Intel corporation (20240333263). METHODS AND APPARATUS TO IMPROVE FLIP-FLOP TOGGLE EFFICIENCY simplified abstract
Contents
METHODS AND APPARATUS TO IMPROVE FLIP-FLOP TOGGLE EFFICIENCY
Organization Name
Inventor(s)
Chinmay Pradeep Joshi of Portland OR (US)
Dinesh Somasekhar of Portland (UA)
David Edward Bradley of Fort Collins CO (US)
Radhika Kudva of Beaverton OR (US)
METHODS AND APPARATUS TO IMPROVE FLIP-FLOP TOGGLE EFFICIENCY - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240333263 titled 'METHODS AND APPARATUS TO IMPROVE FLIP-FLOP TOGGLE EFFICIENCY
The abstract of the patent application describes methods and apparatus to improve flip-flop toggle efficiency in a circuit.
- The example circuit includes an upper flip-flop latch circuit with a first clock input terminal, a first output terminal, and a first data input terminal.
- It also includes a first gating circuit with a first gating transistor, a first clock transistor, and a first latch output transistor.
- The first gating transistor is controlled by a gating signal input terminal coupled to the first input terminal of the first flip-flop latch circuit.
- The first clock transistor is controlled by a clock signal input terminal coupled to the first clock input terminal of the upper flip-flop latch circuit.
- The first latch output transistor is coupled to the clock power output terminal of the first clock transistor.
Potential Applications: - This technology can be applied in digital circuits to improve efficiency and performance. - It can be used in various electronic devices that utilize flip-flops for data storage and processing.
Problems Solved: - Enhances the efficiency of flip-flop toggle operations. - Improves the overall performance of digital circuits.
Benefits: - Increased speed and reliability in data processing. - Reduced power consumption in electronic devices.
Commercial Applications: - This technology can be utilized in the development of high-speed processors, memory units, and other digital systems. - It has potential applications in industries such as telecommunications, computing, and consumer electronics.
Questions about the technology: 1. How does this technology compare to existing methods of improving flip-flop efficiency? 2. What specific advantages does this circuit offer in terms of performance and power consumption?
Frequently Updated Research: - Stay updated on advancements in digital circuit design and optimization techniques. - Monitor developments in semiconductor technology that could impact the efficiency of flip-flop circuits.
Original Abstract Submitted
methods and apparatus are disclosed to improve flip-flop toggle efficiency. an example circuit includes an upper flip-flop latch circuit including a first clock input terminal, a first output terminal, and a first data input terminal, a first gating circuit including a first gating transistor, the first gating transistor including a first power input terminal, a first gating output terminal and a gating signal input terminal, the gating signal input terminal coupled to the first input terminal of the first flip-flop latch circuit, a first clock transistor including a clock power input terminal coupled to the first gating output terminal of the first gating transistor, a clock power output terminal, and a clock signal input terminal coupled to the first clock input terminal of the upper flip-flop latch circuit, and a first latch output transistor including a latch power input terminal, a latch power output terminal coupled to the clock power output terminal of the first clock transistor, and a latch input terminal coupled to an output of a second latch output transistor of the upper flip-flop latch circuit.