18606198. APPARATUSES AND METHODS FOR INPUT RECEIVER CIRCUITS AND RECEIVER MASKS FOR SAME simplified abstract (Lodestar Licensing Group LLC)
Contents
APPARATUSES AND METHODS FOR INPUT RECEIVER CIRCUITS AND RECEIVER MASKS FOR SAME
Organization Name
Inventor(s)
John D. Porter of Boise ID (US)
APPARATUSES AND METHODS FOR INPUT RECEIVER CIRCUITS AND RECEIVER MASKS FOR SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 18606198 titled 'APPARATUSES AND METHODS FOR INPUT RECEIVER CIRCUITS AND RECEIVER MASKS FOR SAME
The patent application discloses apparatuses and methods for input receiver circuits and receiver masks for electronic memory, with embodiments including memory receiver masks of shapes other than rectangular, such as hexagonal shapes.
- Receiver masks in electronic memory may have shapes like hexagons.
- Circuits, timing, and operating parameters for achieving non-rectangular shapes of receiver masks are described.
Potential Applications: - Electronic memory systems - Semiconductor manufacturing - Computer hardware development
Problems Solved: - Enhancing memory receiver mask efficiency - Improving data storage and retrieval in electronic memory
Benefits: - Increased data processing speed - Enhanced memory system performance - Potential for more compact memory designs
Commercial Applications: Title: "Innovative Memory Receiver Masks for Enhanced Data Processing" This technology could be utilized in various industries such as computer hardware manufacturing, data centers, and telecommunications for faster and more efficient data storage and retrieval processes.
Questions about Memory Receiver Masks: 1. How do non-rectangular receiver masks improve data processing efficiency in electronic memory systems? Non-rectangular receiver masks can optimize data storage and retrieval processes by enhancing the efficiency of signal reception and transmission within the memory system.
2. What are the advantages of using hexagonal receiver masks in electronic memory compared to traditional rectangular shapes? Hexagonal receiver masks offer improved signal reception and transmission capabilities, potentially leading to faster data processing speeds and enhanced memory system performance.
Original Abstract Submitted
Apparatuses and methods for input receiver circuits and receiver masks for electronic memory are disclosed. Embodiments of the disclosure include memory receiver masks having shapes other than rectangular shapes. For example, a receiver mask according to some embodiments of the disclosure may have a hexagonal shape. Other shapes of receiver masks may also be included in other embodiments of the disclosure. Circuits, timing, and operating parameters for achieving non-rectangular and various shapes of receiver mask are described.
