Intel corporation (20240329715). ENCODING DIFFERENTIAL SIGNALS FOR POWER AND NOISE REDUCTION simplified abstract
Contents
ENCODING DIFFERENTIAL SIGNALS FOR POWER AND NOISE REDUCTION
Organization Name
Inventor(s)
Amit K. Jain of Portland OR (US)
Howard L. Heck of Hillsboro OR (US)
Marva Mason Ortiz of San Jose (CR)
Stephen Harvey Hall of Forest Grove OR (US)
Eskinder Hailu of Cary NC (US)
Chin Lee Kuan of Bayan Lepas (MY)
Sameer Shekhar of Portland OR (US)
ENCODING DIFFERENTIAL SIGNALS FOR POWER AND NOISE REDUCTION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240329715 titled 'ENCODING DIFFERENTIAL SIGNALS FOR POWER AND NOISE REDUCTION
Simplified Explanation:
This patent application describes an apparatus, system, and method for improving power consumption and reducing noise in a differential input/output (I/O) buffer. The circuit includes a differential signal buffer and encoding scheme quantifying and selection circuitry to select an encoding scheme with reduced power consumption based on signals.
- The patent application introduces an innovative circuit design for a differential input/output (I/O) buffer.
- The circuit includes encoding scheme quantifying and selection circuitry to choose an encoding scheme that reduces power consumption in the differential signals.
- The encoding scheme quantifying and selection circuitry generates a selection code based on signals indicating the power consumption reduction of each encoding scheme.
- This technology aims to enhance power efficiency and reduce noise in differential input/output buffers.
- By selecting the most power-efficient encoding scheme, this innovation can lead to improved overall performance and reduced energy consumption in electronic devices.
Potential Applications: This technology can be applied in various electronic devices that utilize differential input/output buffers, such as data communication systems, networking equipment, and high-speed data processing systems.
Problems Solved: 1. High power consumption in differential input/output buffers. 2. Noise interference in electronic devices. 3. Inefficient encoding schemes leading to unnecessary energy usage.
Benefits: 1. Improved power efficiency in electronic devices. 2. Reduced noise interference in data transmission. 3. Enhanced overall performance of differential input/output buffers. 4. Lower energy consumption in electronic systems.
Commercial Applications: Title: Enhanced Power Efficiency Technology for Differential Input/Output Buffers This technology can be commercially utilized in the telecommunications industry, data centers, and high-speed computing systems to improve energy efficiency and reduce operational costs.
Prior Art: Readers interested in prior art related to this technology can explore patents and research papers on differential signal processing, encoding schemes, and power consumption optimization in electronic circuits.
Frequently Updated Research: Researchers are continuously exploring new methods to optimize power consumption and reduce noise in electronic circuits, which may lead to further advancements in this field.
Questions about Differential Input/Output Buffers: 1. How does this technology impact the overall energy efficiency of electronic devices?
- This technology significantly improves energy efficiency by selecting encoding schemes that reduce power consumption in differential signals.
2. What are the potential applications of this innovation beyond differential input/output buffers?
- This innovation can be applied in various electronic systems requiring power-efficient signal processing, such as data communication networks and high-speed data processing systems.
Original Abstract Submitted
an apparatus, system, and method for improved power consumption and/or noise reduction in a differential input/output (i/o) buffer are provided. a circuit can include a differential signal buffer and encoding scheme quantifying and selection circuitry. the encoding scheme quantifying and selection circuitry can be configured to generate a selection code indicating a selected encoding scheme of the encoding schemes based on respective signals indicating whether each respective encoding scheme of encoding schemes has a net positive power consumption reduction in differential signals. the encoding scheme quantifying and selection circuitry can be configured to provide the selection code to an encoder.