Static information storage and retrieval – Read/write circuit – Having particular data buffer or latch
Reexamination Certificate
2001-10-23
2003-02-04
Tran, Andrew Q. (Department: 2824)
Static information storage and retrieval
Read/write circuit
Having particular data buffer or latch
C365S189110, C365S189090, C365S189080, C365S190000, C365S168000, C365S220000, C365S230060, C365S051000
Reexamination Certificate
active
06515915
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to semiconductor integrated circuits. More particularly, it pertains to the retrieval and storage of multi-level data through a single input/output pin.
BACKGROUND OF THE INVENTION
Modern electronic systems typically include a data storage device such as a dynamic random access memory (DRAM), static random access memory (SRAM) or other conventional memory device. The memory device stores data in vast arrays of memory cells. Each cell conventionally stores a single bit of data (a logical “1” or a logical “0”) and can be individually accessed or addressed. Data is output from a memory cell during a “read” operation, and data is stored into a memory cell during a “write” operation.
In a standard read or write operation, a column decoder and a row decoder translate address signals into a single intersection of a row (wordline) and column (bitline) within the memory array. This function permits the memory cell at that location to be read from or for data to be placed into that cell. The processing of data is dependent on the time it takes to store or retrieve individual bits of data in the memory cells. Storing and retrieving the bits of data is controlled generally by a microprocessor, whereby data,is passed to and from the memory array through a fixed number of input/output (I/O) lines and I/O pins. According to current digital circuit technology, each I/O pin can access, at most, one bit of data during an operation cycle. This substantially limits the potential bandwidth or speed of the memory device.
Modem applications call on electronic systems to process data at greater speeds. In order for the systems to accord these demands, the system components must increase their processing speeds. One method to increase the processing speeds is to provide additional I/O pins on the system components. However, space limitations on both microprocessor chips and memory chips preclude simply adding more and more I/O pins. Another method to increase processing speeds is to decrease the cycle time for retrieving and storing data. Upper limits for increasing cycle speeds are set by current feature size (F) of the discrete devices from which the integrated circuit is composed. Modem photolithographic techniques, however, limit the size of the circuits that can be formed from semiconductor and other materials. At some point, the lithography cannot create a fine enough image with sufficient clarity to decrease the size of the elements of the circuit any further.
For the reasons stated above, and for other reasons stated below which will become apparent to those skilled in the art upon reading and understanding the present specification, it is desirable to develop other methods to increase the data throughput or data bandwidth without requiring an increase in I/O pins or further decrease the cycle times.
SUMMARY OF THE INVENTION
The above mentioned problems with memory devices and other problems are addressed by the present invention and will be understood by reading and studying the following specification. A memory circuit and method of increasing the data bandwidth per cycle are described which do not require additional input/output pins or a decrease in access times.
In particular, an illustrative embodiment of the present invention includes a memory array. The memory array has multiple rows of wordlines and multiple columns of bitlines. The intersection of the multiple rows of wordlines and multiple columns of bitlines form multiple memory cells. There are a number of sense amplifiers coupled to the multiple columns of bitlines. A number of column decoders are coupled to the number of sense amps. Each column decoder can access a select number of bitlines simultaneously. There are a number of row decoders coupled to the multiple rows of wordlines. A number of input/output lines are coupled to the bitlines through the number of sense amplifiers. Also, a number of logic circuits are included which couple to a subset of the input/output lines. The logic circuits use multiple voltage levels or references to control the reading and writing to more than one memory cell simultaneously. The reading and writing operations pass multiple bits through a single input/output pin with each operation cycle.
In another embodiment, a memory circuit is provided which similarly has a memory array. The memory array has multiple rows of wordlines and multiple columns of bitlines. At the intersections of the multiple rows of wordlines and multiple columns of bitlines are located multiple memory cells. A number of sense amplifiers are coupled to the multiple columns of bitlines. A number of column decoders couple to the number of sense amps such that a column decoder selects the output of at least two (2) sense amps. A number of row decoders couple to the multiple rows of wordlines. There are a number of input/output lines coupled to the bitlines through the number of sense amplifiers. There are a number of logic circuits which have multiple inputs and outputs. Each of the logic circuits is coupled to a subset of the input/output lines. The outputs of at least one of the number of logic circuits individually couples to a number of pull-up or pull-down transistors. The inputs of at least one of the number of logic circuits individually couples to a number of comparators. Each of the number of logic circuits uses multiple voltage levels to write to or read from more than one memory cell at a time.
In another embodiment, a method for writing to multiple memory cells using a single input pin is provided. The method includes receiving a voltage at the pin that represents values to be stored in several memory cells. The voltage at the pin is compared with a number of distinct voltage references using a number of comparators. The output of the comparing step is coupled to a logic circuit. The method includes the logic circuit outputting bits of data to a select number of input/output lines. A row in an array of memory cells is activated. The array has multiple rows of wordlines and multiple columns of bitlines. A select number of columns in the array of memory cells are activated simultaneously by a column decoder. The method further includes placing the bits of data located on the select number of input/output lines into memory cells located at the intersection of the activated row and select number of activated columns. The select number of input/output lines equals the select number of columns accessed simultaneously by one column decoder.
In another embodiment, a method for reading multiple memory cells using a single output pin is provided. The method includes activating a row in an array of memory cells. The array has multiple rows of wordlines and multiple columns of bitlines. The method also includes activating a select number of columns in the array of memory cells. The select number of columns are simultaneously accessed by a single column decoder. Bits of data located at the intersection of the activated row and select number of columns are placed onto a select number of input/output lines. The select number of input/output lines are then coupled to a logic circuit. The logic circuit has a number of outputs and each output is individually coupled to a pull-up or a pull-down transistor. The method further includes coupling the pull-up and pull-down transistors to a single output pin.
In another embodiment, an information handling system is provided. The information handling system includes a central processing unit and a random access memory (RAM). The RAM has a number of input/output pins. The RAM has multiple rows of wordlines and multiple columns of bitlines. The RAM has a number of sense amplifiers coupled to the multiple columns of bitlines. The RAM has a column decoder coupled to the multiple columns of bitlines that accesses a select number of bitlines simultaneously. The RAM has a row decoder coupled to the multiple rows of wordlines. There are a number of input/output lines coupled to the number of bitlines through sense amplifiers. A number
Micro)n Technology, Inc.
Schwegman Lundberg Woessner & Kluth P.A.
Tran Andrew Q.
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