256 Meg dynamic random access memory
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Abstract
A 256 Meg dynamic random access memory is comprised of a plurality of cells organized into individual arrays, with the arrays being organized into 32 Meg array blocks, which are organized into 64 Meg quadrants. Sense amplifiers are positioned between adjacent rows in the individual arrays while row decoders are positioned between adjacent columns in the individual arrays. In certain of the gap cells, multiplexers are provided to transfer signals from I/O lines to datalines. A data path is provided which, in addition to the foregoing, includes array I/O blocks, responsive to the datalines from each quadrant to output data to a data read mux, data buffers, and data driver pads. The write data path includes a data in buffer and data write muxes for providing data to the array I/O blocks. A power bus is provided which minimizes routing of externally supplied voltages, completely rings each of the array blocks, and provides gridded power distribution within each of the array blocks. A plurality of voltage supplies provide the voltages needed in the array and in the peripheral circuits. The power supplies are organized to match their power output to the power demand and to maintain a desired ratio of power production capability and decoupling capacitance. A powerup sequence circuit is provided to control the powerup of the chip. Redundant rows and columns are provided as is the circuitry necessary to logically replace defective rows and columns with operational rows and columns. Circuitry is also provided on chip to support various types of test modes.
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Citations
34 Claims
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1-17. -17. (canceled)
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18. A system comprising:
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a control unit for performing a series of instructions; a power supply; a plurality of individual arrays of memory cells providing a capacity of 256 Meg and organized into four symmetrically arranged arrays each having a capacity of 64 Meg, each 64 Meg array being divided into two 32 Meg arrays, each 32 Meg array being divided into eight blocks with the blocks organized into four pairs of two blocks each; a plurality of pads located centrally with respect to said array blocks; a plurality of peripheral devices for transferring data between said memory cells and said plurality of pads, said peripheral devices including logic for accessing said memory device by; using a plurality of address bits to select one of the four 32 Meg arrays; using two address bits to select one of the four pairs of blocks; using another one address bit to select one of the blocks in the selected pair; and using additional address bits to address individual rows or columns in said selected block; a plurality of voltage supplies located proximate said plurality of pads for generating a plurality of supply voltages, wherein said plurality of voltage supplies includes a bias generator for supplying a bias voltage to said array blocks, said bias generator including an output status monitor; and a power distribution bus for delivering said plurality of supply voltages to said individual arrays and said plurality of peripheral devices. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26)
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27. A system comprising:
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a control unit for performing a series of instructions; a power supply; a dynamic random access memory, comprising; a plurality of individual arrays of memory cells providing a capacity of 256 Meg and organized into four symmetrically arranged arrays each having a capacity of 64 Meg, each 64 Meg array being divided into two 32 Meg arrays, each 32 Meg array being divided into eight blocks with the blocks organized into four pairs of two blocks each, wherein said plurality of array blocks is organized into a plurality of array quadrants; a plurality of pads located centrally with respect to said array blocks; a plurality of peripheral devices for transferring data between said memory cells and said plurality of pads, wherein said plurality of peripheral devices includes; an array I/O block for servicing each of said array quadrants, a plurality of data read multiplexers responsive to said array I/O blocks, a plurality of data output buffers responsive to said plurality of data read multiplexers, and a plurality of data pad drivers responsive to said plurality of data output buffers for making the read data available at said plurality of pads, said peripheral devices including logic for accessing said memory device by; using a plurality of address bits to select one of the four 32 Meg arrays; using two address bits to select one of the four pairs of blocks; using another one address bit to select one of the blocks in the selected pair; and using additional address bits to address individual rows or columns in said selected block; a plurality of voltage supplies located proximate said plurality of pads for generating a plurality of supply voltages; and a power distribution bus for delivering said plurality of supply voltages to said individual arrays and said plurality of peripheral devices. - View Dependent Claims (28, 29, 30)
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31. A system comprising:
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A control unit for performing a series of instructions; a power supply; a dynamic random access memory, comprising; a plurality of individual arrays of memory cells providing a capacity of 256 Meg and organized into four symmetrically arranged arrays each having a capacity of 64 Meg, each 64 Meg array being divided into two 32 Meg arrays, each 32 Meg array being divided into eight blocks with the blocks organized into four pairs of two blocks each; a plurality of pads located centrally with respect to said array blocks; a plurality of peripheral devices for transferring data between said memory cells and said plurality of pads, said peripheral devices including logic for accessing said memory device by; using a plurality of address bits to select one of the four 32 Meg arrays; using two address bits to select one of the four pairs of blocks; using another one address bit to select one of the blocks in the selected pair; and using additional address bits to address individual rows or columns in said selected block; a plurality of voltage supplies located proximate said plurality of pads for generating a plurality of supply voltages, wherein said plurality of voltage supplies includes a voltage regulator comprised of a plurality of power amplifiers, and wherein at least one power amplifier is associated with each of said plurality of array blocks, said plurality of power amplifiers being divided into a plurality of groups for one of separate or concurrent operation to achieve a predetermined level of output power; and a power distribution bus for delivering said plurality of supply voltages to said individual arrays and said plurality of peripheral devices. - View Dependent Claims (32)
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33. A system comprising:
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a control unit for performing a series of instructions; a power supply; a dynamic random access memory, comprising; a plurality of individual arrays of memory cells providing a capacity of 256 Meg and organized into four symmetrically arranged arrays each having a capacity of 64 Meg, each 64 Meg array being divided into two 32 Meg arrays, each 32 Meg array being divided into eight blocks with the blocks organized into four pairs of two blocks each; a plurality of pads located centrally with respect to said array blocks; a plurality of peripheral devices for transferring data between said memory cells and said plurality of pads, said peripheral devices including logic for accessing said memory device by; using a plurality of address bits to select one of the four 32 Meg arrays; using two address bits to select one of the four pairs of blocks; using another one address bit to select one of the blocks in the selected pair; and using additional address bits to address individual rows or columns in said selected block; a plurality of voltage supplies located proximate said plurality of pads for generating a plurality of supply voltages, wherein said plurality of voltage supplies includes a voltage pump including a plurality of voltage pump circuits divided into a plurality of groups for operation in one of separate or concurrent operation to achieve predetermined levels of output power; and a power distribution bus for delivering said plurality of supply voltages to said individual arrays and said plurality of peripheral devices. - View Dependent Claims (34)
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Specification