Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method that includes receiving, at a local device from a remote device, query data representative of a question relating to source content of a source document of a repository of a plurality of source documents, with the source content being associated with transformed content accessible from the local device. The method further includes generating, in response to determination, at the local device, of a match between the query data and at least one portion of the transformed content, output data comprising one or more of a pointer to access, in the source document accessible from the remote device, at least one portion of the source document corresponding to the at least one portion of the transformed content, or a copy of the at least one portion of the source document.

Abstract: An electronic circuit is described, comprising: a first power rail; a second power rail; and a field effect transistor, FET, the FET comprising: a first terminal coupled directly or indirectly to the first power rail; a second terminal coupled directly or indirectly to the second power rail; a channel of semiconductive material connecting the first terminal to the second terminal; a gate terminal to which a voltage may be applied to control a conductivity of the channel, the channel providing a conduction path from the first terminal to the second terminal; and a gate dielectric arranged to insulate the gate terminal from the channel. The circuit further comprises a layer or other body of dielectric material, the gate dielectric being a first portion of the layer or other body of dielectric material.

Abstract: An RFID tag for capacitively coupled RFID communication with an RFID reader. The RFID tag comprising an integrated circuit (IC), the IC including a first RFID tag electrode arranged to capacitively couple with a first electrode of the RFID reader to form a first capacitor, and a second RFID tag electrode arranged to capacitively couple with a second electrode of the RFID reader to form a second capacitor when the RFID tag is in a first position relative to the RFID reader; power supply circuitry configured to extract power from a first time-varying signal received from the RFID reader via at least one of the first RFID tag electrode and the second RFID tag electrode, and supply the extracted power to circuitry of the RFID tag; and data transmission circuitry configured to receive the extracted power from the power supply circuitry, and transmit data to the RFID reader via at least one of the first RFID tag electrode and the second RFID tag electrode.

Abstract: The present invention provides processes for manufacturing a plurality of discrete integrated circuits (ICs) on a carrier, the process comprising the steps of: providing a carrier for a flexible substrate; depositing a flexible substrate of uniform thickness on said carrier; removing at least a portion of the thickness of the flexible substrate from at least a portion of the IC connecting areas to form channels in the flexible substrate and a plurality of IC substrate units spaced apart from one another on the carrier by said channels; forming an integrated circuit on at least one of the IC substrate units.

Abstract: The invention relates to a process and apparatus for selectively changing adhesion strength between a flexible substrate and a carrier at specific locations in order to facilitate shipping and subsequent removal of the flexible substrate from the carrier, the process comprising the steps of: providing a flexible substrate comprising a plurality of integrated circuits thereon; providing a carrier for the flexible substrate and adhering the flexible substrate to the carrier by creating an interface between the flexible substrate and the carrier; changing the adhesion force between the flexible substrate and the carrier at selected locations by non-uniform treatment of the interface between the flexible substrate and the carrier with an electromagnetic radiation source (e.g. a laser, flashlamp, high powered LED, an infrared radiation source or the like) so as to decrease or increase the adhesion force between a portion of the flexible substrate and the carrier at the selected location.

Abstract: A Schottky diode comprises: a first electrode; a second electrode; and a body of semiconductive material connected to the first electrode at a first interface and connected to the second electrode at a second interface, wherein the first interface comprises a first planar region lying in a first plane and the first electrode has a first projection onto the first plane in a first direction normal to the first plane, the second interface comprises a second planar region lying in a second plane and the second electrode has a second projection onto the first plane in said first direction, at least a portion of the second projection lies outside the first projection, said second planar region is offset from the first planar region in said first direction, and one of the first interface and the second interface provides a Schottky contact.

Abstract: A method, apparatus and system for secure one-way RFID tag identifications provided. The method comprising generating, at an RFID tag, an auxiliary identifier; generating, at an RFID tag, a secure representation based on the auxiliary identifier; transmitting, from the RFID tag and receiving at an RFID reader, one or more representations of the auxiliary identifier and the tag identifier including the secure representation; and verifying the identity of the RFID tag based on the received representations.

Abstract: The present invention relates to a method and apparatus for manufacturing a plurality of electronic circuits, each electronic circuit comprising a respective flexible first portion, comprising a respective group of contact pads (contacts), and a respective flexible integrated circuit, IC, comprising a respective group of terminals and mounted on the respective group of contact pads with each terminal in electrical contact with a respective contact pad, the method comprising: providing (e.g. manufacturing) a flexible first structure comprising the plurality of first portions; providing (e.g.

Abstract: The invention enables a client device that does not support IEEE 802.1X authentication to access at least some resources provided through a switch that supports 802.1X authentication by using dynamic authentication with different protocols. When the client device attempts to join a network, the switch monitors for an 802.1X authentication message from the client device. In one embodiment, if the client fails to send an 802.1X authentication message, respond to an 802.1X request from the switch, or a predefined failure condition is detected the client may be deemed incapable of supporting 802.1X authentication. In one embodiment, the client may be initially placed on a quarantine VLAN after determination that the client fails to perform an 802.1X authentication within a backoff time limit. However, the client may still gain access to resources based on various non-802.1X authentication mechanisms, including name/passwords, digital certificates, or the like.