Abstract: In one embodiment, a method includes receiving at a network device comprising a data transfer optimization module, input identifying a source directory comprising data and a target directory at a storage device, splitting the data into a plurality of data groups for transfer to the storage device, transmitting the data groups concurrently to the storage device on data paths wherein transfer times of the data groups are monitored, receiving at the data transfer optimization module, identification of a data group with a longest transfer time, splitting the data group with the longest transfer time, and placing the data from the data group into at least two of the data groups for transfer to the storage device. An apparatus and logic are also disclosed herein.

Abstract: An internal combustion engine operatively coupled with a variable load and an electronic control system operatively coupled with the internal combustion engine. The electronic control system is structured to receive an engine speed target value, a first engine speed feedback value, and a second engine speed feedback value. The electronic control system processes the first engine speed feedback value and the second engine speed feedback value to determine a feedforward correction value. The feedforward correction value is determined to correct for first variation between the second engine speed feedback value and the first engine speed feedback value due to variation in the variable load and to distinguish between the first variation and a second variation due to operation of the internal combustion engine.

Abstract: Technologies are disclosed for merging and vending partial database schemas. A schema compiler exposes a network services application programming interface (API) for merging partial database schemas for a database. Prior to merging partial database schemas, the schema compiler can determine whether namespace conflicts exist between the partial database schemas. If no namespace conflicts exist between the partial database schemas, the schema compiler can merge the partial database schemas to create a merged database schema. The merged database schema can then be provided to a database service that provides the database. The API can also include methods for retrieving partial database schemas from the merged database schema, updating or replacing database schemas in the merged database schema, and deleting partial database schemas from the merged database schema.

Abstract: During a transmission upshift, a torque capacity of an off-going clutch is maintained at a non-zero state during the transition from the torque phase to the inertia phase and throughout a substantial portion of the inertia phase. This permits the inertia phase to be completed faster without an unacceptable increase in output torque during the torque phase. Monotonically reducing the off-going clutch torque and using feedback from an output torque sensor enable sufficiently precise control of the off-going clutch torque capacity during this interval.

Abstract: Energy modeling of target infrastructure for energy management in distributed-facilities.

Abstract: A tympanostomy tube delivery device comprises a shaft assembly, a pressure equalization tube, and a sensor. The shaft assembly comprises a cannula and a pusher operable to translate relative to the cannula. The pressure equalization tube is positioned within the shaft assembly. The pusher is operable to drive the pressure equalization tube out of the shaft assembly. The sensor is operable to detect a physical parameter associated with engagement between the distal end of the shaft assembly and a tympanic membrane. A controller may activate a feedback device to inform an operator that the distal end of the shaft assembly has achieved suitable apposition with the tympanic membrane, based on information from the sensor.

Abstract: One example includes a device that is comprised of a pre-power amplifier, a power amplifier, a signal path, and a dynamic bias circuit. The pre-power amplifier amplifies an input signal and outputs a first amplified signal. The power amplifier receives the first amplified signal and amplifies the first amplified signal based on a dynamic bias signal to produce a second amplified signal at an output thereof. The signal path is coupled between an output of the pre-power amplifier and an input of the power amplifier. The dynamic bias circuit monitors the first amplified signal, generates the dynamic bias signal, and outputs the dynamic bias into the signal path.

Abstract: A method for assessing a finder's fee for directing merchant traffic includes: transmitting, by a transmitting device, offer data related to an offer for the purchase of goods or services to a mobile communication device, wherein the related offer is associated with a merchant; receiving, by a receiving device, an indication that a user of the mobile communication device viewed the transmitted offer data; receiving, by the receiving device, an indication that the mobile communication device was located at a geographic location associated with the merchant within a predetermined period of time of the viewing of the transmitted offer data by the user of the mobile communication device; generating, by a processing device, an authorization request for a payment transaction for a finder's fee to be paid by the merchant; and transmitting, by the transmitting device, the authorization request.

Abstract: Methods, systems, and devices are described for wireless communication at a UE. In aspects, a receiver may receive a transmission requesting information about support for data compression. The receiver may determine parameters related to the types of supported data compression and communicate the information to the transmitting device. In some cases, the receiver may then receive a message from the transmitting entity that requests establishment of a data compression configuration. The receiver may respond with confirmation or rejection of the proposed compression configuration. If the configuration is confirmed, the transmitter and receiver may exchange compressed data packets according to the configuration. The devices may exchange status and control information related to the compression configuration (e.g., in a compression header of a compressed message or a separate status and/or control information message).

Abstract: A method is provided in one example embodiment and may include determining for each of one or more macro cell radios, a corresponding set of one or more small cell radios that are under a coverage area of each of the one or more macro cell radios, wherein each corresponding set is associated with a corresponding macro cell radio; calculating interference coordination parameters for each small cell radio belonging to each corresponding set, wherein the interference coordination parameters for each small cell radio belonging to each corresponding set comprises an uplink interference budget for each small cell radio; and communicating the interference coordination parameters to each small cell radio belonging to each corresponding set.

Abstract: Systems, methods, and devices for computer-generating responses and sending responses to communications when the recipient of the communication is unavailable are disclosed. An individual may send a message (either audio or text) to a recipient. The recipient may be unavailable to contemporaneously respond to the message (e.g., the recipient may be performing an action that makes is difficult or impractical for the recipient to contemporaneously respond to the audio message). When the recipient is unavailable, a response to the message is generated and sent without receiving an instruction from the recipient to do so. The response may be sent to the message originating individual, and content of the response may thereafter be sent to the recipient to receive feedback regarding the correctness of the response. Alternatively, the response content may first be sent to the recipient to receive the feedback, and thereafter the response may be sent to the message originating individual.

Abstract: Structures for reliability caps used in the manufacture of a field-effect transistor and methods for forming reliability caps used in the manufacture of a field-effect transistor. A layer comprised of a metal silicon nitride is deposited on a high-k dielectric material. The high-k dielectric material is thermally processed in an oxygen-containing ambient environment with the layer arranged as a cap between the high-k dielectric material and the ambient environment. Due at least in part to its composition, the layer blocks transport of oxygen from the ambient environment to the high-k dielectric material.

Abstract: A method includes, for an N-bit system on chip (SoC), calculating a minimum number of bits NP that can simultaneously switch without producing an error across a complete warranty time period of the N-bit SoC. The method also includes carrying out power estimation calculations for the N-bit SoC using the calculated minimum number of bits NP.

Abstract: A device implementing unified media access control (MAC) for multiple physical layer devices may include at least one processor communicatively coupled to first and second physical layer modules that are configured to communicate with another device over first and second wireless channels, respectively. The at least one processor may be configured to receive one or more data items to be transmitted to the another device and to select at least one of the first or second physical layer modules for transmission of the one or more data items based at least in part on a first condition of the first physical wireless channel and a condition of the second physical wireless channel. The at least one processor may be further configured to provide the one or more data items to the selected at least one of the first or second physical layer modules for transmission to the another device.

Abstract: The present disclosure pertains to a mammalian cell culture genetically modified to express, and which expresses, a neublastin antibody polypeptide, or fragment thereof, in the culture, and to a neublastin antibody polypeptide, or fragment thereof, made by a mammalian cell culture genetically modified to express, and which expresses, the neublastin antibody polypeptide, or fragment thereof.

Abstract: A semiconductor device includes a gate electrode structure that is positioned adjacent to a channel region of a transistor element. The gate electrode structure includes a floating gate electrode portion, a negative capacitor portion, and a ferroelectric material capacitively coupling the floating gate electrode portion to the negative capacitor portion. A first conductive material is positioned between the floating gate electrode portion and the ferroelectric material, wherein a first portion of the first conductive material is embedded in and laterally surrounded by the floating gate electrode portion, and a second conductive material is positioned between the first portion of the first conductive material and the ferroelectric material, wherein the second conductive material is embedded in and laterally surrounded by a second portion of the first conductive material.

Abstract: Systems and methods for evaluating effectiveness of campaigns are disclosed. One exemplary method includes identifying a promotional campaign offered by a merchant during an offer period including an offer of a commodity at a predetermined price, and compiling a first set of payment accounts based on each payment account including a transaction to the merchant at the predetermined price within the offer period. The method also includes correlating the first set of payment accounts to a second set of payment accounts based on at least one identifying criteria associated with transactions to the payment accounts during a correlation period, which is different than the offer period. The method further includes generating and storing a comparison between the first set of payment accounts and the second set of payment accounts for transaction data during the offer period, to thereby indicate an effectiveness of the campaign.

Abstract: Forming a protective coating ex situ in an atomic layer deposition process to coat one or more chamber components subsequently installed in a reaction chamber provides a number of benefits over more conventional coating methods such as in situ deposition of an undercoat. In certain cases the protective coating may have a particular composition such as aluminum oxide, aluminum fluoride, aluminum nitride, yttrium oxide, and/or yttrium fluoride. The protective coating may help reduce contamination on wafers processed using the coated chamber component. Further, the protective coating may act to stabilize the processing conditions within the reaction chamber, thereby achieving very stable/uniform processing results over the course of processing many batches of wafers, and minimizing radical loss. Also described are a number of techniques that may be used to restore the protective coating after the coated chamber component is used to process semiconductor wafers.