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2024
|
Invention
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Methods for reading resistive states of resistive change elements.
The present disclosure genera... |
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2023
|
Invention
|
Resistive change element arrays. Combinations of resistive change elements and resistive change e... |
|
|
Invention
|
Methods for programming and accessing resistive change elements using neutral voltage conditions.... |
|
|
Invention
|
Three dimensional (3d) memories with multiple resistive change elements per cell and correspondin... |
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|
Invention
|
Resistive change elements using nanotube fabrics employing break-type switching sites.
Two-termi... |
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2022
|
Invention
|
Methods for fabricating resistive change element arrays.
A method to fabricate a resistive chang... |
|
|
Invention
|
Methods for accessing resistive change elements operable as antifuses. Devices and methods for ac... |
|
|
Invention
|
Methods for forming composite armor plates using ordered nanotube fabrics.
A method for arrangin... |
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2021
|
Invention
|
Devices for providing neutral voltage conditions for resistive change elements in resistive chang... |
|
|
Invention
|
Resistive change elements using passivating interface gaps and methods for making same. A method ... |
|
|
Invention
|
Optically-enabled server with carbon nanotubes-based memory.
Embodiments directed at the design ... |
|
|
Invention
|
Printed circuit boards impregnated with carbon nano tubes.
Embodiments of the present technology... |
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2020
|
Invention
|
Methods for programing ddr compatible open architecture resistive change element arrays. A high-s... |
|
|
Invention
|
Electrostatic discharge protection devices using carbon-based diodes. The present disclosure is d... |
|
|
Invention
|
Three-dimensional array architecture for resistive change element arrays and methods for making s... |
|
|
Invention
|
Combinational resistive change elements. The present disclosure generally relates to combinations... |
|
|
Invention
|
Methods for characterizing nanotube formulations for nanotube fabrics with controlled surface rou... |
|
|
Invention
|
Sense amplifiers. The present disclosure generally relates to circuit architectures for programmi... |
|
|
Invention
|
Protective armor using ordered nanotube fabrics.
A method for arranging nanotube elements within... |
|
|
Invention
|
Nonvolatile nanotube switch elements using sidewall contacts. Under one aspect, a non-volatile na... |
|
|
Invention
|
Methods for accessing 1-r resistive change element arrays. Methods for reading and programming on... |
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2019
|
Invention
|
Devices for programming resistive change elements in resistive change element arrays. Devices and... |
|
|
Invention
|
Non-linear resistive change memory cells and arrays. The present disclosure is directed toward ca... |
|
|
Invention
|
Methods of making sealed resistive change elements. Methods for scaling dimensions of resistive c... |
|
|
Invention
|
Resistive change element arrays using a reference line. A high-speed memory circuit architecture ... |
|
|
Invention
|
Nonvolatile nanotube memory arrays using nonvolatile nanotube blocks and cell selection transisto... |
|
|
Invention
|
Combinational resistive change elements. Combinations of resistive change elements and resistive ... |
|
|
Invention
|
Methods for accessing resistive change elements in resistive change element arrays. Devices and m... |
|
|
Invention
|
Methods for forming crosspoint arrays of resistive change memory cells. The present disclosure is... |
|
|
Invention
|
Resistive change element cells sharing selection devices. Resistive change element cells sharing ... |
|
|
Invention
|
Nonvolatile nanotube switches with reduced switching voltages and currents. A non-volatile nanotu... |
|
|
Invention
|
Method for programming 1-r resistive change element arrays. Methods for reading and programming o... |
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2018
|
Invention
|
Devices and methods for programming resistive change elements. Devices and methods for programmin... |
|
|
Invention
|
Double density nonvolatile nanotube switch memory cells. Under one aspect, a non-volatile nanotub... |
|
|
Invention
|
Logic elements comprising carbon nanotube field effect transistor (cntfet) devices and methods of... |
|
|
Invention
|
Resistive change elements incorporating carbon based diode select devices. The present disclosure... |
|
|
Invention
|
Stacked three-dimensional arrays of two terminal nanotube switching devices. Under one aspect, a ... |
|
2017
|
Invention
|
Devices and methods for accessing resistive change elements in resistive change element arrays. D... |
|
|
Invention
|
Resistive change element arrays with in situ initialization. A high-speed memory circuit architec... |
|
|
Invention
|
Nonvolatile nanotube switches and systems using same. A non-volatile nanotube switch and memory a... |
|
|
Invention
|
Methods for error correction with resistive change element arrays. Error correction methods for a... |
|
|
Invention
|
Circuits for determining the resistive states of resistive change elements. Devices and methods f... |
|
|
Invention
|
Sealed resistive change elements. Methods for scaling dimensions of resistive change elements, re... |
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2016
|
P/S
|
Formulated fluids for use in making nanotube fabrics;
formulated fluids for use in making nanotu... |
|
|
P/S
|
Computer memory chips. |
|
|
P/S
|
Formulated fluids consisting of chemicals for use in making nanotube fabrics; Formulated fluids c... |
|
|
P/S
|
Integrated circuits. |
|
2011
|
P/S
|
integrated circuits |
|
2008
|
P/S
|
Logic circuits, namely, microprocessors and digital signal processors; storage drives for electro... |
|
2006
|
P/S
|
Semiconductor memory devices, namely memory embedded in
integrated circuits. |
|
2005
|
P/S
|
semiconductor memory devices, namely, memory embedded in integrated circuits |
|
|
P/S
|
Computer logic circuits, namely integrated circuits,
microprocessors, microcontrollers, applicat... |
|
|
P/S
|
Computer logic circuits, namely, integrated circuits, [ microprocessors, ] microcontrollers, [ ap... |
|
2002
|
P/S
|
Memory chips. |
|
2001
|
P/S
|
computer memory chips |
