Patent application number | Description | Published |
20090210604 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 08-20-2009 |
20090240448 | TECHNIQUE FOR DETERMINING PERFORMANCE CHARACTERISTICS OF ELECTRONIC DEVICES AND SYSTEMS - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 09-24-2009 |
20100188128 | Method and Apparatus for Shaping Electronic Pulses - An initial pulse signal is split into a first pulse signal and a second pulse signal. The first pulse signal is delayed through a first impedance to generate a first delayed pulse signal. The first impedance attenuates the first delayed pulse signal to generate an attenuated pulse signal. The second pulse signal is delayed through a second impedance to generate a second delayed pulse signal. The first delayed pulse signal and the attenuated pulse signal are combined to generate the two-pulse response signal. | 07-29-2010 |
20110090727 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 04-21-2011 |
20120072153 | TECHNIQUE FOR DETERMINING PERFORMANCE CHARACTERISTICS OF ELECTRONIC DEVICES AND SYSTEMS - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 03-22-2012 |
20120144085 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at a Plurality of Memory Devices - A memory module includes a substrate, a plurality of signal lines, a clock line and a plurality of memory devices. The plurality of signal lines including first and second signal lines routed alongside one another where, for each of the first and second signal lines, a respective signal, starting at a corresponding first edge finger, traverses in sequence, a respective first segment of a respective signal line, a respective turn portion of the respective signal line, and a respective second segment of the respective signal line. The clock line is to provide a clock signal that traverses in sequence, a second edge finger, the first segment of the clock line, the turn portion of the clock line, and the second segment of the clock line. The respective signals traverse and the clock signal line arrive at the plurality of memory devices in sequence. | 06-07-2012 |
20120230450 | METHODS AND APPARATUS FOR CLOCK AND DATA RECOVERY USING TRANSMISSION LINES - A clock and data recovery circuit may comprise a first transmission line comprising a plurality of segments of a first predetermined length. The first transmission line receives and propagates a clock signal through the segments of the first predetermined length. The clock and data recovery circuit may further comprise a second transmission line comprising a plurality of segments of a second predetermined length. The second transmission line receives data from a serial bit stream and propagates the data through the segments of the second predetermined length. In some embodiments, the first or second transmission line further comprise taps to extract, from the segments of the second predetermined length, a plurality of delayed data signals. The clock and data recovery circuit may further comprise a plurality of sampling circuits, coupled to the first and second transmission lines, to generate samples from the delayed data signals and the delayed clock signals. | 09-13-2012 |
20140070819 | Technique for Determining Performance Characteristics Of Electronic Devices And Systems - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 03-13-2014 |