Semiconductor Memory Having Both Volatile and Non-Volatile Functionality and Method of Operating
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Abstract
Semiconductor memory having both volatile and non-volatile modes and methods of operation. A semiconductor storage device includes a plurality of memory cells each having a floating body for storing, reading and writing data as volatile memory. The device includes a floating gate or trapping layer for storing data as non-volatile memory, the device operating as volatile memory when power is applied to the device, and the device storing data from the volatile memory as non-volatile memory when power to the device is interrupted.
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Citations
42 Claims
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1-22. -22. (canceled)
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23. A semiconductor memory cell comprising:
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a fin structure extending from a substrate, said fin structure comprising a floating body region configured to be charged to a level indicative of a state of the memory cell to store the state as volatile memory; and a floating gate or trapping layer insulated from said floating body region and being configured to receive transfer of data stored by the volatile memory and store the data as nonvolatile memory; wherein said charge flow into said floating body region upon restoration of power to said memory cell depends on charge stored in said floating gate or trapping layer. - View Dependent Claims (24, 25, 26, 27, 28, 29)
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30. A semiconductor memory array comprising:
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a plurality of semiconductor memory cells arranged in a matrix of at least one row and a plurality of columns or at least one column and a plurality of rows, wherein each said semiconductor memory cell comprises; a fin structure extending from a substrate, said fin structure comprising a floating body region configured to be charged to a level indicative of a state of the memory cell to store the state as volatile memory; and a floating gate or trapping layer insulated from said floating body region and being configured to receive transfer of data stored by the volatile memory and store the data as nonvolatile memory; wherein when said floating gate or trapping layer of a first memory cell of said plurality of semiconductor memory cells is in a first charge level and said floating gate or trapping layer of a second memory cell of said plurality of semiconductor memory cells is in a second charge level, upon restoration of power to said memory array, said floating body region of said first memory cell is charged to a first charge level as volatile memory and said floating body region of said second memory cell is charged to a second charge level as volatile memory. - View Dependent Claims (31, 32, 33, 34, 35, 36)
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37. A semiconductor memory array comprising:
a plurality of semiconductor memory cells arranged in a matrix of at least one row and a plurality of columns or at least one column and a plurality of rows, wherein each said semiconductor memory cell comprises; a fin structure extending from a substrate, said fin structure comprising a floating body region configured to be charged to a level indicative of a state of the memory cell to store the state as volatile memory; and a floating gate or trapping layer insulated from said floating body region and being configured to receive transfer of data stored by the volatile memory and store the data as nonvolatile memory; wherein upon restoration of power to said memory cell, said floating body region stores charge based on nonvolatile memory data stored in said floating gate or trapping layer; and wherein said charge stored in said floating body upon restoration is non-algorithmically determined by said charge stored in said floating gate or trapping layer. - View Dependent Claims (38, 39, 40, 41, 42)
Specification