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HP Labs develops 4th fundamental circuit

Posted: 06 May 2008     Print Version  Bookmark and Share

Keywords:memristor  fundamental circuit element  nanoelectronics 

HP Labs, Hewlett-Packard's central research facility, claims to have proven the existence of the fourth fundamental circuit element in electrical engineering, which was only previously theorized in electrical engineering.

The scientific advancement could make it possible to develop computer systems that have memories that do not forget, do not need to be booted up, consume far less power and associate information in a manner similar to that of the human brain.

In a paper published in Nature, four researchers at HP Labs' information and quantum systems lab, led by R. Stanley Williams, presented the mathematical model and a physical example of a "memristor"—a blend of "memory resistor"—which has the unique property of retaining a history of the information it has acquired.

Leon Chua, a distinguished faculty member in the Electrical Engineering and Computer Sciences Department of the University of California at Berkeley, initially theorised about and named the element in an academic paper published 37 years ago. Chua argued that the memristor was the fourth fundamental circuit element, along with the resistor, capacitor and inductor, and that it had properties that could not be duplicated by any combination of the other three elements.

Building on their research in nanoelectronics, Williams and team are the first to prove the existence of the memristor.

"To find something new and yet so fundamental in the mature field of electrical engineering is a big surprise, and one that has significant implications for the future of computer science," said Williams. "By providing a mathematical model for the physics of a memristor, HP Labs has made it possible for engineers to develop integrated circuit designs that could dramatically improve the performance and energy efficiency of PCs and data centres."

Birth of new memory
One application for this research could be the development of a new kind of computer memory that would supplement and eventually replace today's commonly used DRAM. Computers using conventional DRAM lack the ability to retain information once they lose power. When power is restored to a DRAM-based computer, a slow, energy-consuming "boot-up" process is necessary to retrieve data from a magnetic disc required to run the system.In contrast, a memristor-based computer would retain its information after losing power and would not require the boot-up process, resulting in the consumption of less power and wasted time.

This functionality could play a significant role as "cloud computing" becomes more prevalent. Cloud computing requires an IT infrastructure of hundreds of thousands of servers and storage systems. The memory and storage systems used by today's cloud infrastructure require significant power to store, retrieve and protect the information of millions of web users worldwide.

Memristor-based memory and storage has the potential to provide greater resiliency and reliability in the face of power interruptions to a data centre.Another potential application could be the development of computer systems that remember and associate series of events in a manner similar to the way a human brain recognises patterns. This could substantially improve today's facial recognition technology, enable security and privacy features that recognise a complex set of biometric features of an authorised person to access personal information, or enable an appliance to learn from experience.

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