Patent application number | Description | Published |
20090141843 | Method and Apparatus for Determining a Skew - The invention provides a method and an apparatus for determining a skew of each data bit of an encoded data word received by a receiver via an interface from a transmitter comprising the steps of performing an error check and correction of the received and sampled encoded data word to calculate an error corrected encoded data word corresponding to the encoded data word transmitted by the transmitter, and correlating a sequence of error corrected encoded data words with the sampled encoded data words to determine a skew of each data bit of said received encoded data words. | 06-04-2009 |
20090144583 | Memory Circuit - The invention provides a memory circuit comprising a plurality of storage cells for storing data and redundant spare storage cells for replacing defective storage cells, and a memory access logic for accessing said storage cells connected to a replacement setting register which is writeable during operation of said memory circuit to store replacement settings. | 06-04-2009 |
20100062621 | Horizontal Dual In-line Memory Modules - Horizontal dual in-line memory modules are disclosed. In one embodiment, the memory module includes a circuit board, a plurality of memory chips attached to a top surface of the circuit board, and a plurality of connector contacts disposed under a back surface of the circuit board and extending away from the memory chips, the connector contacts being electrically coupled to the memory chips, the back surface opposite the top surface of the circuit board. | 03-11-2010 |
20100077139 | MULTI-PORT DRAM ARCHITECTURE - Embodiments of the invention provide a memory device that may be accessed by a plurality of controllers or processor cores via respective ports of the memory device. Each controller may be coupled to a respective port of the memory device via a data bus. Each port of the memory device may be associated a predefined section of memory, thereby giving each controller access to a distinct section of memory without interference from other controllers. A common command/address bus may couple the plurality of controllers to the memory device. Each controller may assert an active signal on a memory access control bus to gain access to the command/address bus to initiate a memory access. | 03-25-2010 |
20100077157 | MULTI MASTER DRAM ARCHITECTURE - Embodiments of the invention provide a memory device that may be accessed by a plurality of controllers or processor cores via respective ports of the memory device. Each controller may be coupled to a respective port of the memory device via a data bus. Each port of the memory device may be associated a predefined section of memory, thereby giving each controller access to a distinct section of memory without interference from other controllers. A common command/address bus may couple the plurality of controllers to the memory device. Each controller may assert an active signal on a memory access control bus to gain access to the command/address bus to initiate a memory access. In some embodiments, the memory device may be a package comprising a plurality of stacked memory dies. | 03-25-2010 |
20100082871 | Distributed Command and Address Bus Architecture - Distributed command and address bus architecture for memory modules and circuit boards is described. In one embodiment, a memory module includes a plurality of connector pins disposed on an edge of a circuit board, the plurality of connector pins comprising first pins coupled to a plurality of data bus lines, second pins coupled to a plurality of command and address bus lines, wherein the second pins are disposed in a first and a second region, wherein a portion of the first pins is disposed between the first and the second regions. | 04-01-2010 |
Patent application number | Description | Published |
20090161401 | Multi-die Memory, Apparatus and Multi-die Memory Stack - The multi-die memory comprises a first die and a second die. The first die comprises a first group of memory banks, and the second die comprises a second group of memory banks. The first group of memory banks and the second group of memory banks are coupled to a common memory interface. The common memory interface couples the multi-die memory with an internal connection. | 06-25-2009 |
20100030934 | Bus Termination System and Method - A memory system includes a number of integrated circuit chips coupled to a bus. Each of the integrated circuit chips has an input/output node coupled to the bus, the input/output node having a programmable on-die termination resistor. The input/output node of one of the integrated circuit chips is accessed via the bus. The programmable on-die termination resistor of each of the integrated circuit chips is independently set to a termination resistance. The termination resistance is determined by a transaction type and which of the plurality memory devices is being accessed, which information can be transmitted over a separate transmission control bus. | 02-04-2010 |
20100032820 | Stacked Memory Module - Memory modules, computing systems, and methods of manufacturing memory modules are disclosed. In one embodiment, a memory module includes a substrate having a first side and a second side opposed to the first side. A plurality of pins is disposed on the first side of the substrate. A first plurality of memory chips are arranged in a first chip layer, the first chip layer overlying the second side of the substrate. Electrical contacts of the first plurality of memory chips are electrically coupled to the pins. A second plurality of memory chips is arranged in a second chip layer, the second chip layer overlying the first chip layer. Electrical contacts of the second plurality of memory chips are electrically coupled to the pins. | 02-11-2010 |
20100046266 | High Speed Memory Architecture - Memory devices and memory modules are disclosed. In one embodiment, a memory device includes a semiconductor substrate having a first edge and a second edge opposed to the first edge. A plurality of memory banks is disposed at a central portion of the semiconductor substrate, each memory bank including a plurality of memory cells. A plurality of input/output contacts is disposed between the first edge and the memory banks. Delay locked loop circuitry is disposed adjacent the first edge. A plurality of address and command contacts is disposed between the second edge and the memory banks. | 02-25-2010 |