical Unified Testing) for memory links is introduced which speeds testing, tool development, and debug. In addition it provides training hooks that have enough performance to be used by BIOS to train parameters and conditions that have not been possible with past implementations. Address pattern generation circuitry is also disclosed.

Abstract: A switched-capacitor circuit that may be used for equalization, but configurable for voltage margining. The switched-capacitor circuit cancels the offset voltage inherent in an amplifier and sets the common mode of an input signal at half the rail voltage. Two capacitors level shift an input signal before being applied to the two input ports of an amplifier. When used for voltage margining, the input voltage swing is reduced at the input ports of the amplifier by connecting a digital-to-analog controlled voltage source to the two capacitors.

Abstract: A technique includes in response to a training mode, communicating between a device and a processor of a computer system over a data bit line of a bus. The technique includes based on the communication, regulating a timing between a strobe signal and a signal that propagates over the data bit line.

Abstract: A switched-capacitor circuit that may be used for equalization, but configurable for voltage margining. The switched-capacitor circuit cancels the offset voltage inherent in an amplifier and sets the common mode of an input signal at half the rail voltage. Two capacitors level shift an input signal before being applied to the two input ports of an amplifier. When used for voltage margining, the input voltage swing is reduced at the input ports of the amplifier by connecting a digital-to-analog controlled voltage source to the two capacitors.

Abstract: Embodiments of the invention provide a logic simulation having a controllable delay model implemented therein that may be used to validate AC I/O loopback design in a pre-silicon environment by introducing delay models that allow the logic simulators to simulate analog behavior. For one embodiment of the invention, a fixed processor ratio is selected and delay statements of the hardware description language correspond to a specific time delay. These fixed values provide the ability to accurately determine and adjust delay in an analog simulation.

Abstract: A technique includes in response to a training mode, communicating between a device and a processor of a computer system over a data bit line of a bus. The technique includes based on the communication, regulating a timing between a strobe signal and a signal that propagates over the data bit line.

Abstract: A multi-bit test value is loaded into a built-in latch of the IC component, and a pad of the component is selected for testing. A number of different sequences of test values are automatically generated, based on the stored test value, without scanning-in additional multi-bit values into the latch. A signal that is based on the different sequences of test values is driven into the selected pad and looped back. A difference between the test values and the looped back version of the test values is determined, while automatically adjusting driver and/or receiver characteristics to determine a margin of operation of on-chip I/O buffering for the selected pad.

Abstract: Embodiments of the invention provide a logic simulation having a controllable delay model implemented therein that may be used to validate AC I/O loopback design in a pre-silicon environment by introducing delay models that allow the logic simulators to simulate analog behavior. For one embodiment of the invention, a fixed processor ratio is selected and delay statements of the hardware description language correspond to a specific time delay. These fixed values provide the ability to accurately determine and adjust delay in an analog simulation.

Abstract: A multi-bit test value is loaded into a built-in latch of the IC component, and a pad of the component is selected for testing. A number of different sequences of test values are automatically generated, based on the stored test value, without scanning-in additional multi-bit values into the latch. A signal that is based on the different sequences of test values is driven into the selected pad and looped back. A difference between the test values and the looped back version of the test values is determined, while automatically adjusting driver and/or receiver characteristics to determine a margin of operation of on-chip I/O buffering for the selected pad.

Abstract: A built-in self test (BIST) unit, of a primary integrated circuit (IC) component of a computer system, is programmed or hardwired with a test pattern. The test pattern is launched in multiple test cycles, to test an interconnect bus of the computer system or perform a device validation test of the component. A pin assignment of the pattern is automatically changed after each test cycle, without requiring re-programming of the BIST unit to do so.

Abstract: An integrated circuit (IC) component of a computer system, intended for use as part of a production version of the system, is provided with a built-in test unit and core function circuitry that are coupled to transfer information over the same I/O buffer circuitry of the component. The test unit is to transfer test information during a test session and to recognize announcement of the test session via an assertion and a deassertion, for predetermined time intervals, of an inter-component signal.

Abstract: A built-in self test (BIST) unit, of a primary integrated circuit (IC) component of a computer system, is programmed or hardwired with a test pattern. The test pattern is launched in multiple test cycles, to test an interconnect bus of the computer system or perform a device validation test of the component. A pin assignment of the pattern is automatically changed after each test cycle, without requiring re-programming of the BIST unit to do so.