Abstract: Predictive multi-planar semiconductor manufacturing systems and methods are provided including a processor, an artificial intelligence unit in communication with the processor, and a computer readable memory with processing instructions in communication with the processor. The manufacturing system receives and analyzes semiconductor design and manufacturing process rules and data and dimensions for a user's desired semiconductor. The artificial intelligence unit is configured to run simulations trying multiple three-dimensional, multi-planar shapes and analyzing for highest surface area yield based on the design and manufacturing process rules and data and the dimensions. The artificial intelligence unit is further configured to determine a three-dimensional, multi-planar shape for the desired semiconductor to optimize surface area based on the simulations and to construct the three-dimensional, multi-planar shape that optimizes surface area.

Abstract: Computer-implemented systems and methods for automatically generating an electronic circuit IP block are provided. The disclosed systems and methods maintain the process design rules (DRC Clean), connectivity (LVS Clean) correctness, and obey Reliability Verification (RV) and DFM (Design for Manufacturability) constraints, including time constraints. Exemplary systems and methods may include an electronic circuit layout generator and/or IP generator to obtain manufacturing processes and design rules from an external source, define a type of electronic circuit to be fabricated, prepare a circuit schematic of the defined electronic circuit, and generate an IP block for the defined electronic circuit based on the circuit schematic. A computer program generator is provided to create the defined electronic circuit. A computer readable storage medium contains processing instructions for obtaining the manufacturing processes and design rules and for fabricating the electronic circuit.

Abstract: Systems and methods of mobile database management and sharing are provided which include at least one mobile database and a first electronic circuit in communication with the mobile database. The system segments the mobile database into a plurality of database segments and indexes the plurality of database segments. The system sends one or more of the plurality of database segments to a second electronic circuit over a private secured communication protocol. One or both of the first and second electronic circuit may be housed within one or more mobile devices. Disclosed systems and methods include processing a database sharing request received from at least one mobile device wherein the database sharing request requests sharing of one or more of the plurality of database segments. A mobile device containing a database management and sharing system is also provided which includes a shared mobile database and one or more proxy entities related to the shared mobile database.

Abstract: Computer-implemented systems and methods for automatically eliminating connectivity mismatches in a mask layout block are provided. The disclosed systems and methods maintain the process design rules (DRC Clean), connectivity (LVS Clean) correctness, and obey Reliability Verification (RV) and DFM (Design for Manufacturability) constraints. Disclosed systems and methods analyze a physical connection of a selected polygon or net in a mask layout block and obtain connectivity information associated with the selected polygon or net from a netlist or external constraints file. The physical connection of the selected polygon or net is compared with the obtained connectivity information to determine whether there is a connectivity mismatch associated with the selected polygon or net.

Abstract: Monolithic multi-dimensional integrated circuits and memory architecture are provided. Exemplary integrated circuits comprise an electronic board having a first side and a second side, a multi-dimensional electronic package having multiple planes, and one or more semiconductor wafers mounted on the first side and the second side of the electronic board and on the multiple planes of the electronic package. Exemplary monolithic multi-dimensional memory architecture comprises one or more tiers, one or more monolithic inter-tier vias spanning the one or more tiers, at least one multiplexer disposed in one of the tiers, and control logic determining whether memory cells are active and which memory cells are active and controlling usage of the memory cells based on such determination. Each tier has a memory cell, and the inter-tier vias act as crossbars in multiple directions. The multiplexer is communicatively coupled to the memory cell in the respective tier.

Abstract: Multi-planar detection and imaging systems and methods are provided. The system has a radio device, at least one antenna, and a processing system in communication with the radio device. The radio device includes at least one receiver and a first transmitter transmitting radio waves in multiple planes. The antenna transmits the radio waves in multiple frequencies. A second transmitter transmits a carrier radio wave guiding the radio waves such that the radio waves identify points of interest in an object or living entity and reflect back to the radio device. The receiver receives the reflected radio waves, and the processing system analyzes the points of interest and constructs an image of the object or living entity. An AI engine including a recurrent neural network may be provided, and the recurrent neural network controls transmission of the radio waves.

Abstract: Monolithic multi-dimensional integrated circuits and memory architecture are provided. Exemplary integrated circuits comprise an electronic board having a first side and a second side, a multi-dimensional electronic package having multiple planes, and one or more semiconductor wafers mounted on the first side and the second side of the electronic board and on the multiple planes of the electronic package. Exemplary monolithic multi-dimensional memory architecture comprises one or more tiers, one or more monolithic inter-tier vias spanning the one or more tiers, at least one multiplexer disposed in one of the tiers, and control logic determining whether memory cells are active and which memory cells are active and controlling usage of the memory cells based on such determination. Each tier has a memory cell, and the inter-tier vias act as crossbars in multiple directions. The multiplexer is communicatively coupled to the memory cell in the respective tier.

Abstract: Systems and methods of mobile database management and sharing are provided which include at least one mobile database and a first electronic circuit in communication with the mobile database. The system segments the mobile database into a plurality of database segments and indexes the plurality of database segments. The system sends one or more of the plurality of database segments to a second electronic circuit over a private secured communication protocol. One or both of the first and second electronic circuit may be housed within one or more mobile devices. Disclosed systems and methods include processing a database sharing request received from at least one mobile device wherein the database sharing request requests sharing of one or more of the plurality of database segments. A mobile device containing a database management and sharing system is also provided which includes a shared mobile database and one or more proxy entities related to the shared mobile database.

Abstract: A tracking device for global tracking of objects is provided including a patch package comprised of a flexible material and an electronic circuit embedded within the patch package. The electronic circuit includes a controller, a secured basic input/output (BIOS) system, a memory unit, a radio unit, and an antenna. The radio unit and the antenna transmit the location of the tracking device. The antenna may be a wire antenna or a ball antenna. The flexible material may be sticky such that the tracking device may be affixed to an object. The electronic circuit may also include an affix sensor configured to determine whether the tracking device is affixed to and removed from an object. Methods of tracking objects using tracking device are also provided in which the tracking device is affixed to an object and a transmission is received from the electronic circuit providing location information of the tracking device.

Abstract: An electronic circuit is disclosed which has a process subsystem including a compliance circuit, a microprocessor, an interrupt controller, and a bridge. The electronic circuit also has a control block including a clock manager, a reset manager, a power manager, and a system control. The electronic circuit includes a crypto-block including a master sub-block, a slave sub-block, a direct memory access circuit, a packet buffer, and a crypto-engine. An interconnect communicatively connects the process subsystem to the control block and the crypto-block. A communications system is disclosed in which the electronic circuit is housed in one or more personal computing devices. A remote disablement system may be communicatively connected to the electronic circuit and configured to disable the electronic circuit. An emergency communications system may be communicatively connected to the electronic circuit to track and identify the location of each personal computing device.