Patent application number | Description | Published |
20080237891 | SEMICONDUCTOR DEVICE - A semiconductor device having a stacked arrangement of a substrate and a first chip and a second chip is disclosed. In one embodiment, the first chip is arranged with a lower face on an upper face of the substrate; the second chip with a lower face on an upper face of the first chip, whereby a partial area of the upper face of the first chip that is adjacent to an edge of the first chip is uncovered by the second chip; a fifth wire contact pad is arranged on the uncovered area of the upper face of the first chip; a first bonding wire is arranged that is connected with a first wire contact pad of the substrate and the fifth wire contact pad of the first chip. | 10-02-2008 |
20080301370 | Memory Module - A memory module includes a module circuit board, an amplifier circuit disposed on the module circuit board for amplifying an input signal, and a memory component to store a data item, wherein the memory component is disposed on the module circuit board. The amplifier circuit includes an input to receive a data signal and an output to provide an amplified data signal. The memory component comprises an input to receive the amplified data signal, wherein the data item is stored in the memory component in dependence on a level of the received amplified data signal. | 12-04-2008 |
20090039915 | Integrated Circuit, Chip Stack and Data Processing System - An integrated circuit includes a first connection and a memory circuit. The integrated circuit is switchable between a master mode of operation, in which a buffer between the first connection and the memory circuit is activated, and a slave mode of operation, in which the buffer between the first connection and the memory circuit is deactivated. | 02-12-2009 |
20090040861 | Method of Operating a Memory Apparatus, Memory Device and Memory Apparatus - A memory apparatus includes at least two memory devices, each memory device including at least one memory bank. A method of operating the memory apparatus includes receiving a row activation command generated by a memory controller, wherein the row activation command includes a bank address. The method also includes activating a word line in a bank of one of the memory devices based on the row activation command, wherein the bank address is used to select the memory device. | 02-12-2009 |
20090046534 | Method of Operating a Memory Apparatus, Memory Device and Memory Apparatus - A method for operating a memory apparatus which comprises at least two memory devices, each memory device containing at least one bank, comprising: activation of at least one word line in at least one bank on the basis of a row activation command; storage of bank information, the bank information indicating which banks per memory device contain a word line activated by the row activation command; reading/writing of memory contents from/to banks with activated word lines on the basis of the bank information. | 02-19-2009 |
20090129189 | METHOD AND APPARATUS FOR MONITORING A MEMORY DEVICE - A memory device comprising at least a plurality of memory cells and a memory control unit to read and write user data to said memory cells is provided. The memory device comprises further a monitoring unit for retrieving a plurality of data concerning the memory device and a comparing unit. The comparing unit receives an output signal of the monitoring unit and is configured to compare the plurality of retrieved data with a plurality of reference values. | 05-21-2009 |
20090141576 | METHOD OF REFRESHING DATA IN A STORAGE LOCATION - An integrated device comprising a storage location, wherein data stored in the storage location is repeatedly refreshed with a first predetermined refresh rate during a first period of time. The first period of time provides a first predetermined duration. After the end of the first period of time, the data is repeatedly refreshed with a second predetermined refresh rate. | 06-04-2009 |
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 |
20090150710 | Memory System With Extended Memory Density Capability - A system including a central processing unit, a first memory channel being configured to couple the central processing unit to a first semiconductor memory unit, wherein the first memory channel is configured to be clocked with a first clock frequency, and a second memory channel being configured to couple the central processing unit to a second semiconductor memory unit, wherein the second memory channel is configured or configurable to be clocked with a second clock frequency smaller than the first clock frequency. | 06-11-2009 |
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 |
20090175100 | METHOD AND APPARATUS FOR STORAGE DEVICE WITH A LOGIC UNIT AND METHOD FOR MANUFACTURING SAME - Method and apparatus that relate to a storage device comprising a plurality of memory cells, an interface device configured to connect the storage device to a host system and configured to transmit signals to read and write data from the host system to the memory cells via a first and second data path, and a logic unit. The logic unit is configured to read and write data from the plurality of memory cells via the second data path, and configured to perform logic operations on data stored in the plurality of memory cells. When performing read and write operations, the first data path excludes the logic unit, and the second data path includes the logic unit. Furthermore, the logic unit is communicatively coupled between the interface device and the plurality of memory cells. Additionally, a method for manufacturing the memory device is provided. | 07-09-2009 |
20090175115 | MEMORY DEVICE, METHOD FOR ACCESSING A MEMORY DEVICE AND METHOD FOR ITS MANUFACTURING - Embodiments relates to a memory device, comprising a plurality of memory cells, said memory cells being addressable by a plurality of addresses, an interface for reading and/or writing data from a host system to said memory device, said interface comprising at least an address bus and a clock signal line, said address bus being configured to transmit a first part of an address at the leading edge of said clock signal and a second part of an address at the trailing edge of said clock signal. | 07-09-2009 |
20090190432 | DRAM with Page Access - A DRAM chip with a data I/O-interface of an access width equal to a page size. | 07-30-2009 |
20090219063 | METHODS AND ARTICLES OF MANUFACTURE FOR OPERATING ELECTRONIC DEVICES ON A PLURALITY OF CLOCK SIGNALS - Embodiments of the invention relate to an integrated circuit comprising at least one functional unit configured to operate at a first clock frequency. The integrated circuit also comprises at least one first interconnect originating from a contact pad and leading to at least one frequency divider configured to receive a clock signal having a second frequency and generate one or more clock signals to operate the functional unit at the first frequency. The integrated circuit further comprises at least one second interconnect coupling an output of the frequency divider and an input of the functional unit, wherein a total length of the second wired interconnect is less than a total length of the first wired interconnects. | 09-03-2009 |
20090267084 | Integrated circuit with wireless connection - An integrated circuit includes a device stack including: a memory device with a first wireless coupling element, and a semiconductor device with a second wireless coupling element. The first and second wireless coupling elements are arranged face-to-face and are configured to provide a wireless connection between the memory device and the semiconductor device. | 10-29-2009 |
20090267678 | Integrated Circuit with Improved Data Rate - An integrated circuit includes: a terminal for outputting data, a driver for providing the data to the terminal, and a switch for selectively connecting/disconnecting the driver to the terminal. The disconnection of the driver reduces the capacitive load on the connection between the terminal and driver, thus reducing limitations on data rate from factors such as data reflections that reduce signal quality. Selective connection/disconnection allows the driver to be reconnected to the terminal only when needed. | 10-29-2009 |
20090268539 | Chip, Multi-Chip System in a Method for Performing a Refresh of a Memory Array - A chip includes a memory array and a refresh counter. The refresh counter is configured to receive refresh trigger signals. The refresh counter is configured or configurable to initiate a refresh of the memory array only once per i of the received refresh trigger signals where i is a number greater than 1. | 10-29-2009 |
20090287957 | METHOD FOR CONTROLLING A MEMORY MODULE AND MEMORY CONTROL UNIT - A memory control unit for controlling a memory module comprising a plurality of memory cells, said memory control unit comprising means for detecting failure of at least one memory cell, means for deactivating said at least one defective memory cell, means for assigning the address of said at least one defective memory cell to at least one replacement memory cell, first tracking means for tracking the remaining replacement memory cells and masking means to hide the address of a defective memory cell to prevent further usage of this address instead of assigning said address to a replacement memory cell. | 11-19-2009 |
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 |
20100044877 | ELECTRONIC DEVICE HAVING A CHIP STACK - An electronic device provides a stack of semiconductor chips. A redistribution layer of a first semiconductor chip is arranged at the bottom of the stack. The redistribution layer of the first semiconductor chip comprises external pads. | 02-25-2010 |
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 |
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 |
20100074038 | Memory Dies for Flexible Use and Method for Configuring Memory Dies - A memory die, including a memory array, a memory array data terminal and a data bus that includes a first sub bus and a second sub bus is disclosed. A first bi-directional buffer arranged between the memory array data terminal and the first sub bus and a second bi-directional buffer arranged between the memory array data terminal and the second sub bus is also disclosed. The first and second bi-directional buffers are adapted to couple the first sub bus or the second sub bus to the memory array data terminal at a time. | 03-25-2010 |
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 |
20110034045 | Stacking Technique for Circuit Devices - Stackable circuit devices include mechanical and electrical connection elements that are optionally disengageable and disconnectable. The mechanical connection elements comprise pairs of complementary male and female plug-in engagement elements respectively arranged at opposite matching positions on top and bottom faces of each device package. The male and female plug-in engagement elements provide a mutual plug-in engagement. The electrical connection elements comprise a plurality of first and second complementary contact elements respectively arranged in opposite and matching positions on either the top or bottom face of each device package. When the circuit devices are stacked, the first contact elements are respectively configured to provide an electrical connection to a complementary matching second contact element of an adjacently plugged in circuit device. Some of the stackable circuit devices may accommodate an integrated memory die or chip and others of the stackable circuit devices may include line routing and distribution blocks. | 02-10-2011 |