Abstract: In various embodiments, a memory cell for storing two or more bits of information includes two series-connected memory storage elements composed of programmable materials having different melting points, enabling independent programming of the storage elements via different current pulses.

Abstract: In various embodiments, a memory storage element for storing two or more bits of information is formed by connecting two resistive change elements in series whereby the first resistive change element is made of a first material and the second resistive change element is made of a second material and the melting point of the first resistive change element material is greater than the melting point of the second resistive change element material such that the set and reset states of the two elements can be written and read.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F.sup.2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: A method for producing a substantially planar surface for semiconductor processing to improve lithography, planarization, and other process steps that benefit from a flat substrate. The method includes depositing a first alloy to form a first layer on a substrate. The first layer has a center high deposition, meaning the height in the center of the substrate is higher than the height at the edges of the substrate. The method further includes depositing a second alloy on the first layer to form a second layer. The first alloy has a different composition than the second alloy. In such a method the net deposition is substantially planar reducing or eliminating deposition induced long-range distortions that might occur across a substrate.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F.sup.2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: In various embodiments, a memory storage element for storing two or more bits of information is formed by connecting two resistive change elements in series whereby the first resistive change element is made of a first material and the second resistive change element is made of a second material and the melting point of the first resistive change element material is greater than the melting point of the second resistive change element material such that the set and reset states of the two elements can be written and read.

Abstract: In various embodiments, a memory cell for storing two or more bits of information includes two series-connected memory storage elements composed of programmable materials having different melting points, enabling independent programming of the storage elements via different current pulses.

Abstract: The present invention is a means and a method for speeding up the fabrication process, lowering the cost and improving yields. The present invention is a method for manufacturing memory cells in a diode memory array by utilizing selective epitaxial growth techniques to form high quality silicon for diodes and then lesser quality silicon to fill recesses and prepare the surface for subsequent planarization or etching steps.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: The present invention is a method of incorporating a non-volatile memory into a CMOS process that requires four or fewer masks and limited additional processing steps. The present invention is an epi-silicon or poly-silicon process sequence that is introduced into a standard CMOS process (i) after the MOS transistors' gate oxide is formed and the gate poly-silicon is deposited (thereby protecting the delicate surface areas of the MOS transistors) and (ii) before the salicided contacts to those MOS transistors are formed (thereby performing any newly introduced steps having an elevated temperature, such as any epi-silicon or poly-silicon deposition for the formation of diodes, prior to the formation of that salicide). A 4F2 memory array is achieved with a diode matrix wherein the diodes are formed in the vertical orientation.

Abstract: A method for fabricating a memory device includes depositing a phase-change and/or a resistive change material. The memory device is formed photolithographically using sixteen or fewer masks.

Abstract: A memory cell includes a current-steering device, a phase-change material disposed thereover, and a heating element and/or a cooling element.

Abstract: A method for fabricating a memory device includes depositing a phase-change and/or a resistive change material. The memory device is formed photolithographically using sixteen or fewer masks.