Patent application number | Description | Published |
20100077267 | Memory System with Point-to-Point Request Interconnect - A memory system includes a memory controller with a plurality N of memory-controller blocks, each of which conveys independent transaction requests over external request ports. The request ports are coupled, via point-to-point connections, to from one to N memory devices, each of which includes N independently addressable memory blocks. All of the external request ports are connected to respective external request ports on the memory device or devices used in a given configuration. The number of request ports per memory device and the data width of each memory device changes with the number of memory devices such that the ratio of the request-access granularity to the data granularity remains constant irrespective of the number of memory devices. | 03-25-2010 |
20100128542 | Reference Clock and Command Word Alignment - A memory system includes a memory controller that issues command signals and a reference-clock signal to a memory device. The edge rate of the reference-clock signal is lower than the bit rate of the command signals, so the memory device multiplies the reference clock signal to develop a command-recovery clock signal with which to sample the incoming command signals. The memory controller issues the command signals as a series of multi-bit command words aligned with edges of the reference-clock signal so that the memory device can use edges of the reference clock signal for command-word alignment. | 05-27-2010 |
20100211748 | Memory System With Point-to-Point Request Interconnect - A memory system includes a memory controller with a plurality N of memory-controller blocks, each of which conveys independent transaction requests over external request ports. The request ports are coupled, via point-to-point connections, to from one to N memory devices, each of which includes N independently addressable memory blocks. All of the external request ports are connected to respective external request ports on the memory device or devices used in a given configuration. The number of request ports per memory device and the data width of each memory device changes with the number of memory devices such that the ratio of the request-access granularity to the data granularity remains constant irrespective of the number of memory devices. | 08-19-2010 |
20100223426 | Variable-width memory - Described is a memory system in which the memory core organization changes with device width. The number of physical memory banks accessed reduces with device width, resulting in reduced power usage for relatively narrow memory configurations. Increasing the number of logic memory banks for narrow memory widths reduces the likelihood of bank conflicts, and consequently improves speed performance. | 09-02-2010 |
20100235554 | RECONFIGURABLE POINT-TO-POINT MEMORY INTERFACE - Embodiments of an apparatus are described. An interface circuit in this apparatus receives or transmits digital signals on a bus and is configured to alternatively operate as either a data-bus interface circuit or a control-bus interface circuit in dependence upon a mode setting stored in a register. For example, the interface circuit may be pre-configured to interpret a line of an external bus as either a data line or a control line in accordance with the stored mode setting. Moreover, the stored mode setting may be dynamically configured (e.g., reprogrammed) during operation of the interface circuit so that subsequent digital signals are subsequently handled in accordance with a new mode setting. | 09-16-2010 |
20100262790 | Memory Controllers, Methods, and Systems Supporting Multiple Memory Modes - A memory system includes a memory controller with a plurality N of memory-controller blocks, each of which conveys independent transaction requests over external request ports. The request ports are coupled, via point-to-point connections, to from one to N memory devices, each of which includes N independently addressable memory blocks. All of the external request ports are connected to respective external request ports on the memory device or devices used in a given configuration. The number of request ports per memory device and the data width of each memory device changes with the number of memory devices such that the ratio of the request-access granularity to the data granularity remains constant irrespective of the number of memory devices. | 10-14-2010 |
20100281289 | Bidirectional Memory Interface with Glitch Tolerant Bit Slice Circuits - A bit slice circuit having transmit and receive modes of operation is described. The bit slice circuit comprises: first transmit circuitry and first receive circuitry operating in a first clock domain, wherein the first circuitry receives a first clock signal; second transmit circuitry and second receive circuitry operating in a second clock domain, wherein the second circuitry receives a second clock signal; transmit transition circuitry and receive transition circuitry, the transmit transition circuitry coupling the first transmit circuitry to the second transmit circuitry, the receive transition circuitry coupling the first receive circuitry to the second receive circuitry, wherein the transition circuitry receives the first and second clock signals; and a single phase mixer that generates the second clock signal, wherein the second clock signal has a first phase in the transmit mode of operation and second phase in the receive mode of operation. | 11-04-2010 |
20100293343 | SCHEDULING BASED ON TURNAROUND EVENT - Transmission of a signal is scheduled to avoid sending the signal during a designated event associated with another signal. For example, the time at which a signal is transmitted may be scheduled to avoid a turnaround time period of a bidirectional signal path. This technique may be employed, for example, in a memory system where a memory controller communicates with one or more memory devices or memory modules. Here, the memory system may be configured to avoid sending memory request signals during a driver turnaround window corresponding to when a bidirectional memory data interface switches from being driven by the memory controller to being driven by a memory device/module, or vice versa. | 11-18-2010 |
20110119425 | DETACHABLE INTERCONNECT FOR CONFIGURABLE WIDTH MEMORY SYSTEM - The disclosure relates to a detachable signalling interconnect apparatus that provides connectivity between two or more components of a memory system in conjunction with different modes of operation of the components. The memory system comprises: a first socket to receive a first memory module; a second socket to receive a second memory module; a detachable signal-interconnect; and a memory controller coupled to the detachable signal-interconnect and configured to define a first mode of operation and a second mode of operation, wherein in the first mode of operation the detachable signal-interconnect is to couple the memory-controller to the first memory module and in the second mode of operation the detachable signal-interconnect is to couple the memory controller to the first memory module and the second memory module. | 05-19-2011 |
20110219197 | Memory Controllers, Systems, and Methods Supporting Multiple Request Modes - A memory system includes a memory controller with a plurality N of memory-controller blocks, each of which conveys independent transaction requests over external request ports. The request ports are coupled, via point-to-point connections, to from one to N memory devices, each of which includes N independently addressable memory blocks. All of the external request ports are connected to respective external request ports on the memory device or devices used in a given configuration. The number of request ports per memory device and the data width of each memory device changes with the number of memory devices such that the ratio of the request-access granularity to the data granularity remains constant irrespective of the number of memory devices. | 09-08-2011 |
20120011331 | MEMORY SYSTEM, CONTROLLER AND DEVICE THAT SUPPORTS A MERGED MEMORY COMMAND PROTOCOL - The present embodiments provide a memory system which is configured to send a request from a memory controller to a memory device, wherein the request includes independent activate and precharge commands. The activate command is associated with a row address, which identifies a first row for the activate command. In response to the activate command, the system activates the first row in a first bank in the memory device. Similarly, in response to the precharge command, the system precharges a second bank in the memory device. | 01-12-2012 |
20120134084 | Memory Modules and Devices Supporting Configurable Core Organizations - Described are memory apparatus organized in memory subsections and including configurable routing to support multiple data-width configurations. Relatively narrow width configurations load fewer sense amplifiers, resulting in reduced power usage for relatively narrow memory configurations. Also described are memory controllers that convey width selection information to configurable memory apparatus and support point-to-point data interfaces for multiple width configurations. | 05-31-2012 |
20120182821 | MEMORY SYSTEM COMPONENTS THAT SUPPORT ERROR DETECTION AND CORRECTION - A memory system that includes a memory device and a memory bank. During operation, the memory device receives a request to concurrently access a data word at a first row in a first storage region of the memory bank and error information associated with the data at a second row in a second storage region of the memory bank. The memory request includes a first row address identifying the first row and a second row address identifying the second row. Next, the memory device routes the first row address and the second row address to a first row decoder and a second row decoder in the memory bank, respectively. Finally, the memory device uses the first row decoder to decode the first row address to access the first row and concurrently uses the second row decoder to decode the second row address to access the second row. | 07-19-2012 |
20130230122 | COMMUNICATION CHANNEL CALIBRATION FOR DRIFT CONDITIONS - A method and system provides for execution of calibration cycles from time to time during normal operation of the communication channel. A calibration cycle includes de-coupling the normal data source from the transmitter and supplying a calibration pattern in its place. The calibration pattern is received from the communication link using the receiver on the second component. A calibrated value of a parameter of the communication channel is determined in response to the received calibration pattern. The steps involved in calibration cycles can be reordered to account for utilization patterns of the communication channel. For bidirectional links, calibration cycles are executed which include the step of storing received calibration patterns on the second component, and retransmitting such calibration patterns back to the first component for use in adjusting parameters of the channel at first component. | 09-05-2013 |
20130250706 | MEMORY MODULE - A memory module having memory components, a termination structure, an address/control signal path, a clock signal path, multiple data signal paths and multiple strobe signal paths. The strobe signal paths and data signal paths are coupled to respective memory components, and the address/control signal path and clock signal path are coupled in common to all the memory components. The address/control signal path extends along the memory components to the termination structure such that control signals propagating toward the termination structure arrive at address/control inputs of respective memory components at progressively later times corresponding to relative positions of the memory components. | 09-26-2013 |
20130279278 | Memory Component with Terminated and Unterminated Signaling Inputs - A memory component has a signaling interface, data input/output (I/O) circuitry, command/address (CA) circuitry and clock generation circuitry. The signaling interface includes an on-die terminated data I/O and an unterminated CA input. The data I/O circuitry is dedicated to sampling write data bits at the data I/O timed by a strobe signal and to transmitting read data bits timed by a first clock signal, each of the write and read data bits being valid for a bit time at the data I/O. The CA circuitry samples CA signals at the CA input timed by a second clock signal, the CA signals indicating read and write operations to be performed within the memory component. The clock generation circuitry generates the first clock signal with a phase that establishes alignment between a leading edge of the bit time for each read data bit and a respective transition of the second clock signal. | 10-24-2013 |
20130286706 | Memory Modules and Devices Supporting Configurable Data Widths - Described are memory apparatus organized in physical banks and including configurable data control circuit to support multiple data-width configurations. Relatively narrow width configurations load fewer sense amplifiers, resulting in reduced power usage for relatively narrow memory configurations. Also described are memory controllers that convey configuration value to configurable memory apparatus and support point-to-point data buffers for multiple width configurations. | 10-31-2013 |
20130305079 | Memory Component that Samples Command/Address Signals in Response to Both Edges of a Clock Signal - A memory component has a signaling interface, data input/output (I/O) circuitry and command/address (CA) circuitry. The signaling interface includes an on-die terminated data I/O and an unterminated CA input. The data I/O circuitry is dedicated to sampling write data bits at the data I/O timed by a strobe signal and to transmitting read data bits timed by a first clock signal, each of the write and read data bits being valid for a bit time at the data I/O. The CA circuitry samples CA signals at the CA input in response to both rising-edge and falling-edge transitions of a second clock signal, the CA signals indicating read and write operations to be performed within the memory component. | 11-14-2013 |
20140047306 | CONFIGURABLE, ERROR-TOLERANT MEMORY CONTROL - Configurable, error-tolerant communication of memory control information between components of a memory system. A controller component and memory component each have a variable-width command/address (CA) interface that operates in conjunction with an error detection/correction (EDC) channel to enable a variable level of error detection and correction with respect to command/address information conveyed between the two components as the widths of the CA interfaces are adjusted. | 02-13-2014 |
20140098622 | Memory Controller That Enforces Strobe-To-Strobe Timing Offset - A memory controller outputs a clock signal to first and second DRAMs disposed on a memory module, the clock signal requiring respective first and second time intervals to propagate to the first and second DRAMs. The memory controller outputs a write command to be sampled by the first and second DRAMs at times indicated by the first clock signal and outputs, in association with the write command, first and second write data to the first and second DRAMs, respectively. The memory controller further outputs first and second strobe signals respectively to the first and second DRAMs, the first strobe signal to time reception of the first and second write data therein. The memory controller adjusts respective transmission times of the first and second strobe signals to be offset from one another by a time interval that corresponds to a difference between the first and second time intervals. | 04-10-2014 |
20140133259 | MEMORY SYSTEM COMPONENTS THAT SUPPORT ERROR DETECTION AND CORRECTION - The disclosed embodiments relate to components of a memory system that support error detection and correction by means of storage and retrieval of error correcting codes. In specific embodiments, this memory system includes a memory device, which further contains a memory bank. During operation, the memory device receives a request to concurrently access a data word at a first row in a first storage region of the memory bank and error information associated with the data at a second row in a second storage region of the memory bank. Moreover, the memory request includes a first row address identifying the first row and a second row address identifying the second row. Next, the memory device routes the first row address and the second row address to a first row decoder and a second row decoder in the memory bank, respectively. Finally, the memory device uses the first row decoder to decode the first row address to access the first row and concurrently uses the second row decoder to decode the second row address to access the second row. | 05-15-2014 |
20140133536 | Periodic Calibration For Communication Channels By Drift Tracking - A method and system that provides for execution of a first calibration sequence, such as upon initialization of a system, to establish an operation value, which utilizes an algorithm intended to be exhaustive, and executing a second calibration sequence from time to time, to measure drift in the parameter, and to update the operation value in response to the measured drift. The second calibration sequence utilizes less resources of the communication channel than does the first calibration sequence. In one embodiment, the first calibration sequence for measurement and convergence on the operation value utilizes long calibration patterns, such as codes that are greater than 30 bytes, or pseudorandom bit sequences having lengths of 2 | 05-15-2014 |
20140192940 | COMMUNICATION CHANNEL CALIBRATION FOR DRIFT CONDITIONS - A method and system provides for execution of calibration cycles from time to time during normal operation of the communication channel. A calibration cycle includes de-coupling the normal data source from the transmitter and supplying a calibration pattern in its place. The calibration pattern is received from the communication link using the receiver on the second component. A calibrated value of a parameter of the communication channel is determined in response to the received calibration pattern. The steps involved in calibration cycles can be reordered to account for utilization patterns of the communication channel. For bidirectional links, calibration cycles are executed which include the step of storing received calibration patterns on the second component, and retransmitting such calibration patterns back to the first component for use in adjusting parameters of the channel at first component. | 07-10-2014 |
20140293671 | Configurable Width Memory Modules - Describes is a memory system that utilizes motherboard traces in a way that permits maximum utilization of system data lines while accommodating varying numbers of memory modules. It is possible in a system such as this to utilize all individual sets of point-to-point signaling lines, even when less than all of the available memory sockets are occupied. Memory modules with configurable data widths support a relatively wide mode in which one module utilizes all available system data lines, or a relatively narrow mode in which multiple, narrower modules split the available system data lines between them. | 10-02-2014 |
20140297939 | Memory Controllers, Systems, and Methods Supporting Multiple Request Modes - A memory system includes a memory controller with a plurality N of memory-controller blocks, each of which conveys independent transaction requests over external request ports. The request ports are coupled, via point-to-point connections, to from one to N memory devices, each of which includes N independently addressable memory blocks. All of the external request ports are connected to respective external request ports on the memory device or devices used in a given configuration. The number of request ports per memory device and the data width of each memory device changes with the number of memory devices such that the ratio of the request-access granularity to the data granularity remains constant irrespective of the number of memory devices. | 10-02-2014 |
20150043290 | MEMORY MODULE - A memory module having integrated circuit (IC) components, a termination structure, an address/control signal path, a clock signal path, multiple data signal paths and multiple strobe signal paths. The strobe signal paths and data signal paths are coupled to respective IC components, and the address/control signal path and clock signal path are coupled in common to all the IC components. The address/control signal path extends along the IC components to the termination structure such that control signals propagating toward the termination structure arrive at address/control inputs of respective IC components at progressively later times corresponding to relative positions of the IC components. | 02-12-2015 |
20150063433 | Periodic Calibration For Communication Channels By Drift Tracking - A method and system that provides for execution of a first calibration sequence, such as upon initialization of a system, to establish an operation value, which utilizes an algorithm intended to be exhaustive, and executing a second calibration sequence from time to time, to measure drift in the parameter, and to update the operation value in response to the measured drift. The second calibration sequence utilizes less resources of the communication channel than does the first calibration sequence. In one embodiment, the first calibration sequence for measurement and convergence on the operation value utilizes long calibration patterns, such as codes that are greater than 30 bytes, or pseudorandom bit sequences having lengths of 2 | 03-05-2015 |