Abstract: Dual self-aligned gate endcap (SAGE) architectures, and methods of fabricating dual self-aligned gate endcap (SAGE) architectures, are described. In an example, an integrated circuit structure includes a first semiconductor fin having a cut along a length of the first semiconductor fin. A second semiconductor fin is parallel with the first semiconductor fin. A first gate endcap isolation structure is between the first semiconductor fin and the second semiconductor fin. A second gate endcap isolation structure is in a location of the cut along the length of the first semiconductor fin.

Abstract: An autonomous vehicle is described herein. The autonomous vehicle includes several different types of sensor systems, such as image, lidar, and radar. The autonomous vehicle additionally includes a computing system that executes several different object classifier modules, wherein the object classifier modules are configured to identify types of objects that are in proximity to the autonomous vehicle based upon outputs of the sensor systems. The computing system additionally executes a Bayesian object classifier system that is configured to receive outputs of the object classifier modules and assign labels to objects captured in sensor signals based upon the outputs of the object classifier modules.

Abstract: Systems and method are provided for identifying free space between objects. The method includes retrieving, by a processor, a voxel grid around the vehicle wherein the voxel grid has a plurality of columns. The method further includes tracing, by the processor, lidar beams from a lidar system on the vehicle through the voxel grid, identifying, by the processor, a max subarray for each column in the voxel grid, classifying, by the processor, each column with a free space level, and outputting, by the processor, the classified columns as an image.

Abstract: A compound, enantiomer, prodrug, diastereomer, or salt is provided which is an activator of the enzyme glucokinase and thus is believed to be useful in as treating diabetes and related diseases, which compound has the structure (I). A method for treating diabetes and related disease employing the compound, enantiomer, prodrug, diastereomer, or salt is also provided.

Abstract: An autonomous vehicle is described herein. The autonomous vehicle includes several different types of sensor systems, such as image, lidar, and radar. The autonomous vehicle additionally includes a computing system that executes several different object classifier modules, wherein the object classifier modules are configured to identify types of objects that are in proximity to the autonomous vehicle based upon outputs of the sensor systems. The computing system additionally executes a Bayesian object classifier system that is configured to receive outputs of the object classifier modules and assign labels to objects captured in sensor signals based upon the outputs of the object classifier modules.

Abstract: Dual self-aligned gate endcap (SAGE) architectures, and methods of fabricating dual self-aligned gate endcap (SAGE) architectures, are described. In an example, an integrated circuit structure includes a first semiconductor fin having a cut along a length of the first semiconductor fin. A second semiconductor fin is parallel with the first semiconductor fin. A first gate endcap isolation structure is between the first semiconductor fin and the second semiconductor fin. A second gate endcap isolation structure is in a location of the cut along the length of the first semiconductor fin.

Abstract: Self-aligned gate endcap (SAGE) architectures having gate endcap plugs or contact endcap plugs, or both gate endcap plugs and contact endcap plugs, and methods of fabricating SAGE architectures having such endcap plugs, are described. In an example, a first gate structure is over a first of a plurality of semiconductor fins. A second gate structure is over a second of the plurality of semiconductor fins. A first gate endcap isolation structure is laterally between and in contact with the first gate structure and the second gate structure and has an uppermost surface co-planar with an uppermost surface of the first gate structure and the second gate structure. A second gate endcap isolation structure is laterally between and in contact with first and second lateral portions of the first gate structure and has an uppermost surface below an uppermost surface of the first gate structure.

Abstract: Unidirectional self-aligned gate endcap (SAGE) architectures with gate-orthogonal walls, and methods of fabricating unidirectional self-aligned gate endcap (SAGE) architectures with gate-orthogonal walls, are described. In an example, integrated circuit structure includes a first semiconductor fin having a cut along a length of the first semiconductor fin. A second semiconductor fin has a cut along a length of the second semiconductor fin. A gate endcap isolation structure is between the first semiconductor fin and the second semiconductor fin. The gate endcap isolation structure has a substantially uniform width along the lengths of the first and second semiconductor fins.

Abstract: A compound, enantiomer, prodrug, diastereomer, or salt is provided which is an activator of the enzyme glucokinase and thus is believed to be useful in as treating diabetes and related diseases, which compound has the structure (I). A method for treating diabetes and related disease employing the compound, enantiomer, prodrug, diastereomer, or salt is also provided.

Abstract: Systems and method are provided for identifying free space between objects. The method includes retrieving, by a processor, a voxel grid around the vehicle wherein the voxel grid has a plurality of columns. The method further includes tracing, by the processor, lidar beams from a lidar system on the vehicle through the voxel grid, identifying, by the processor, a max subarray for each column in the voxel grid, classifying, by the processor, each column with a free space level, and outputting, by the processor, the classified columns as an image.

Abstract: A processor-implemented method in a vehicle for detecting the motion of lidar points includes: constructing a sequence of voxel grids surrounding the vehicle at each of a plurality of successive time increments wherein the sequence of voxel grids includes a voxel grid for the current time and a voxel grid for each of a plurality of past time instances, tracing in each voxel grid in the sequence, lidar beams from a lidar system on the vehicle through the voxel grid, analyzing differences across the sequence of voxel grids to produce a motion score for a plurality of regions in the voxel grid for the current time that characterizes the degree of motion in the region over the successive time increments, summing the motion scores of the regions across columns to produce a summed motion score for each column of regions, and producing a 2D image from the summed motion scores.

Abstract: A device is provided. The device includes a transistor formed on a semiconductor substrate, the transistor having a conduction channel. The device includes at least one edge dislocation formed adjacent to the conduction channel on the semiconductor substrate. The device also includes at least one free surface introduced above the conduction channel and the at least one edge dislocation.

Abstract: A device is provided. The device includes a transistor formed on a semiconductor substrate, the transistor having a conduction channel. The device includes at least one edge dislocation formed adjacent to the conduction channel on the semiconductor substrate. The device also includes at least one free surface introduced above the conduction channel and the at least one edge dislocation.

Abstract: A device is provided. The device includes a transistor formed on a semiconductor substrate, the transistor having a conduction channel. The device includes at least one edge dislocation formed adjacent to the conduction channel on the semiconductor substrate. The device also includes at least one free surface introduced above the conduction channel and the at least one edge dislocation.

Abstract: Embodiments of the present invention comprise systems, methods and devices for providing external accounting functions for a peripheral device.

Abstract: A method is provided for securely decrypting files that are wirelessly sent to a mobile device. A mobile device typically has a wireless interface, such as a cellular telephone or WiFi interface that can be used to accept an encrypted file from a first remote device. A decryption key representation is accepted from a second remote device via a personal proximity interface which can be a camera, microphone, or near-field radio frequency (RF) detector. In one aspect, the first device can, for example, be a multi-functional peripheral (MFP), a network server, or a computer. In another aspect, the first and second devices can be the same device, such as an MFP or a computer. A mobile device conversional application converts the decryption key representation to a digital decryption key, and the digital decryption key is then used to decrypt the encrypted file.

Abstract: Embodiments of the present invention comprise systems, methods and devices for imaging device display standardization.

Abstract: Aspects of the present invention relate to systems, methods and devices for imaging device display content localization. Some aspects relate to methods and systems for sending geographical-locale-related information from an imaging device to a remote computing device where the geographical-locale-related information is matched with related data comprising a language and at least one of a time format, a date format, an address format, a calendar format, a currency type and a geographical-locale-related cultural custom, which is then sent to the imaging device for output to a user.

Abstract: A display, possibly in combination with a computer, is used to manage the shape and position of various inputs, so that the inputs can be presented in combination. Possible combinations include displaying a subset of one input with another input, either overlapping or adjacent, displaying a temporal subset of one input, and using conditions to automatically control the selection of inputs.

Abstract: Embodiments of the present invention comprise systems, methods and devices for imaging device display standardization.