Abstract:
A device for reconfigurable power conversion includes a plurality of power-consuming modules adapted to receive a plurality of electrical voltages, and a power converter module including a plurality N of power stages, each of which includes a power output which is adapted to supply one of the plurality of electrical voltages and adapted to be coupled with at least one of the others of the power outputs off the power converter module. Also included is a backplane including a plurality of power rails, each of which is adapted to distribute one of the plurality of electrical voltages from the power converter module to the plurality of power-consuming modules. The power converter module further includes a programmable converter controller which is adapted to reversibly configure the plurality of power stages.
Abstract:
A power converter for a computer device having a processing unit and a memory device is suggested. The power converter is connectable to the computer device by a coupling circuitry, wherein the computer device requires an actual input voltage. The power converter comprises a voltage regulator, a measuring entity, and a determining entity. The voltage regulator is configured to control an actual output voltage for the coupling circuitry based on a determined reference output voltage. The measuring entity is configured to measure an actual output current of the voltage regulator output to the coupling circuitry. The determining entity is configured to determine the determined reference output voltage such that the determined reference output voltage equals a sum of the actual input voltage of the computer device and the product of the measured actual output current and a resistance of the coupling circuitry.
Abstract:
A method is provided for customizing connections of conductors of a printed circuit board (PCB) including conductors and a cavity formed in a thickness of the PCB, and adjoining two of the conductors. The cavity includes two distinct electrical contacts, each in electrical communication with one of the two conductors. The cavity is at least partly filled with an electrically conductive material to enable electrical communication between the two conductors. The cavity is preferably a buried cavity, joined by one or more ducts, such that the electrically conductive material can be injected into the cavity via the duct. One, or each, of the two conductors is an inner conductor of the PCB. The injected conductive material may be a liquid or a gel; and is preferably a conductive adhesive. The present invention further concerns a PCB as obtained from the above method.
Abstract:
A device for reconfigurable power conversion includes a plurality of power-consuming modules adapted to receive a plurality of electrical voltages, and a power converter module including a plurality N of power stages, each of which includes a power output which is adapted to supply one of the plurality of electrical voltages and adapted to be coupled with at least one of the others of the power outputs off the power converter module. Also included is a backplane including a plurality of power rails, each of which is adapted to distribute one of the plurality of electrical voltages from the power converter module to the plurality of power-consuming modules. The power converter module further includes a programmable converter controller which is adapted to reversibly configure the plurality of power stages.
Abstract:
The memory module having a plurality of memory chips and a plurality of connections for connecting the memory module to a processor. At least part of the connections is configurable to be grouped into N sets of address and control connections for N separatively controllable groups of memory chips of the plurality of memory chips (N≧2).
Abstract:
A mechanism is provided for cooling electronic components of a printed circuit board module and for supplying power to the electronic components of the printed circuit board module. The computer module comprises a printed circuit board module, wherein the electronic components are attached to a first side of the printed circuit board module, and a cooling module being attached to a second side of the printed circuit board, being arranged in parallel to the printed circuit board and having a first layer being thermally and electrically conductive. The first layer is arranged such that heat is dissipated from the printed circuit board module and that power from a power source is supplied to the electronic components of the printed circuit board module.
Abstract:
A printed circuit board (PCB) assembly includes a first PCB and a second PCB disposed substantially parallel and opposite to each other, such that a second side of the first PCB is opposite to a first side of the second PCB; wherein the second PCB has a first set of side connectors on its first side and a second set of side connectors on its second side, configured for both electrical power supply to and signal communication with the second PCB; the second PCB both electrically and mechanically connected to the second side of the first PCB via a first elastomeric connector; and the second PCB electrically connected to the first PCB via its second set of side connectors and a flexible electrical connector that is electrically connected to the second set of side connectors and the first PCB.
Abstract:
A device for reconfigurable power conversion includes a plurality of power-consuming modules adapted to receive a plurality of electrical voltages, and a power converter module including a plurality N of power stages, each of which includes a power output which is adapted to supply one of the plurality of electrical voltages and adapted to be coupled with at least one of the others of the power outputs off the power converter module. Also included is a backplane including a plurality of power rails, each of which is adapted to distribute one of the plurality of electrical voltages from the power converter module to the plurality of power-consuming modules. The power converter module further includes a programmable converter controller which is adapted to reversibly configure the plurality of power stages.
Abstract:
A printed circuit board (PCB) assembly includes a first PCB and a second PCB disposed substantially parallel and opposite to each other, such that a second side of the first PCB is opposite to a first side of the second PCB; wherein the second PCB has a first set of side connectors on its first side and a second set of side connectors on its second side, configured for both electrical power supply to and signal communication with the second PCB; the second PCB both electrically and mechanically connected to the second side of the first PCB via a first elastomeric connector; and the second PCB electrically connected to the first PCB via its second set of side connectors and a flexible electrical connector that is electrically connected to the second set of side connectors and the first PCB.
Abstract:
A method for managing objects stored in a cache memory of a processing unit. The cache memory includes a set of entries corresponding to an object. The method includes: checking, for each entry of at least a subset of entries of the set of entries of the cache memory, whether an object corresponding to each entry includes one or more references to one or more other objects stored in the cache memory and storing the references; determining among the objects stored in the cache memory, which objects are not referenced by other objects, based on the stored references; marking entries as checked to distinguish entries corresponding to objects determined as being not referenced from other entries of the checked entries, and casting out, according to the marking, entries corresponding to objects determined as being not referenced.