Patent application number | Description | Published |
20100046267 | MEMORY SYSTEM WITH SECTIONAL DATA LINES - A storage system includes a three-dimensional memory array that has multiple layers of non-volatile storage elements grouped into blocks. The blocks are grouped into bays. The storage system includes array lines of a first type in communication with storage elements, array lines of a second type in communication with storage elements, and sense amplifiers. Each block is geographically associated with two sense amplifiers and all blocks of a particular bay share a group of sense amplifiers associated with the blocks of the particular bay. The system includes multiple sets of local data lines in one or more routing metal layers below the three-dimensional memory array and multiple sets of global data lines in one or more top metal layers above the three-dimensional memory array. Each set of one or more blocks include one set of the local data lines. Each bay includes one set of global data lines that connect to the group of sense amplifiers associated with the blocks of the respective bay. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines of the first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines associated with a respective bay. | 02-25-2010 |
20100085822 | CONTINUOUS PROGRAMMING OF NON-VOLATILE MEMORY - A non-volatile storage system connects a signal driver to a first control line that is connected to a first non-volatile storage element, charges the first control line using the signal driver while the signal driver is connected to the first control line, disconnects the signal driver from the first control line while the first control line remains charged from the signal driver, connects the signal driver to a second control line that is connected to a second non-volatile storage element, charges the second control line using the signal driver while the signal driver is connected to the second control line, and disconnects the signal driver from the second control line. Charging the control lines causes the respective non-volatile storage elements to experience a program operation. The disconnecting of the signal driver from the first control line, the connecting the signal driver to the second control line and the charging of the second control line are performed without waiting for the first non-volatile storage element's program operation to complete. | 04-08-2010 |
20100106893 | PAGE BUFFER PROGRAM COMMAND AND METHODS TO REPROGRAM PAGES WITHOUT RE-INPUTTING DATA TO A MEMORY DEVICE - A technique for efficiently handling write operation failures in a memory device which communicates with an external host device allows a page of data to be re-written to a memory array from a page buffer. The host provides user data, a first write address and a write command to the memory device. If the write attempt fails, the host provides a re-write command with a new address, without re-sending the user data to the memory device. Additional data can be received at a data cache of the memory device while a re-write from the page buffer is in progress. The re-written data may be obtained in a copy operation in which the data is read out to the host, modified and written back to the memory device. Additional data can be input to the memory device during the copy operation. Page buffer data can also be modified in place. | 04-29-2010 |
20100107004 | METHOD FOR SELECTIVELY RETRIEVING COLUMN REDUNDANCY DATA IN MEMORY DEVICE - Column redundancy data is selectively retrieved in a memory device according to a set of storage elements which is currently being accessed, such as in a read or write operation. The memory device is organized into sets of storage elements such as logical blocks, where column redundancy data is loaded from a non-volatile storage location to a volatile storage location for one or more particular blocks which are being accessed. The volatile storage location need only be large enough to store the current data entries. The size of the set of storage elements for which column redundancy data is concurrently loaded can be configured based on an expected maximum number of defects and a desired repair probability. During a manufacturing lifecycle, the size of the set can be increased as the number of defects is reduced due to improvements in manufacturing processes and materials. | 04-29-2010 |
20100107022 | BAD PAGE MARKING STRATEGY FOR FAST READOUT IN MEMORY - A technique for identifying bad pages of storage elements in a memory device. A flag byte is provided for each page group of one or more pages which indicates whether the page group is healthy. Flag bytes of selected page groups also indicate whether larger sets of page groups are healthy, according to bit positions in the flag bytes. A bad page identification process includes reading the flag bytes with a selected granularity so that not all flag bytes are read. Optionally, a drill down process reads flag bytes for smaller sets of page groups when a larger set of page groups is identified as having at least one bad page. This allows the bad page groups to be identified and marked with greater specificity. Redundant copies of flag bytes may be stored in different locations of the memory device. A majority vote process assigns a value to each bit. | 04-29-2010 |
20100259961 | Three-Dimensional Array of Re-Programmable Non-Volatile Memory Elements Having Vertical Bit Lines and a Double-Global-Bit-Line Architecture - A three-dimensional array especially adapted for memory elements that reversibly change a level of electrical conductance in response to a voltage difference being applied across them. Memory elements are formed across a plurality of planes positioned different distances above a semiconductor substrate. A two-dimensional array of bit lines to which the memory elements of all planes are connected is oriented vertically from the substrate and through the plurality of planes. A double-global-bit-line architecture provides a pair of global bit lines for each bit lines for accessing a row of memory elements in parallel. A first one of each pair allows the local bit lines of the row to be sensed while a second one of each pair allows local bit lines in an adjacent row to be set to a definite voltage so as to eliminate leakage currents between adjacent rows of local bit lines. | 10-14-2010 |
20100265750 | MEMORY SYSTEM WITH DATA LINE SWITCHING SCHEME - A storage system includes a three-dimensional memory array that has multiple layers of non-volatile storage elements grouped into blocks. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines (e.g. bit lines) of a first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines that are connected to control circuitry. To increase the performance of memory operations, the second selections circuits can change their selections independently of each other. For example, a memory operation is performed concurrently on a first non-volatile storage element of each group of a plurality of groups of non-volatile storage elements. Completion of the memory operation for the first non-volatile storage element of each group is independently detected. A memory operation on a second non-volatile storage element of each group is independently commenced for each group upon independently detecting completion of the memory operation for the first non-volatile storage element of the respective group. | 10-21-2010 |
20100302835 | LIMITED CHARGE DELIVERY FOR PROGRAMMING NON-VOLATILE STORAGE ELEMENTS - A memory system includes a substrate, control circuitry on the substrate, a three dimensional memory array (above the substrate) that includes a plurality of memory cells with reversible resistance-switching elements, and a circuit for detecting the setting and resetting of the reversible resistance-switching elements. In one aspect a circuit that has one or more clock inputs is run for a predetermined number of clock cycles. The circuit generates an amount of charge over the predetermined number of clock cycles. At most the amount of charge is provided to non-volatile storage element to program the non-volatile storage element. It is determined whether the non-volatile storage element is programmed to a desired state as a result of providing at most the amount of charge to the non-volatile storage element. Techniques disclosed herein can be applied to program memory cells other than memory cells with reversible resistance-switching elements. | 12-02-2010 |
20110141788 | PAGE REGISTER OUTSIDE ARRAY AND SENSE AMPLIFIER INTERFACE - A non-volatile storage device includes a substrate, a monolithic three-dimensional memory array of non-volatile storage elements arranged above a portion of the substrate, a plurality of sense amplifiers in communication with the non-volatile storage elements, a plurality of temporary storage devices in communication with the sense amplifiers, a page register in communication with the temporary storage devices, and one or more control circuits. The one or more control circuits are in communication with the page register, the temporary storage devices and the sense amplifiers. The sense amplifiers are arranged on the substrate underneath the monolithic three-dimensional memory array. The temporary storage devices are arranged on the substrate underneath the monolithic three-dimensional memory array. The page register is arranged on the substrate in an area that is not underneath the monolithic three-dimensional memory array. Data read from the non-volatile storage elements by the sense amplifiers is transferred to the temporary storage devices and then to the page register in response to the one or more control circuits. Data to be programmed into the non-volatile storage elements is transferred to the temporary storage devices from the page register in response to the one or more control circuits. | 06-16-2011 |
20110141832 | PROGRAM CYCLE SKIP - A non-volatile storage system includes technology for skipping programming cycles while programming a page (or other unit) of data. While programming a current subset of the page (or other unit) of data, the system will evaluate whether the next subsets of the page (or other unit) of data should be programmed into non-volatile storage elements or skipped. Subsets of the page (or other unit) of data that should not be skipped are programmed into non-volatile storage elements. Some embodiments include transferring the appropriate data to temporary latches/registers, in preparation for programming, concurrently with the evaluation of whether to program or skip the programming. | 06-16-2011 |
20110182105 | MEMORY SYSTEM WITH SECTIONAL DATA LINES - A storage system includes a three-dimensional memory array that has multiple layers of non-volatile storage elements grouped into blocks. The blocks are grouped into bays. The storage system includes array lines of a first type in communication with storage elements, array lines of a second type in communication with storage elements, and sense amplifiers. Each block is geographically associated with two sense amplifiers and all blocks of a particular bay share a group of sense amplifiers associated with the blocks of the particular bay. The system includes multiple sets of local data lines in one or more routing metal layers below the three-dimensional memory array and multiple sets of global data lines in one or more top metal layers above the three-dimensional memory array. Each set of one or more blocks include one set of the local data lines. Each bay includes one set of global data lines that connect to the group of sense amplifiers associated with the blocks of the respective bay. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines of the first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines associated with a respective bay. | 07-28-2011 |
20110299314 | Non-Volatile Memory Having 3d Array of Read/Write Elements with Efficient Decoding of Vertical Bit Lines and Word Lines - A three-dimensional array of memory elements is formed across multiple layers of planes positioned at different distances above a semiconductor substrate. The memory elements reversibly change a level of electrical conductance in response to a voltage difference being applied across them. The three-dimensional array includes a two-dimensional array of pillar lines from the substrate through the multiple layers of planes. A first set of pillar lines acts as local bit lines for accessing the memory elements together with an array of word lines on each plane. A second set of pillar lines is connected to the word lines. An array of metal lines on the substrate is switchable connected to the pillar lines to provide access to the first and second sets of pillar lines, thereby to provide access respectively to the bit lines and word lines of the three-dimensional array. | 12-08-2011 |
20110299340 | Non-Volatile Memory Having 3d Array of Read/Write Elements and Read/Write Circuits and Method Thereof - A three-dimensional array is especially adapted for memory elements that reversibly change a level of electrical conductance in response to a voltage difference being applied across them. Memory elements are formed across a plurality of planes positioned different distances above a semiconductor substrate. A two-dimensional array of bit lines to which the memory elements of all planes are connected is oriented vertically from the substrate and through the plurality of planes. During sensing, to compensate for word line resistance, a sense amplifier references a stored reference value during sensing of a memory element at a given location of the word line. A layout with a row of sense amplifiers between two memory arrays is provided to facilitate the referencing. A selected memory element is reset without resetting neighboring ones when it is subject to a bias voltage under predetermined conditions. | 12-08-2011 |
20110305071 | CONTINUOUS PROGRAMMING OF NON-VOLATILE MEMORY - A non-volatile storage system connects a signal driver to a first control line that is connected to a first non-volatile storage element, charges the first control line using the signal driver while the signal driver is connected to the first control line, disconnects the signal driver from the first control line while the first control line remains charged from the signal driver, connects the signal driver to a second control line that is connected to a second non-volatile storage element, charges the second control line using the signal driver while the signal driver is connected to the second control line, and disconnects the signal driver from the second control line. Charging the control lines causes the respective non-volatile storage elements to experience a program operation. The disconnecting of the signal driver from the first control line, the connecting the signal driver to the second control line and the charging of the second control line are performed without waiting for the first non-volatile storage element's program operation to complete. | 12-15-2011 |
20120091427 | MULTI-LEVEL MEMORY ARRAYS WITH MEMORY CELLS THAT EMPLOY BIPOLAR STORAGE ELEMENTS AND METHODS OF FORMING THE SAME - In some embodiments, a memory array is provided that includes (1) a first memory cell having (a) a first conductive line; (b) a first bipolar storage element formed above the first conductive line; and (c) a second conductive line formed above the first bipolar storage element; and (2) a second memory cell formed above the first memory cell and having (a) a second bipolar storage element formed above the second conductive line; and (b) a third conductive line formed above the second bipolar storage element. The first and second memory cells share the second conductive line; the first bipolar storage element has a first storage element polarity orientation within the first memory cell; the second bipolar storage element has a second storage element polarity orientation within the second memory cell; and the second storage element polarity orientation is opposite the first storage element polarity orientation. Numerous other aspects are provided. | 04-19-2012 |
20120170346 | MEMORY SYSTEM WITH SECTIONAL DATA LINES - The system includes multiple sets of local data lines in one or more routing metal layers below the three-dimensional memory array and multiple sets of global data lines in one or more top metal layers above the three-dimensional memory array. Each set of one or more blocks include one set of the local data lines. Each bay includes one set of global data lines that connect to the group of sense amplifiers associated with the blocks of the respective bay. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines of the first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines associated with a respective bay. | 07-05-2012 |
20120170347 | MEMORY SYSTEM WITH SECTIONAL DATA LINES - The system includes multiple sets of local data lines in one or more routing metal layers below the three-dimensional memory array and multiple sets of global data lines in one or more top metal layers above the three-dimensional memory array. Each set of one or more blocks include one set of the local data lines. Each bay includes one set of global data lines that connect to the group of sense amplifiers associated with the blocks of the respective bay. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines of the first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines associated with a respective bay. | 07-05-2012 |
20120236663 | PROGRAM CYCLE SKIP - A non-volatile storage system includes technology for skipping programming cycles while programming a page (or other unit) of data. While programming a current subset of the page (or other unit) of data, the system will evaluate whether the next subsets of the page (or other unit) of data should be programmed into non-volatile storage elements or skipped. Subsets of the page (or other unit) of data that should not be skipped are programmed into non-volatile storage elements. Some embodiments include transferring the appropriate data to temporary latches/registers, in preparation for programming, concurrently with the evaluation of whether to program or skip the programming. | 09-20-2012 |
20120243349 | PROGRAM CYCLE SKIP - A non-volatile storage system includes technology for skipping programming cycles while programming a page (or other unit) of data. While programming a current subset of the page (or other unit) of data, the system will evaluate whether the next subsets of the page (or other unit) of data should be programmed into non-volatile storage elements or skipped. Subsets of the page (or other unit) of data that should not be skipped are programmed into non-volatile storage elements. Some embodiments include transferring the appropriate data to temporary latches/registers, in preparation for programming, concurrently with the evaluation of whether to program or skip the programming. | 09-27-2012 |
20120257433 | MEMORY SYSTEM WITH DATA LINE SWITCHING SCHEME - A storage system includes a three-dimensional memory array that has multiple layers of non-volatile storage elements grouped into blocks. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines (e.g. bit lines) of a first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines that are connected to control circuitry. To increase the performance of memory operations, the second selection circuits can change their selections independently of each other. | 10-11-2012 |
20120287734 | CONTINUOUS PROGRAMMING OF NON-VOLATILE MEMORY - A system connects a signal driver to a first control line that is connected to a first non-volatile storage element, charges the first control line while the signal driver is connected to the first control line, disconnects the signal driver from the first control line while the first control line remains charged from the signal driver, connects the signal driver to a second control line that is connected to a second non-volatile storage element, charges the second control line using the signal driver while the signal driver is connected to the second control line, and disconnects the signal driver from the second control line. The disconnecting of the signal driver from the first control line, the connecting the signal driver to the second control line and the charging of the second control line are performed without waiting for the first non-volatile storage element's program operation to complete. | 11-15-2012 |
20130010523 | MEMORY SYSTEM WITH DATA LINE SWITCHING SCHEME - A storage system includes a three-dimensional memory array that has multiple layers of non-volatile storage elements grouped into blocks. Each block includes a subset of first selection circuits for selectively coupling a subset of array lines (e.g. bit lines) of a first type to respective local data lines. Each block includes a subset of second selection circuits for selectively coupling a subset of the respective local data lines to global data lines that are connected to control circuitry. To increase the performance of memory operations, the second selection circuits can change their selections independently of each other. | 01-10-2013 |
20140022848 | NON-VOLATILE MEMORY HAVING 3D ARRAY OF READ/WRITE ELEMENTS AND READ/WRITE CIRCUITS AND METHOD THEREOF - A three-dimensional array is especially adapted for memory elements that reversibly change a level of electrical conductance in response to a voltage difference being applied across them. Memory elements are formed across a plurality of planes positioned different distances above a semiconductor substrate. A two-dimensional array of bit lines to which the memory elements of all planes are connected is oriented vertically from the substrate and through the plurality of planes. During sensing, to compensate for word line resistance, a sense amplifier references a stored reference value during sensing of a memory element at a given location of the word line. A layout with a row of sense amplifiers between two memory arrays is provided to facilitate the referencing. A selected memory element is reset without resetting neighboring ones when it is subject to a bias voltage under predetermined conditions. | 01-23-2014 |
20140043911 | Method For Non-Volatile Memory Having 3D Array of Read/Write Elements with Efficient Decoding of Vertical Bit Lines and Word Lines - A three-dimensional array of memory elements is formed across multiple layers of planes positioned at different distances above a semiconductor substrate. The memory elements reversibly change a level of electrical conductance in response to a voltage difference being applied across them. The three-dimensional array includes a two-dimensional array of pillar lines from the substrate through the multiple layers of planes. A first set of pillar lines acts as local bit lines for accessing the memory elements together with an array of word lines on each plane. A second set of pillar lines is connected to the word lines. An array of metal lines on the substrate is switchable connected to the pillar lines to provide access to the first and second sets of pillar lines, thereby to provide access respectively to the bit lines and word lines of the three-dimensional array. | 02-13-2014 |
20140346433 | MULTI-LEVEL MEMORY ARRAYS WITH MEMORY CELLS THAT EMPLOY BIPOLAR STORAGE ELEMENTS AND METHODS OF FORMING THE SAME - In some embodiments, a memory array is provided that includes (1) a first memory cell having (a) a first conductive line; (b) a first bipolar storage element formed above the first conductive line; and (c) a second conductive line formed above the first bipolar storage element; and (2) a second memory cell formed above the first memory cell and having (a) a second bipolar storage element formed above the second conductive line; and (b) a third conductive line formed above the second bipolar storage element. The first and second memory cells share the second conductive line; the first bipolar storage element has a first storage element polarity orientation within the first memory cell; the second bipolar storage element has a second storage element polarity orientation within the second memory cell; and the second storage element polarity orientation is opposite the first storage element polarity orientation. Numerous other aspects are provided. | 11-27-2014 |