Patent application number | Description | Published |
20110055671 | ADVANCED MEMORY DEVICE HAVING IMPROVED PERFORMANCE, REDUCED POWER AND INCREASED RELIABILITY - An advanced memory having improved performance, reduced power and increased reliability. A memory device includes a memory array, a receiver for receiving a command and associated data, error control coding circuitry for performing error control checking on the received command, and data masking circuitry for preventing the associated data from being written to the memory array in response to the error control coding circuitry detecting an error in the received command. Another memory device includes a programmable preamble. Another memory device includes a fast exit self-refresh mode. Another memory device includes auto refresh function that is controlled by the characteristic device. Another memory device includes an auto refresh function that is controlled by a characteristic of the memory device. | 03-03-2011 |
20120300563 | ADVANCED MEMORY DEVICE HAVING IMPROVED PERFORMANCE, REDUCED POWER AND INCREASED RELIABILITY - An advanced memory having improved performance, reduced power and increased reliability. A memory device includes a memory array, a receiver for receiving a command and associated data, error control coding circuitry for performing error control checking on the received command, and data masking circuitry for preventing the associated data from being written to the memory array in response to the error control coding circuitry detecting an error in the received command. Another memory device includes a programmable preamble. Another memory device includes a fast exit self-refresh mode. Another memory device includes auto refresh function that is controlled by the characteristic device. Another memory device includes an auto refresh function that is controlled by a characteristic of the memory device. | 11-29-2012 |
20120300570 | ADVANCED MEMORY DEVICE HAVING IMPROVED PERFORMANCE, REDUCED POWER AND INCREASED RELIABILITY - An advanced memory having improved performance, reduced power and increased reliability. A memory device includes a memory array, a receiver for receiving a command and associated data, error control coding circuitry for performing error control checking on the received command, and data masking circuitry for preventing the associated data from being written to the memory array in response to the error control coding circuitry detecting an error in the received command. Another memory device includes a programmable preamble. Another memory device includes a fast exit self-refresh mode. Another memory device includes auto refresh function that is controlled by the characteristic device. Another memory device includes an auto refresh function that is controlled by a characteristic of the memory device. | 11-29-2012 |
Patent application number | Description | Published |
20090049339 | Programmable Diagnostic Memory Module - A programmable diagnostic memory module provides enhanced testability of memory controller and memory subsystem design. The programmable diagnostic memory module includes an interface for communicating with an external diagnostic system, and the interface is used to transfer commands to the memory module to alter various behaviors of the memory module. The altered behaviors may be changing data streams that are written to the memory module to simulate errors, altering the timing and/or loading of the memory module signals, downloading programs for execution by a processor core within the memory module, changing driver strengths of output signals of the memory module, and manipulating in an analog domain, signals at terminals of the memory module such as injecting noise on power supply connections to the memory module. The memory module may emulate multiple selectable memory module types, and may include a complete storage array to provide standard memory module operation. | 02-19-2009 |
20090049341 | Method for Performing Memory Diagnostics Using a Programmable Diagnostic Memory Module - A method for performing memory diagnostics using a programmable diagnostic memory module provides enhanced testability of memory controller and memory subsystem design. The programmable diagnostic memory module includes an interface for communicating with an external diagnostic system, and the interface is used to transfer commands to the memory module to alter various behaviors of the memory module. The altered behaviors may be changing data streams that are written to the memory module to simulate errors, altering the timing and/or loading of the memory module signals, downloading programs for execution by a processor core within the memory module, changing driver strengths of output signals of the memory module, and manipulating in an analog domain, signals at terminals of the memory module such as injecting noise on power supply connections to the memory module. The memory module may emulate multiple selectable memory module types, and may include a complete storage array to provide standard memory module operation. | 02-19-2009 |
20100085872 | Self-Healing Chip-to-Chip Interface - A method, apparatus, and computer instructions for managing a set of signal paths for a chip. A defective signal path within the set of signal paths for the chip is detected. Signals are re-routed through the set of signal paths such that the defective signal path is removed from the set of signal paths and sending signals using remaining data signal paths in the set of signal paths and using an extra signal path in response to detecting the defective signal path. | 04-08-2010 |
20110010482 | Self-Healing Chip-to-Chip Interface - A method, apparatus, and computer instructions for managing a set of signal paths for a chip. A defective signal path within the set of signal paths for the chip is detected. Signals are re-routed through the set of signal paths such that the defective signal path is removed from the set of signal paths and sending signals using remaining data signal paths in the set of signal paths and using an extra signal path in response to detecting the defective signal path. | 01-13-2011 |
20150193287 | BUS INTERFACE OPTIMIZATION BY SELECTING BIT-LANES HAVING BEST PERFORMANCE MARGINS - A bus interface selects bit-lanes to allocate as spares by testing the performance margins of individual bit-lanes during initialization or calibration of the bus interface. The performance margins of the individual bit-lanes are evaluated as the operating frequency of the interface is increased until a number of remaining bit-lanes that meet specified performance margins is equal to the required width of the interface. The bit-lanes that do not meet the required performance margins are allocated as spares and the interface can be operated at the highest evaluated operating frequency. When an operating bit-lane fails, one of the spare bit-lanes is allocated as a replacement bit-lane and the interface operating frequency is reduced to a frequency at which the new set of operating bit-lanes meets the performance margins. The operating frequency of the interface can be dynamically increased and decreased during operation and the performance margins evaluated to optimize performance. | 07-09-2015 |
20150193316 | BUS INTERFACE OPTIMIZATION BY SELECTING BIT-LANES HAVING BEST PERFORMANCE MARGINS - A bus interface selects bit-lanes to allocate as spares by testing the performance margins of individual bit-lanes during initialization or calibration of the bus interface. The performance margins of the individual bit-lanes are evaluated as the operating frequency of the interface is increased until a number of remaining bit-lanes that meet specified performance margins is equal to the required width of the interface. The bit-lanes that do not meet the required performance margins are allocated as spares and the interface can be operated at the highest evaluated operating frequency. When an operating bit-lane fails, one of the spare bit-lanes is allocated as a replacement bit-lane and the interface operating frequency is reduced to a frequency at which the new set of operating bit-lanes meets the performance margins. The operating frequency of the interface can be dynamically increased and decreased during operation and the performance margins evaluated to optimize performance. | 07-09-2015 |
20150193690 | SYSTEM INTERCONNECT DYNAMIC SCALING BY PREDICTING I/O REQUIREMENTS - Interface management techniques provide reduced power consumption along with reducing heat and EMI generation in a computer system having multiple interconnected processing units. Physical link layers of external interfaces that interconnect the processing units of have dynamically adjustable bandwidth and the bandwidths are dynamically adjusted by predicting interface bandwidth requirements. An interface controller detects events other than I/O requests that occur in a processing unit that are indicators of potential future transactions on one of the external interfaces connected to the processing unit. The interface controller predicts, from the detected events, that future transactions will likely occur on the interface, and in response, controls the dynamically adjustable bandwidth of physical link layer of the interface to accommodate the future transactions. | 07-09-2015 |