Resistive Switching Random-Access Memory (RRAM): Applications and Requirements for Memory and Computing
Politecnico di Milano · Hewlett-Packard (United States)
Abstract
In the information age, novel hardware solutions are urgently needed to efficiently store and process increasing amounts of data. In this scenario, memory devices must evolve significantly to provide the necessary bit capacity, performance, and energy efficiency needed in computation. In particular, novel computing paradigms have emerged to minimize data movement, which is known to contribute the largest amount of energy consumption in conventional computing systems based on the von Neumann architecture. In-memory computing (IMC) provides a means to compute within data with minimum data movement and excellent energy efficiency and performance. To meet these goals, resistive-switching random-access memory…
Citation impact
- FWCI
- 56.94
- Percentile
- 100%
- References
- 284
Authors
2Topics & keywords
- Resistive random-access memory
- Computer science
- In-Memory Processing
- Scalability
- Von Neumann architecture
- Non-volatile memory
- Computer architecture
- Computer data storage