SELECTIVE APPLICATION OF MULTIPLE PULSE DURATIONS TO CROSSBAR ARRAYS

Organization Name

INTERNATIONAL BUSINESS MACHINES CORPORATION

Inventor(s)

Geoffrey Burr of Cupertino CA (US)

Masatoshi Ishii of Yokohama-shi (JP)

Pritish Narayanan of San Jose CA (US)

Paul Michael Solomon of Westchester NY (US)

SELECTIVE APPLICATION OF MULTIPLE PULSE DURATIONS TO CROSSBAR ARRAYS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17545671 titled 'SELECTIVE APPLICATION OF MULTIPLE PULSE DURATIONS TO CROSSBAR ARRAYS

Simplified Explanation

The abstract describes a computer-implemented method for controlling pulse width modulators in a crossbar array of memory cells. The method involves two subsets of pulse width modulators applying pulses to the crossbar array at different times based on stored pulse width data.

• The method causes a first subset of pulse width modulators to apply pulses to the crossbar array simultaneously and end the pulses at different times according to predetermined pulse width data.
• A second subset of pulse width modulators applies pulses to the crossbar array at the same predetermined times as the first subset, but ends the pulses simultaneously.

Potential applications of this technology:

• Memory systems: This method can be used in memory systems to control the timing and duration of pulses in a crossbar array of memory cells.
• Signal processing: The method can be applied in signal processing systems to control the timing and width of pulses for various operations.
• Data communication: This technology can be utilized in data communication systems to manage the timing and duration of pulses for efficient data transmission.

Problems solved by this technology:

• Timing control: The method provides a way to precisely control the timing of pulses in a crossbar array, ensuring accurate and efficient data processing.
• Pulse width management: By correlating pulse width data with specific pulse width modulators, this method allows for the management of pulse widths in a controlled and synchronized manner.

Benefits of this technology:

• Improved performance: The precise control of pulse timing and width leads to improved performance in memory systems, signal processing, and data communication.
• Enhanced efficiency: By synchronizing the pulses from different subsets of pulse width modulators, this method optimizes the use of resources and improves overall system efficiency.
• Flexibility: The ability to store and correlate pulse width data allows for flexibility in adjusting and adapting the pulse timing and width as needed.

Original Abstract Submitted

A computer-implemented method, according to one embodiment, includes: causing a first subset of pulse width modulators in a crossbar array of memory cells to apply respective pulses to the crossbar array together at a same start time and end the respective pulses according to a predetermined distribution of times correlated to stored pulse width data for each pulse width modulator. The method also includes causing a second subset of pulse width modulators in the crossbar array to apply pulses to the crossbar array according to the predetermined distribution of times correlated to stored pulse width data for each pulse width modulator and end the respective pulses together at a same end time.