An arrangement and a method for observing fitting rooms (100) and/or fitting areas (200), wherein following steps are performed in the method: detecting number, type, size and/or colour of products brought to the fitting room and/or fitting area by detecting presence of remotely readable identification tags, electronic article surveillance tags and/or electronic price labels in the fitting room and/or fitting area (200) and reading product information linked to the remotely readable identification tag, electronic article surveillance tag and/or electronic price label, comparing detected number, type, size and/or colour of products to predefined criteria, the criteria relating to the number, type, size and/or colour of products, and generating an alarm based on the detected number, type, size and/or colour of products if at least one predefined criterion is fulfilled.

Technologies for composing a managed node with multiple processors on multiple compute sleds to cooperatively execute a workload include a memory, one or more processors connected to the memory, and an accelerator. The accelerator further includes a coherence logic unit that is configured to receive a node configuration request to execute a workload. The node configuration request identifies the compute sled and a second compute sled to be included in a managed node. The coherence logic unit is further configured to modify a portion of local working data associated with the workload on the compute sled in the memory with the one or more processors of the compute sled, determine coherence data indicative of the modification made by the one or more processors of the compute sled to the local working data in the memory, and send the coherence data to the second compute sled of the managed node.

An apparatus for analysing the condition of a machine having a part rotating with a speed of rotation (f.sub.ROT), comprising: a first sensor (10) adapted to generate an analogue electric measurement signal (S.sub.EA) dependent on mechanical vibrations (V.sub.MD) emanating from rotation of said part; an analogue-to-digital converter (40, 44) adapted to sample said analogue electric measurement signal (S.sub.EA) at an initial sampling frequency (f.sub.S) so as to generate a digital measurement data signal (SMD, .sub.SENV) in response to said received analogue electric measurement signal (S.sub.EA); a device (420) for generating a position signal (Ep) having a sequence of position signal values (P.sub.(i)) for indicating momentary rotational positions of said rotating part; and a speed value generator (601) being adapted for recording a time sequence of said position signal values (P.sub.(i)) such that there are angular distances (delta-FI.sub.p1-p2, delta-FI.sub.p2-p3) and corresponding durations (delta-T.sub.p1-p2; delta-T.sub.p2-p3) between at least three consecutive position signals (P1, P2, P3) wherein the speed value generator (601) operates to establish at least two momentary speed values (VT1; VT2) based on said angular distances (delta-FI.sub.p1-p2, delta-FI.sub.p2-p3) and said corresponding durations (delta-T.sub.p1-p2; delta-T.sub.p2-p3), and wherein further momentary speed values for the rotational part (8) are established by interpolation between the at least two momentary speed values (VT1, VT2).

An apparatus for analysing the condition of a machine having a part rotating with a speed of rotation (f.sub.ROT), comprising: a first sensor (10) adapted to generate an analogue electric measurement signal (S.sub.EA) dependent on mechanical vibrations (V.sub.MD) emanating from rotation of said part; an analogue-to-digital converter (40, 44) adapted to sample said analogue electric measurement signal (S.sub.EA) at an initial sampling frequency (f.sub.S) so as to generate a digital measurement data signal (SMD, .sub.SENV) in response to said received analogue electric measurement signal (S.sub.EA); a device (420) for generating a position signal (Ep) having a sequence of position signal values (P.sub.(i)) for indicating momentary rotational positions of said rotating part; and a speed value generator (601) being adapted for recording a time sequence of said position signal values (P.sub.(i)) such that there are angular distances (delta-FI.sub.p1-p2, delta-FI.sub.p2-p3) and corresponding durations (delta-T.sub.p1-p2; delta-T.sub.p2-p3) between at least three consecutive position signals (P1, P2, P3) wherein the speed value generator (601) operates to establish at least two momentary speed values (VT1; VT2) based on said angular distances (delta-FI.sub.p1-p2, delta-FI.sub.p2-p3) and said corresponding durations (delta-T.sub.p1-p2; delta-T.sub.p2-p3), and wherein further momentary speed values for the rotational part (8) are established by interpolation between the at least two momentary speed values (VT1, VT2).

Systems and methods are provided for providing an ordered list of search results in response to a query. Consistent with certain embodiments, computer-implemented systems and methods may identify content items corresponding to a query. First relevance scores may be determined for the identified content items based on their relevance to the query. Second relevance scores may be determined by modifying at least one of the first relevance scores using a boost value. The boost value may be set to a default boost value when the query does not include an override boost value. The boost value may be set to the override boost value, when the query includes an override boost value. An ordered list of the identified content items may be generated based on the second relevance scores. The ordered list may be displayed on a display device.

Portable devices for anti-drug antibodies (ADAs) testing are provided. These devices can be used in various applications, including but not restricted to the following: uniform testing of patients for ADAs; selection of therapeutic drug for patient treatment; evaluation of the need to change therapeutic drug or to apply tolerance regimens; selection of patients for clinical trials; comparison of therapeutic drugs marketed for a given disease and also gene therapy; scientific guidance for discovering therapeutic drugs; therapeutic drug development; postmarketing surveillance of therapeutic drugs.

Technologies for dividing work across one or more accelerator devices include a compute device. The compute device is to determine a configuration of each of multiple accelerator devices of the compute device, receive a job to be accelerated from a requester device remote from the compute device, and divide the job into multiple tasks for a parallelization of the multiple tasks among the one or more accelerator devices, as a function of a job analysis of the job and the configuration of each accelerator device. The compute engine is further to schedule the tasks to the one or more accelerator devices based on the job analysis and execute the tasks on the one or more accelerator devices for the parallelization of the multiple tasks to obtain an output of the job.

Technologies for dividing work across one or more accelerator devices include a compute device. The compute device is to determine a configuration of each of multiple accelerator devices of the compute device, receive a job to be accelerated from a requester device remote from the compute device, and divide the job into multiple tasks for a parallelization of the multiple tasks among the one or more accelerator devices, as a function of a job analysis of the job and the configuration of each accelerator device. The compute engine is further to schedule the tasks to the one or more accelerator devices based on the job analysis and execute the tasks on the one or more accelerator devices for the parallelization of the multiple tasks to obtain an output of the job.

A processor includes a vector register including data fields to store values of vector elements of data, a decoder to decode a single instruction multiple data (SIMD) instruction specifying a source operand and a mask to identify a masked portion of the data fields. An execution unit is to read a plurality of values from unmasked data fields of the plurality of data fields of the vector register; compare, within the vector register, each of the plurality of values from the unmasked data fields for equality with all other values of the plurality of values; and responsive to a detection of an inequality of any two values of the plurality of values, set a mask field, corresponding to a detected unequal value, to a masked state with a flip of a bit value of the mask field, to signal the detection of the inequality.

A child-oriented browsing system is provided wherein the system is implemented using a piece of client software, executing on the computing device of a child, and a website/server that manages the client software and other functions of the child-oriented browsing system.