The National Science Foundation and the Semiconductor Research Alliance announced today that they will jointly fund a joint project with 18 projects to solve the design challenges of fault-tolerant circuits and systems. This three-year collaborative project worth US $ 6 million will support 29 faculty groups in 18 American universities to carry out research, focusing on various design issues for flexible circuits and systems for future computing applications. These universities include: University of Texas, University of California, University of Southern California, Carnegie Mellon University, University of Connecticut, University of Utah, University of Texas A & M, University of Illinois, Stanford University, University of Michigan, University of Minnesota, University of Rochester, Colorado State University, North Carolina State University, University of Virginia, West Virginia University, etc. Miniature electronic devices constitute the current widespread, increasingly efficient and complex electronic system. Common examples include communication devices such as cell phones, personal digital assistants, flight control systems, autonomous vehicles, precision weapon systems, and micro-medical devices such as pacemakers and heart monitors. The accurate operation of these systems is usually a matter of life and death, such as a small failure of the pacemaker may threaten the life of the patient, and the unexpected failure of the flight control circuit or autonomous vehicle may cause an accident. A variety of reasons can cause highly sensitive, automated machinery to deviate from the expected behavior or function. These causes include design defects, uncontrolled physical phenomena, manufacturing process errors, aging over time or other external causes, and may even include tampered or malicious designs. By funding basic research in chip design, the joint program of the National Science Foundation and the Semiconductor Research Alliance focuses on self-correcting or self-healing fault-tolerant systems so that they will be hardly subject to external interference throughout the entire working cycle. PramodKhargonekar, head of the Engineering Department of the National Science Foundation, said, "As the device size becomes smaller and the basic principles are limited, the project will develop a new design method that takes into account manufacturing process deviations, which will also address the current urgency facing the semiconductor industry problem." Farnam Jahanian, head of the Computer Science and Information Science Engineering Department of the National Science Foundation, said, "The new basic design technology has the potential to significantly improve the reliability of electronic systems. The plan works with the Semiconductor Research Alliance to develop a pioneering, long-term foundation for academia Research provides opportunities. " Steve Hillenius, executive vice president of the Semiconductor Research Alliance, said, "This form of government, industry, and academia collaboration will help universities solve the challenges of critical computing problems. Elastic systems will have an impact on multiple industries and enhance their global competitiveness. To help promote research to applications and establish market segments. " Solar Power Station,photovoltaic power station,moveable power station,portable solar power station,Portable energy storage system,portable generators for camping,Portable battery storage EMoreShare International Trade (Suzhou) Co., Ltd , https://www.emoresharesystem.com