Abstract: Embodiments include apparatuses, methods, and systems for an antenna for a wearable device that includes a bezel on the wearable device to include a conductive circuit path to transmit and receive radiofrequency (RF) signals to and from the wearable device. In some embodiments, the bezel may be formed of a substantially conductive material to form the conductive circuit path. In other embodiments the bezel may be formed of a substantially non-conductive material and may include a conductive antenna pattern located on a surface of the bezel to form the conductive circuit path. Other embodiments may also be described and claimed.

Abstract: Techniques are disclosed for forming an integrated circuit including a capacitor having a multilayer dielectric stack. For example, the capacitor may be a metal-insulator-metal capacitor (MIMcap), where the stack of dielectric layers is used for the insulator or ‘I’ portion of the MIM structure. In some cases, the composite or multilayer stack for the insulator portion of the MIM structure may include a first oxide layer, a dielectric layer, a second oxide layer, and a high-k dielectric layer, as will be apparent in light of this disclosure. Further, the multilayer dielectric stack may include an additional high-k dielectric layer, for example. Use of such multilayer dielectric stacks can enable increases in capacitance density and/or breakdown voltage for a MIMcap device. Further, use of a multilayer dielectric stack can enable tuning of the breakdown and capacitance characteristics as desired. Other embodiments may be described and/or disclosed.

Abstract: Embodiments include apparatuses, methods, and systems including a semiconductor photonic device having a substrate, a waveguide disposed above the substrate, a phase change layer disposed above the waveguide, and a heater disposed above the phase change layer. The waveguide has a modifiable refractive index based at least in part on a state of a phase change material included in the phase change layer. The phase change material of the phase change layer is in a first state of a set of states, and the waveguide has a first refractive index determined based on the first state of the phase change material. The heater is to generate heat to transform the phase change material to a second state of the set of states, and the waveguide has a second refractive index determined based on the second state of the phase change material. Other embodiments may also be described and claimed.

Abstract: A processor semiconductor chip is described. The processor semiconductor chip includes at least one processing core. The processor semiconductor chip also includes a memory controller. The processor semiconductor chip also includes an embedded non flash non-volatile random access memory having a stack of storage cells disposed above the processor semiconductor chip's semiconductor substrate. The embedded non-volatile random access memory is to store boot up program code that, when executed by the processor semiconductor chip, is to analyze a subsequent module of program code so that a maliciously modified version of the subsequent module of program code can be identified. The embedded non-volatile random access memory to also store the subsequent module of program code.

Abstract: Embodiments of the present disclosure describe signaling of positioning measurement indications or measurement gap requests. Other embodiments may be described and claimed.

Abstract: Systems, apparatuses and methods may provide a way to monitor, by a process monitor, one or more processing factors of one or more client devices hosting one or more user sessions. More particularly, the systems, apparatuses and methods may provide a way to generate, responsively, a scene generation plan based on one or more of a digital representation of an N dimensional space or at least one of the one or more processing factors, and generate, by a global scene generator, a global scene common to the one or more client devices based on the digital representation of the space. The systems, apparatuses and methods may further provide for performing, by a local scene generator, at least a portion of the global illumination based on one or more of the scene generation plan, or application parameters.

Abstract: A computing platform implements one or more secure enclaves including a first provisioning enclave to interface with a first provisioning service to obtain a first attestation key from the first provisioning service, a second provisioning enclave to interface with a different, second provisioning service to obtain a second attestation key from the second provisioning service, and a provisioning certification enclave to sign first data from the first provisioning enclave and second data from the second provisioning enclave using a hardware-based provisioning attestation key. The signed first data is used by the first provisioning enclave to authenticate to the first provisioning service to obtain the first attestation key and the signed second data is used by the second provisioning enclave to authenticate to the second provisioning service to obtain the second attestation key.

Abstract: Techniques are provided for facial image replacement between a reference facial image and a target facial image, of varying pose and illumination, using 3-dimensional morphable face models (3DMMs). A methodology implementing the techniques according to an embodiment includes fitting the reference face and the target face to a first and second 3DMM, respectively. The method further includes generating a texture map based on the fitted 3D reference face and rendering the fitted 3D reference face to a pose of the fitted 3D target face. The rendering is based on parameters of the first 3DMM, parameters of the second 3DMM, and the generated texture map associated with the fitted 3D reference face. The method further includes, determining a region of interest of the target facial image; and blending the rendered 3D reference face onto the region of interest of the target facial image to generate a replaced facial image.

Abstract: Technologies for secure I/O include a compute device, which further includes a processor, a memory, a trusted execution environment (TEE), one or more input/output (I/O) devices, and an I/O subsystem. The I/O subsystem includes a device memory access table (DMAT) programmed by the TEE to establish bindings between the TEE and one or more I/O devices that the TEE trusts and a memory ownership table (MOT) programmed by the TEE when a memory page is allocated to the TEE.

Abstract: In various embodiments, the disclosure describes transistors having non-vertical gates. In one embodiment, the non-vertical gates can have a curved or wide angle gate in order to reduce the electric field crowing on the drain side of the gate edge and/or portions having corners and thereby reduce leakage current in the transistor. In one embodiment, the non-vertical gate can be generated by one or more etching steps (for example, isotropic etching steps) of an underlying channel during the fabrication of a transistor having the non-vertical gate. In one embodiment, the non-vertical gate can be generated by one or more directional etching steps that may expose various facets having predetermined orientations of a source and/or drain associated with the transistor.

Abstract: One embodiment provides an apparatus. The apparatus includes first memory controller circuitry to control read and/or write access to first memory circuitry via a first conductive bus. The apparatus includes second memory controller circuitry to control read and/or write access to second memory circuitry via a second conductive bus. The apparatus includes power control circuitry coupled to the first memory controller circuitry and the second memory controller circuitry. The power control circuitry transfers data from the second memory circuitry with the second memory controller circuitry via the second conductive bus to the first memory circuitry with the first memory controller circuitry via the first conductive bus. The power control circuitry powers down the second memory circuitry after the transfer of the data from the second memory circuitry to the first memory circuitry. The power control circuitry decreases power consumption of the apparatus and may increase batter life of the apparatus.

Abstract: Provided are an apparatus and system to cache data in a first cache and a second cache that cache data from a shared memory in a local processor node, wherein the shared memory is accessible to at least one remote processor node. A cache controller writes a block to the second cache in response to determining that the block is more likely to be accessed by the local processor node than a remote processor node. The first cache controller writes the block to the shared memory in response to determining that the block is more likely to be accessed by the one of the at least one remote processor node than the local processor node without writing to the second cache.

Abstract: Technologies for detecting minority events are disclosed. By performing a guided hierarchical classification algorithm with a decision tree structure and grouping the minority class(es) in with some of the majority classes, large majority classes may be separated from a minority class without requiring good detection of the minority events by themselves. The decision tree structure may be used only for the purpose of identifying if the data sample in question is a member of a minority class. If it is determined that it is not, a primary classification algorithm may be used. With this approach, the guided hierarchical classification algorithm need not perform as well as the primary classification algorithm for the majority events, but may provide improved detection for minority events.

Abstract: Techniques for offloading operations to access data that is compressed and distributed to multiple storage nodes are disclosed. A storage node includes one or more storage devices to store a portion of compressed data. Other portions of the compressed data are stored on other storage nodes. A storage node receives a request to perform an operation on the data, decompresses at least part of the portion of the locally stored compressed data, and performs the operation on the decompressed part, returning the operation result to a compute node. Any part that could not be decompressed can be sent with the request to the next storage node. The process continues until all the storage nodes storing the compressed data receive the request, decompress the locally stored data, and perform the operation on the decompressed data.

Abstract: An apparatus is described that includes a solid state drive having non volatile buffer memory and non volatile primary storage memory. The non volatile buffer memory is to store less bits per cell than the non volatile primary storage memory. The solid state drive includes a controller to flush the buffer in response to a buffer flush command received from a host. The controller is to cause the solid state drive to service read/write requests that are newly received from the host in between flushes of smaller portions of the buffer's content that are performed to service the buffer flush command.

Abstract: Embodiments detailed herein relate to matrix operations. In particular, tile diagonal support is described. For example, a processor is detailed having decode circuitry to decode an instruction having fields for an opcode, a source operand identifier, and a destination matrix operand identifier; and execution circuitry to execute the decoded instruction to write the identified source operand to each element along a main diagonal of the identified destination matrix operand.

Abstract: A RAN-based cellular integration architecture is described that eliminates or minimizes required core network support. A local access gateway (LA-GW) node, which may be a logical and physical node, may provide an interface, with a cellular base station, and may forward downlink and/or uplink local IP packets that are then redirected to the cellular link. Network Address Translation (NAT) and a “local access” field are used to support transmission of local access packets over the cellular link.

Abstract: Particular embodiments described herein provide for an electronic device that can be configured to enable an active loading mechanism. The electronic device can include a printed circuit board, a heat source located on the printed circuit board, and an active loading mechanism secured to the printed circuit board. The active loading mechanism is over the heat source and includes shape memory material. When the shape memory material is not activated, the active loading mechanism applies a first load on the heat source and when the shape memory material is activated, the active loading mechanism applies a second load on the heat source.

Abstract: An embodiment of an electronic processing system may include an application processor, persistent storage media communicatively coupled to the application processor, a graphics subsystem communicatively coupled to the application processor, a sense engine communicatively coupled to the graphics subsystem to provide sensed information, a focus engine communicatively coupled to the sense engine and the graphics subsystem to provide focus information, a motion engine communicatively coupled to the sense engine, the focus engine, and the graphics subsystem to provide motion information, and a motion biased foveated renderer communicatively coupled to the motion engine, the focus engine, the sense engine to adjust one or more parameters of the graphics subsystem based on one or more of the sense information, the focus information, and the motion information. Other embodiments are disclosed and claimed.

Abstract: An example system enabling a dual fisheye model and calibration is described. The system includes a calibration module that simultaneously generates a first set of coefficients of an inverse distortion polynomial f(?) representing radial distortion and a second set of coefficients of an alternative distortion polynomial g(?). Further, the present techniques may also calibrate intrinsic and extrinsic parameters.