DIVIDED CLOCK CONTROL

Organization Name

micron technology, inc.

Inventor(s)

Jongtae Kwak of Allen TX (US)

DIVIDED CLOCK CONTROL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240321332 titled 'DIVIDED CLOCK CONTROL

The patent application describes methods, systems, and devices for divided clock control, where even and odd clock signals are associated with transitioning edges of even-indexed and odd-indexed pulses of a global clock signal, respectively.

• The innovation involves receiving a command and determining whether it was received on a transitioning edge of an even-indexed pulse.
• Based on this determination, the system decides whether to enable the propagation of the even clock signal to delay logic associated with even-indexed pulses or odd-indexed pulses.
• Subsequently, the system determines whether to delay the propagation of the command using the first delay logic and the even clock signal or the second delay logic and the odd clock signal.

Potential Applications: - This technology can be applied in high-speed data processing systems. - It can be used in telecommunications equipment for precise timing control. - It may find applications in semiconductor manufacturing for synchronization purposes.

Problems Solved: - Provides precise clock control for improved data processing efficiency. - Enables accurate synchronization in complex systems. - Enhances the reliability of timing signals in various applications.

Benefits: - Increased accuracy in timing control. - Improved data processing efficiency. - Enhanced reliability in synchronization.

Commercial Applications: Title: "Advanced Clock Control System for High-Speed Data Processing" This technology can be utilized in telecommunications infrastructure, semiconductor manufacturing, and high-performance computing systems. It offers a competitive advantage by ensuring precise timing control and synchronization, leading to improved overall system performance.

Questions about Divided Clock Control: 1. How does divided clock control improve data processing efficiency?

  - Divided clock control ensures precise timing, reducing errors and improving overall system performance.

2. What are the potential applications of divided clock control technology in telecommunications?

Frequently Updated Research: Researchers are continually exploring new ways to optimize clock control systems for even greater precision and efficiency in data processing applications. Stay updated on the latest advancements in divided clock control technology to leverage its benefits effectively.

Original Abstract Submitted

methods, systems, and devices for divided clock control are described. an even clock signal associated with transitioning edges of even-indexed pulses of a global clock signal and an odd clock signal associated with transitioning edges of odd-indexed pulses of a global clock signal may be received. an indication of whether a received command was received on a transitioning edge of an even-indexed pulse may be received. based on the indication, whether to enable a propagation of the even clock signal to a first delay logic associated with even-indexed pulses or a second delay logic associated with odd-indexed pulses may be determined. based on the determining, whether to delay a propagation of the command using the first delay logic and the even clock signal or the second delay logic and the odd clock signal may be determined.