Patents by Inventor Innocenzo Tortorelli
Innocenzo Tortorelli has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11915750Abstract: A memory device can include a plurality of memory cells including a first group of memory cells and a second group of memory cells programmed to a predefined logic state. The plurality of memory cells includes a memory controller configured to apply a reading voltage to at least one selected memory cell of the first group during a reading operation, apply the reading voltage to the memory cells of the second group, and responsive to the logic state of at least one memory cell of the second group being assessed to be different from the predefined logic state perform a refresh operation of the memory cells of the first group by applying a recovery voltage higher than the reading voltage to assess the logic state thereof and reprogramming the memory cells of the first group to the logic state assessed with the recovery voltage.Type: GrantFiled: July 11, 2022Date of Patent: February 27, 2024Assignee: Micron Technology, Inc.Inventors: Marco Sforzin, Paolo Amato, Innocenzo Tortorelli
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Publication number: 20240057489Abstract: Methods, systems, and devices for random number generation based on threshold voltage randomness are described. For example, a memory device may apply a voltage to a chalcogenide element and increase the applied voltage at least until the applied voltage satisfies a threshold voltage associated with the chalcogenide element. The memory device may detect the state of an oscillating signal at a time at which the applied voltage satisfies the threshold voltage, and the memory device may output a logic value corresponding to the state of the oscillating signal. The threshold voltage of the chalcogenide element may vary in a statistically random manner across voltage applications, and hence the state of the oscillating signal at the time an applied voltage reaches the threshold voltage may likewise vary in a statistically random manner, and thus the corresponding logic value that is output may be a random value suitable for random number generation.Type: ApplicationFiled: August 9, 2022Publication date: February 15, 2024Inventors: Innocenzo Tortorelli, Matteo Impalà, Cécile Colette Solange Nail
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Publication number: 20240049610Abstract: Methods and devices based on the use of dopant-modulated etching are described. During fabrication, a memory storage element of a memory cell may be non-uniformly doped with a dopant that affects a subsequent etching rate of the memory storage element. After etching, the memory storage element may have an asymmetric geometry or taper profile corresponding to the non-uniform doping concentration. A multi-deck memory device may also be formed using dopant-modulated etching. Memory storage elements on different memory decks may have different taper profiles and different doping gradients.Type: ApplicationFiled: September 29, 2023Publication date: February 8, 2024Inventors: Innocenzo Tortorelli, Mattia Robustelli
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Patent number: 11887661Abstract: Methods, systems, and devices for a cross-point pillar architecture for memory arrays are described. Multiple selector devices may be configured to access or activate a pillar within a memory array, where the selector devices may each be or include a chalcogenide material. A pillar access line may be coupled with multiple selector devices, where each selector device may correspond to a pillar associated with the pillar access line. Pillar access lines on top and bottom of the pillars of the memory array may be aligned in a square or rectangle formation, or in a hexagonal formation. Pillars and corresponding selector devices on top and bottom of the pillars may be located at overlapping portions of the pillar access lines, thereby forming a cross point architecture for pillar selection or activation. The selector devices may act in pairs to select or activate a pillar upon application of a respective selection voltage.Type: GrantFiled: January 10, 2022Date of Patent: January 30, 2024Assignee: Micron Technology, Inc.Inventors: Innocenzo Tortorelli, Fabio Pellizzer, Mattia Robustelli, Alessandro Sebastiani
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Publication number: 20240029796Abstract: Systems, methods, and apparatuses are provided for unipolar programming of memory cells in a semiconductor device. A memory has a plurality of self-selecting memory cells and circuitry configured to program a self-selecting memory cell of the plurality of self-selecting memory cells to a first data state or a second data state by applying a current pulse to the self-selecting memory cell. The current is a set pulse or a reset pulse. The set pulse and the reset pulse have a same polarity.Type: ApplicationFiled: July 19, 2022Publication date: January 25, 2024Inventors: Innocenzo Tortorelli, Mattia Robustelli, Alessandro Sebastiani, Matteo Impala', Fabio Pellizzer
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Patent number: 11869585Abstract: Methods, systems, and devices for operating memory cell(s) are described. A resistance of a storage element included in a memory cell may be programmed by applying a voltage to the memory cell that causes ion movement within the storage element, where the storage element remains in a single phase and has different resistivity based on a location of the ions within the storage element. In some cases, multiple of such storage elements may be included in a memory cell, where ions within the storage elements respond differently to electric pulses, and a non-binary logic value may be stored in the memory cell by applying a series of voltages or currents to the memory cell.Type: GrantFiled: May 26, 2021Date of Patent: January 9, 2024Assignee: Micron Technology, Inc.Inventors: Mattia Boniardi, Agostino Pirovano, Innocenzo Tortorelli
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Publication number: 20230395135Abstract: Systems, methods, and apparatus related to memory devices (e.g., storage class memory). In one approach, a memory device has a memory array including memory cells arranged as differential memory cell pairs, with each pair storing a single logical bit. The memory device has a controller that receives a command from a host to initiate a read operation. The memory cell pair is selected using bitlines and a common wordline. A partition of the memory array is accessed to read the data stored by the memory cell pair, and then store the read data in a latch for sending to the host. In response to accessing the partition, a counter is incremented. The controller statistically determines whether to perform a refresh operation for the partition based on comparing the current value of the counter to a value previously generated by a random number generator.Type: ApplicationFiled: July 13, 2022Publication date: December 7, 2023Inventors: Ferdinando Bedeschi, Efrem Bolandrina, Innocenzo Tortorelli
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Patent number: 11837267Abstract: Methods, systems, devices, and other implementations to store fuse data in memory devices are described. Some implementations may include an array of memory cells with different portions of cells for storing data. A first portion of the array may store fuse data and may contain a chalcogenide storage element, while a second portion of the array may store user data. Sense circuitry may be coupled with the array, and may determine the value of the fuse data using various signaling techniques. In some cases, the sense circuitry may implement differential storage and differential signaling to determine the value of the fuse data stored in the first portion of the array.Type: GrantFiled: May 20, 2021Date of Patent: December 5, 2023Assignee: Micron Technology, Inc.Inventors: Mattia Boniardi, Anna Maria Conti, Mattia Robustelli, Innocenzo Tortorelli, Mario Allegra
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Publication number: 20230386572Abstract: Systems, methods, and apparatus related to memory devices. In one approach, a memory device includes a memory array. The memory array has first tiles and second tiles. Each of the tiles includes memory cells. Wordlines are configured to select the memory cells in the first and second tiles. A controller programs the selected memory cells by applying a first voltage to a first wordline, and a second voltage to a second wordline. The first and second voltages are applied in a counter-phase manner. The second voltages boosted by charge sharing between the first and second wordlines.Type: ApplicationFiled: May 24, 2022Publication date: November 30, 2023Inventors: Mattia Robustelli, Innocenzo Tortorelli
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Patent number: 11817148Abstract: Techniques are provided for programming a self-selecting memory cell that stores a first logic state. To program the memory cell, a pulse having a first polarity may be applied to the cell, which may result in the memory cell having a reduced threshold voltage. During a duration in which the threshold voltage of the memory cell may be reduced (e.g., during a selection time), a second pulse having a second polarity (e.g., a different polarity) may be applied to the memory cell. Applying the second pulse to the memory cell may result in the memory cell storing a second logic state different than the first logic state.Type: GrantFiled: March 2, 2022Date of Patent: November 14, 2023Assignee: Micron Technology, Inc.Inventors: Hernan A. Castro, Innocenzo Tortorelli, Agostino Pirovano, Fabio Pellizzer
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Publication number: 20230360681Abstract: Methods, systems, and devices for pulse based multi-level cell programming are described. A memory device may identify an intermediate logic state to store to a multi-level memory cell capable of storing three or more logic states. The memory device may apply a first pulse with a first polarity to the memory cell to store a SET or RESET state to the memory cell based on identifying the intermediate logic state. As such, the memory device may identify a threshold voltage of the memory cell that stores the SET or RESET state. The memory device may apply a quantity of pulses to the memory cell to store the identified intermediate logic state based on identifying the threshold voltage of the memory cell that stores the SET or RESET state. In some examples, the quantity of pulses may have a second polarity different than the first polarity.Type: ApplicationFiled: May 9, 2022Publication date: November 9, 2023Inventors: Hernan A. Castro, Mattia Boniardi, Innocenzo Tortorelli
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Publication number: 20230360699Abstract: Methods, systems, and devices for improved techniques for multi-level memory cell programming are described. A memory array may receive a first command to store a first logic state in a memory cell for storing three or more logic states. The memory array may apply, as part of an erase operation, a first pulse with a first polarity to a plurality of memory cells to store a second logic state different from the first logic state in the plurality of memory cells, where the plurality of memory cells includes the memory cell. The memory array may apply, as part of a write operation or as part of the erase operation, one or more second pulses with a second polarity to the memory cell to store the first logic state in the memory cell based on applying the first pulse.Type: ApplicationFiled: May 9, 2022Publication date: November 9, 2023Inventors: Innocenzo Tortorelli, Alessandro Sebastiani, Mattia Robustelli, Matteo Impalà
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Publication number: 20230354619Abstract: Methods, systems, and devices for asymmetric memory cell design are described. A memory device may implement a programming scheme that uses low programming pulses based on an asymmetric memory cell design. For example, the asymmetric memory cells may have electrodes with different contact areas (e.g., widths) and may accordingly be biased to a desired polarity (e.g., negative biased or positive biased) for programming operations. That is, the asymmetric memory cell design may enable an asymmetric read window budget. For example, an asymmetric memory cell may be polarity biased, supporting programming operations for logic states based on the polarity bias.Type: ApplicationFiled: August 10, 2022Publication date: November 2, 2023Inventors: Mattia Robustelli, Innocenzo Tortorelli
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Publication number: 20230352095Abstract: Methods, systems, and devices for improving write latency and energy using asymmetric cell design are described. A memory device may implement a programming scheme that uses low programming pulses based on an asymmetric memory cell design. For example, the asymmetric memory cells may have electrodes with different contact areas (e.g., widths) and may accordingly be biased to a desired polarity (e.g., negative biased or positive biased) for programming operations. That is, the asymmetric memory cell design may enable an asymmetric read window budget. For example, an asymmetric memory cell may be polarity biased, supporting programming operations for logic states based on the polarity bias.Type: ApplicationFiled: April 29, 2022Publication date: November 2, 2023Inventors: Mattia Robustelli, Innocenzo Tortorelli
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Patent number: 11800816Abstract: Methods and devices based on the use of dopant-modulated etching are described. During fabrication, a memory storage element of a memory cell may be non-uniformly doped with a dopant that affects a subsequent etching rate of the memory storage element. After etching, the memory storage element may have an asymmetric geometry or taper profile corresponding to the non-uniform doping concentration. A multi-deck memory device may also be formed using dopant-modulated etching. Memory storage elements on different memory decks may have different taper profiles and different doping gradients.Type: GrantFiled: October 13, 2020Date of Patent: October 24, 2023Assignee: Micron Technology, Inc.Inventors: Innocenzo Tortorelli, Mattia Robustelli
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Patent number: 11798620Abstract: Disclosed herein is a memory cell including a memory element and a selector device. Data may be stored in both the memory element and selector device. The memory cell may be programmed by applying write pulses having different polarities and magnitudes. Different polarities of the write pulses may program different logic states into the selector device. Different magnitudes of the write pulses may program different logic states into the memory element. The memory cell may be read by read pulses all having the same polarity. The logic state of the memory cell may be detected by observing different threshold voltages when the read pulses are applied. The different threshold voltages may be responsive to the different polarities and magnitudes of the write pulses.Type: GrantFiled: August 1, 2022Date of Patent: October 24, 2023Assignee: Micron Technology, Inc.Inventors: Innocenzo Tortorelli, Russell L. Meyer, Agostino Pirovano, Andrea Redaelli, Lorenzo Fratin, Fabio Pellizzer
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Patent number: 11783897Abstract: Methods, systems, and devices for memory cells for storing operational data are described. A memory device may include an array of memory cells with different sets of cells for storing data. A first set of memory cells may store data for operating the memory device, and the associated memory cells may each contain a chalcogenide storage element. A second set of memory cells may store host data. Some memory cells included in the first set may be programmed to store a first logic state and other memory cells in the first set may be left unprogrammed (and may represent a second logic state). Sense circuitry may be coupled with the array and may determine a value of data stored by the first set of memory cells.Type: GrantFiled: July 27, 2022Date of Patent: October 10, 2023Assignee: Micron Technology, Inc.Inventors: Mattia Boniardi, Anna Maria Conti, Innocenzo Tortorelli
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Patent number: 11769551Abstract: Methods, systems, and devices related to a multi-level self-selecting memory device are described. A self-selecting memory cell may store one or more bits of data represented by different threshold voltages of the self-selecting memory cell. A programming pulse may be varied to establish the different threshold voltages by modifying one or more durations during which a fixed level of voltage or fixed level of current is maintained across the self-selecting memory cell. The self-selecting memory cell may include a chalcogenide alloy. A non-uniform distribution of an element in the chalcogenide alloy may determine a particular threshold voltage of the self-selecting memory cell. The shape of the programming pulse may be configured to modify a distribution of the element in the chalcogenide alloy based on a desired logic state of the self-selecting memory cell.Type: GrantFiled: August 11, 2021Date of Patent: September 26, 2023Assignee: Micron Technology, Inc.Inventors: Andrea Redaelli, Innocenzo Tortorelli, Agostino Pirovano, Fabio Pellizzer
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Patent number: 11763886Abstract: Methods, systems, and devices related to techniques to access a self-selecting memory device are described. A self-selecting memory cell may store one or more bits of data represented by different threshold voltages of the self-selecting memory cell. A programming pulse may be varied to establish the different threshold voltages by modifying one or more time durations during which a fixed level of voltage or current is maintained across the self-selecting memory cell. The self-selecting memory cell may include a chalcogenide alloy. A non-uniform distribution of an element in the chalcogenide alloy may determine a particular threshold voltage of the self-selecting memory cell. The shape of the programming pulse may be configured to modify a distribution of the element in the chalcogenide alloy based on a desired logic state of the self-selecting memory cell.Type: GrantFiled: October 12, 2021Date of Patent: September 19, 2023Assignee: Micron Technology, Inc.Inventors: Innocenzo Tortorelli, Andrea Redaelli, Agostino Pirovano, Fabio Pellizzer, Mario Allegra, Paolo Fantini
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Patent number: 11765912Abstract: In an example, a memory array may include a plurality of first dielectric materials and a plurality of stacks, where each respective first dielectric material and each respective stack alternate, and where each respective stack comprises a first conductive material and a storage material. A second conductive material may pass through the plurality of first dielectric materials and the plurality of stacks. Each respective stack may further include a second dielectric material between the first conductive material and the second conductive material.Type: GrantFiled: February 26, 2021Date of Patent: September 19, 2023Assignee: Micron Technology, Inc.Inventors: Agostino Pirovano, Andrea Redaelli, Fabio Pellizzer, Innocenzo Tortorelli