Hartung
Daniel Hartung, Gjovik NO
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20120297464 | AUTHENTICATED TRANSMISSION OF DATA - A method for transmitting data confirmed by at least one person (KND), wherein data (TOR) to be transmitted are received and/or generated by an input device (BSW), wherein the input device (BSW) can be operated by the person (KND). A configuration for performing the method and a computer program for implementing the steps are also provided. | 11-22-2012 |
Frank Hartung, Herzogenrath JP
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20140218464 | USER INTERFACE CONTROL IN A MULTIMEDIA CONFERENCE SYSTEM - A device for use in a multimedia conferencing system comprises an audio analysis processor ( | 08-07-2014 |
Gregor Hartung, Steyr AT
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20150367534 | MELTING AND INJECTION DEVICE FOR PLASTIC MATERIALS - An arrangement ( | 12-24-2015 |
Joerg Hartung, Vancouver CA
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20120166686 | METHOD, APPARATUS AND SYSTEM FOR AGGREGATING INTERRUPTS OF A DATA TRANSFER - A memory controller, and/or operation thereof, to generate a single interrupt for a plurality of data blocks which are the subject of a data transfer request. In an embodiment, a set of flags is allocated for the data transfer request, each flag corresponding to a respective one of the plurality of data blocks. In another embodiment, a single hardware interrupt is generated for all data which is the subject of the data transfer request, the generating based on an evaluation of the allocated set of flags. | 06-28-2012 |
20130275781 | MECHANISM FOR FACILITATING POWER AND PERFORMANCE MANAGEMENT OF NON-VOLATILE MEMORY IN COMPUTING DEVICES - A mechanism is described for facilitating power governance of non-volatile memory devices using a power governing mechanism employed at a computing device according to one embodiment of the invention. A method of embodiments of the invention includes maintaining a credit pool having a plurality of credits to be released to a plurality of memory channels associated with a plurality of non-volatile memory devices. The plurality of credits may be used to provide sufficient power to perform memory operations associated with a computing device. The method may further include receiving a credit request having a petition to obtain one or more credits for a memory channel of the plurality of memory channels to facilitate performance of a memory operation, determining whether the one or more credits are available in the credit pool, and retrieving the one or more credits from the credit pool, if the one or more credits are available in the credit pool. The method may further include releasing the one or more credits to the memory channel. The one or more released credits are used to perform the memory operation. | 10-17-2013 |
20150032936 | Techniques for Identifying Read/Write Access Collisions for a Storage Medium - Examples are disclosed for identifying read/write access collisions for a storage medium. In some examples, a plurality of write access requests for access to a storage medium may be received at a controller for a storage medium. The plurality of write access requests may be associated with separate logical block address (LBA) ranges. The separate write LBA ranges may be stored to sets of first registers. A read access request to the storage medium may also be received and a read LBA range associated with the read access request may be stored to a set of second registers. The separate stored write LBA ranges may then be compared to the read LBA range to identify overlapping ranges that may indicate read/write access collisions to the storage medium. Other examples are described and claimed. | 01-29-2015 |
Sharon I. Hartung, Burnaby CA
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20160132828 | REAL-TIME CONTINUOUS REALIGNMENT OF A LARGE-SCALE DISTRIBUTED PROJECT - A method and associated systems for real-time continuous realignment of a large-scale distributed project. A project-management system, consisting of a computer system, a data warehouse, and remote data-aggregation subsystems, receives project artifacts that describe goals, scope, contractual obligations, and other characteristics of a large-scale project. The distributed system extracts from the artifacts baseline values of benchmarks that measure project progress. Project workers located at multiple sites continuously feed the project-management system, via the data-aggregation subsystems, data describing actual progress on the project. The baseline values and actual-progress values are imported into the data warehouse in a compatible format. The data-warehouse data is then used to generate recommendations intended to resolve problems indicated by the current-progress values, which are then communicated to project managers, who implement them as action plans. The procedure repeats until benchmarks indicate that project parameters have been realigned so as to ensure desired project results. | 05-12-2016 |