"Landauer" Example Sentences
1. Landauer was a pioneer in information theory.
2. The Landauer limit is a fundamental limit on the amount of energy required to erase a bit of information.
3. Landauer's principle states that erasing information increases entropy and therefore requires energy.
4. According to Landauer, information is physical and has a real thermodynamic cost.
5. The Landauer-Bennett principle relates the amount of energy required to perform a computation to the number of bits of information processed.
6. Landauer's philosophy emphasizes the importance of information and its role in shaping the world.
7. In Landauer's view, information is both an abstract concept and a physical reality.
8. Landauer's work laid the groundwork for the development of modern information technology.
9. The Landauer limit is a fundamental constraint on the design of computing systems.
10. Landauer's ideas have had a profound impact on the field of physics and beyond.
11. According to Landauer, the laws of thermodynamics dictate the behavior of information.
12. Landauer's contributions to physics and information theory have been recognized with numerous awards and honors.
13. The Landauer limit sets a lower bound on the amount of energy required to perform a computation.
14. Landauer's principle has been experimentally verified in various physical systems.
15. Landauer's insights into the nature of information have inspired new approaches to computer science and engineering.
16. The Landauer limit is a consequence of the second law of thermodynamics.
17. Landauer's work has been seminal in the development of nanotechnology and quantum computing.
18. According to Landauer, information and energy are intimately connected.
19. The Landauer-Bennett principle is a key concept in the design of energy-efficient computing systems.
20. Landauer's work on irreversible processes has influenced the study of complex systems in biology and ecology.
21. The Landauer limit can be seen as a manifestation of the trade-off between computational complexity and thermodynamic efficiency.
22. Landauer's ideas have sparked new debates about the ultimate limits of computation and communication.
23. Landauer's work on the thermodynamics of computation has opened up new frontiers in the study of artificial intelligence and machine learning.
24. According to Landauer, the universe is fundamentally computational in nature.
25. The Landauer limit has implications for the design of information storage and retrieval systems.
26. Landauer's insights into the relationship between information and entropy have influenced fields as diverse as economics and sociology.
27. The Landauer-Bennett principle has been used to optimize the performance of digital circuits and memory devices.
28. Landauer's contributions to the study of information have relevance for the understanding of social systems and their dynamics.
29. According to Landauer, information processing is a key driver of both biological and cultural evolution.
30. The Landauer limit sets a fundamental constraint on the scaling of computing technology and its impact on the environment.
Common Phases
1. The
Landauer limit is a fundamental physical limit on the minimum energy required to erase one bit of information;
2. The
Landauer principle states that any irreversible operation in a computer produces entropy and dissipates heat;
3. The
Landauer-Büttiker formalism is a theoretical framework for describing the flow of electrons in mesoscopic systems;
4. The
Landauer tunneling process involves the transmission of electrons through a potential barrier with the help of thermal energy;
5. The
Landauer-Grüneisen parameter is used to determine the strength of the electron-phonon interaction in a material;
6. The
Landauer-Keldysh method is a computational technique for calculating electronic transport in nanoscale systems.