Patent application number | Description | Published |
20080218974 | Method and Structure for Connecting, Stacking, and Cooling Chips on a Flexible Carrier - A heat sink apparatus having a plurality of chips attached to a first surface of a flexible carrier and a plurality of heat sink fins. One or more additional chips may be attached to a second surface of the flexible carrier. The flexible carrier has at least one complementary fold, the complementary fold having a counterclockwise fold and a clockwise fold as seen from the side. A first chip back surface of a first chip and a second chip back surface of a second chip are in thermal contact with a particular heat sink fin, that is, sharing the same heat sink fin. Thermal contact between the chips and heat sink fins is effected by force, by thermally conducting adhesive, by thermal grease, or by a combination of force and/or thermally conducting adhesive and/or thermal grease. | 09-11-2008 |
20080270968 | APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR IMPLEMENTING VERTICALLY COUPLED NOISE CONTROL THROUGH A MESH PLANE IN AN ELECTRONIC PACKAGE DESIGN - A method, apparatus and computer program product are provided for implementing vertically coupled noise control through a mesh plane in an electronic package design. Electronic package physical design data are received. Instances of vertically coupled noise in the electronic package physical design data are identified. The identified instances of vertically coupled noise are quantified. Then the electronic package physical design data are modified to limit the vertically coupled noise. | 10-30-2008 |
20080307252 | Method and Apparatus for Implementing Redundant Memory Access Using Multiple Controllers on the Same Bank of Memory - A method and apparatus implement redundant memory access using multiple controllers on the same bank of memory. A first memory controller uses the memory as its primary address space, for storage and fetches. A second redundant controller is also connected to the same memory. System control logic is used to notify the redundant controller of the need to take over the memory interface. The redundant controller initializes if required and takes control of the memory. The memory only needs to be initialized if the system has to be brought down and restarted in the redundant mode. This invention allows the system to continue to stay up and continue running during a memory controller or link failure. | 12-11-2008 |
20080307253 | Method and Apparatus for Implementing Redundant Memory Access Using Multiple Controllers on the Same Bank of Memory - A method and apparatus implement redundant memory access using multiple controllers on the same bank of memory, and a design structure on which the subject circuit resides is provided. A first memory controller uses the memory as its primary address space, for storage and fetches. A second redundant controller is also connected to the same memory. System control logic is used to notify the redundant controller of the need to take over the memory interface. The redundant controller initializes if required and takes control of the memory. The memory only needs to be initialized if the system has to be brought down and restarted in the redundant mode. This invention allows the system to continue to stay up and continue running during a memory controller or link failure. | 12-11-2008 |
20090006705 | Hub for Supporting High Capacity Memory Subsystem - A high-capacity memory subsystem architecture utilizes multiple memory modules arranged in one or more clusters, each attached to a respective hub which in turn is attached to a memory controller. Within a cluster, data is interleaved so that each data access command accesses all modules of the cluster. The hub communicates with the memory modules at a lower bus frequency, but the distributing of data among multiple modules enables the cluster to maintain the composite data rate of the memory-controller-to-hub bus. Preferably, the memory system employs buffered memory chips having dual-mode operation, one of which supports a cluster configuration in which data is interleaved and the communications buses operate at reduced bus width and/or reduced bus frequency to match the level of interleaving | 01-01-2009 |
20090006706 | Structure for Hub for Supporting High Capacity Memory Subsystem - A design structure is provided for a hub for use in a high-capacity memory subsystem in which memory modules arranged in one or more clusters, each attached to a respective hub which in turn is attached to a memory controller. Within a cluster, data is interleaved so that each data access command accesses all modules of the cluster. The hub communicates with the memory modules at a lower bus frequency, but the distributing of data among multiple modules enables the cluster to maintain the composite data rate of the memory-controller-to-hub bus. Preferably, the memory system employs buffered memory chips having dual-mode operation, one of which supports a cluster configuration in which data is interleaved and the communications buses operate at reduced bus width and/or reduced bus frequency to match the level of interleaving | 01-01-2009 |
20090006715 | Memory Chip for High Capacity Memory Subsystem Supporting Multiple Speed Bus - A memory module contains an interface for receiving memory access commands from an external source, in which a first portion of the interface receives memory access data at a first bus frequency and a second portion of the interface receives memory access data at a second different bus frequency. Preferably, the memory module contains a second interface for re-transmitting memory access data, also operating at dual frequency. The memory module is preferably used in a high-capacity memory subsystem organized in a tree configuration in which data accesses are interleaved. Preferably, the memory module has multiple-mode operation, one of which supports dual-speed buses for receiving and re-transmitting different parts of data access commands, and another of which supports conventional daisy-chaining. | 01-01-2009 |
20090006752 | High Capacity Memory Subsystem Architecture Employing Hierarchical Tree Configuration of Memory Modules - A high-capacity memory subsystem architecture utilizes multiple memory modules arranged in a hierarchical tree configuration, in which at least some communications from an external source traverse successive levels of the tree to reach memory modules at the lowest level. Preferably, the memory system employs buffered memory chips having dual-mode operation, one of which supports a tree configuration in which data is interleaved and the communications buses operate at reduced bus width and/or reduced bus frequency to match the level of interleaving | 01-01-2009 |
20090006760 | Structure for Dual-Mode Memory Chip for High Capacity Memory Subsystem - A design structure is provided for a dual-mode memory chip supporting a first operation mode in which received data access commands contain chip select data to identify the chip addressed by the command, and control logic in the memory chip determines whether the command is addressed to the chip, and a second operation mode in which the received data access command addresses a set of multiple chips. Preferably, the first mode supports a daisy-chained configuration of memory chips. Preferably the second mode supports a hierarchical interleaved memory subsystem, in which each addressable set of chips is configured as a tree, command and write data being propagated down the tree, the number of chips increasing at each succeeding level of the tree. | 01-01-2009 |
20090006772 | Memory Chip for High Capacity Memory Subsystem Supporting Replication of Command Data - A memory module contains a first interface for receiving data access commands and a second interface for re-transmitting data access commands to other memory modules, the second interface propagating multiple copies of received data access commands to multiple other memory modules. The memory module is preferably used in a high-capacity memory subsystem organized in a tree configuration in which data accesses are interleaved. Preferably, the memory module has multiple-mode operation, one of which supports multiple replication of commands and another of which supports conventional daisy-chaining | 01-01-2009 |
20090006774 | High Capacity Memory Subsystem Architecture Employing Multiple-Speed Bus - A high-capacity memory subsystem architecture utilizes multiple memory modules coupled to one or more access modules by a communications medium, in which at least some data is transferred between an access module and memory modules at a first bus frequency, and at least some data is transferred between the access module and memory modules at a second bus frequency different from the first. Preferably, data is interleaved to reduce the required bus speed for read/write data, and the higher bus frequency is used to transfer command/address data. Preferably, the memory system employs memory chips having dual-mode operation, one of which supports a dual-speed bus. | 01-01-2009 |
20090006775 | Dual-Mode Memory Chip for High Capacity Memory Subsystem - A dual-mode memory chip supports a first operation mode in which received data access commands contain chip select data to identify the chip addressed by the command, and control logic in the memory chip determines whether the command is addressed to the chip, and a second operation mode in which the received data access command addresses a set of multiple chips. Preferably, the first mode supports a daisy-chained configuration of memory chips. Preferably the second mode supports a hierarchical interleaved memory subsystem, in which each addressable set of chips is configured as a tree, command and write data being propagated down the tree, the number of chips increasing at each succeeding level of the tree. | 01-01-2009 |
20090006781 | Structure for Memory Chip for High Capacity Memory Subsystem Supporting Multiple Speed Bus - A design structure is provided for a memory module containing an interface for receiving memory access commands from an external source, in which a first portion of the interface receives memory access data at a first bus frequency and a second portion of the interface receives memory access data at a second different bus frequency. Preferably, the memory module contains a second interface for re-transmitting memory access data, also operating at dual frequency. The memory module is preferably used in a high-capacity memory subsystem organized in a tree configuration in which data accesses are interleaved. Preferably, the memory module has multiple-mode operation, one of which supports dual-speed buses for receiving and re-transmitting different parts of data access commands, and another of which supports conventional daisy-chaining. | 01-01-2009 |
20090006790 | High Capacity Memory Subsystem Architecture Storing Interleaved Data for Reduced Bus Speed - A high-capacity memory subsystem architecture utilizes multiple memory modules arranged in one or more clusters, each attached to a respective hub which in turn is attached to a memory controller. Within a cluster, data is interleaved so that each data access command accesses all modules of the cluster. The hub communicates with the memory modules at a lower bus frequency, but the distributing of data among multiple modules enables the cluster to maintain the composite data rate of the memory-controller-to-hub bus. Preferably, the memory system employs buffered memory chips having dual-mode operation, one of which supports a cluster configuration in which data is interleaved and the communications buses operate at reduced bus width and/or reduced bus frequency to match the level of interleaving | 01-01-2009 |
20090006798 | Structure for Memory Chip for High Capacity Memory Subsystem Supporting Replication of Command Data - A design structure is provided for a memory module containing a first interface for receiving data access commands and a second interface for re-transmitting data access commands to other memory modules, the second interface propagating multiple copies of received data access commands to multiple other memory modules. The memory module is preferably used in a high-capacity memory subsystem organized in a tree configuration in which data accesses are interleaved. Preferably, the memory module has multiple-mode operation, one of which supports multiple replication of commands and another of which supports conventional daisy-chaining | 01-01-2009 |
20090138832 | IMPLEMENTING ENHANCED WIRING CAPABILITY FOR ELECTRONIC LAMINATE PACKAGES - Structures and a computer program product are provided for implementing enhanced wiring capability for electronic laminate packages. Electronic package physical design data are received. Instances of line width and space limit violations in the electronic package physical design data are identified. The identified instances of line width and space limit violations are evaluated using predefined qualified options and tolerance limitations and the electronic package physical design data are modified to optimize shapes to replace the instances of line width and space limit violations. | 05-28-2009 |
20090273098 | Enhanced Architectural Interconnect Options Enabled With Flipped Die on a Multi-Chip Package - A particular chip is designed having a first variant (front side connected chip) of the chip and a second variant (back side connected chip). The first variant of the chip is attached to a carrier. The second variant of the chip is attached to the carrier inverted relative to the first variant of the chip. The first and second variants of the chip are attached to the carrier such that a vertical surface (side) of the first variant of the chip faces a corresponding vertical surface of the second variant of the chip. A circuit on the first variant of the chip is electrically connected to a corresponding circuit on the second variant of the chip. | 11-05-2009 |
20090300291 | Implementing Cache Coherency and Reduced Latency Using Multiple Controllers for Memory System - A method and apparatus implement cache coherency and reduced latency using multiple controllers for a memory system, and a design structure is provided on which the subject circuit resides. A first memory controller uses a first memory as its primary address space, for storage and fetches. A second memory controller is also connected to the first memory. A second memory controller uses a second memory as its primary address space, for storage and fetches. The first memory controller is also connected to the second memory. The first memory controller and the second memory controller, for example, are connected together by a processor communications bus. A request and send sequence of the invention sends data directly to a requesting memory controller eliminating the need to re-route data back through a responding controller, and improving the latency of the data transfer. | 12-03-2009 |
20090300411 | Implementing Redundant Memory Access Using Multiple Controllers for Memory System - A method and apparatus implement redundant memory access using multiple controllers for a memory system, and a design structure on which the subject circuit resides are provided. A first memory controller uses a first memory and a second memory controller uses the second memory as its respective primary address space, for storage and fetches. The second memory controller is also connected to the first memory. The first memory controller is also connected to the second memory. The first memory controller and the second memory controller, for example, are connected together by a processor communications bus. When one of the first memory controller or the second memory controller fails, then the other memory controller is notified. The other memory controller takes control of the memory for the failed controller, using the direct connection to that memory, and maintains coherence of both the first memory and second memory. | 12-03-2009 |
20100024202 | Enhanced On-Chip Inductance Structure Utilizing Silicon Through Via Technology - This invention utilizes silicon through via technology, to build a Toroid into the chip with the addition of a layer of magnetic material such as Nickel above and below the T-coil stacked multi-ring structure. This allows the connection between the inner via and an array of outer vias. This material is added on a BEOL metal layer or as an external coating on the finished silicon. Depending on the configuration and material used for the via, the inductance will increase approximately two orders of magnitude (e.g., by utilizing a nickel via core). Moreover, a ferrite material with proper thermal conduction properties is used in one embodiment. | 02-04-2010 |
20100061424 | Spread Spectrum Controller with Bit Error Rate Feedback - A spread spectrum controller that adjusts frequency range subject to a bit error rate (BER). Measuring the bit error rate (BER) at different clock frequency ranges and comparing the BER to a BER threshold. Narrowing or widening the clock frequency range based on whether the BER is above or below the BER threshold to optimize a system for both performance and compliance. | 03-11-2010 |
20100191894 | Digital Data Architecture Employing Redundant Links in a Daisy Chain of Component Modules - A communications architecture utilizes modules arranged in a daisy-chain, each module supporting multiple input and output ports. Point-to-point links are arranged so that a first output link of each of multiple modules connects to the next module in the chain, and a second output link connects to a module after it, and inputs arranged similarly, so that any single module can be by-passed in the event of malfunction. Multiple chains may be cross-linked and/or serviced by hubs or chains of hubs. Preferably, the redundant links are used in a non-degraded operating mode to provide higher bandwidth and/or reduced latency of communication. The exemplary embodiment is a memory subsystem in which the modules are buffered memory chips. | 07-29-2010 |
20100271046 | IMPLEMENTING AT-SPEED WAFER FINAL TEST (WFT) WITH COMPLETE CHIP COVERAGE - A method, an apparatus and a computer program product are provided for implementing At-Speed Wafer Final Test (WFT) with total integrated circuit chip coverage including high speed off-chip receiver and driver input/output (I/O) circuits. An integrated circuit (IC) chip includes off-chip Controlled Collapse Chip Connection (C4) nodes and a driver and a receiver of the off-chip receiver and driver input/output (I/O) circuits connected to respective off-chip C4 nodes. Through Silicon Vias (TSVs) are added to the connections of the driver and the receiver and the respective off-chip C4 nodes to a backside of the IC chip. A metal wire is added to the IC chip backside connecting the TSVs and creating a connection path between the driver and the receiver that is used for the at-speed WFT testing of the I/O circuits. | 10-28-2010 |
20120006803 | IMPLEMENTING SELECTIVE REWORK FOR CHIP STACKS AND SILICON CARRIER ASSEMBLIES - A method, apparatus, and structure are provided for implementing selective rework for chip stacks. A backside metal layer to create resistive heating is added to a chip backside in a chip stack. A rework tool applies a predefined current to the backside metal layer to reflow solder connections and enables separating selected chips in the chip stack. | 01-12-2012 |