This article needs additional citations for verification .(June 2018) |
Established | 2003 |
---|---|
Endowment | US$ 8 million(2011-12) |
Director | Mike Alles |
Academic staff | 23 |
Administrative staff | 3 |
Location | , , USA |
Affiliations | Vanderbilt University |
Website | http://isde.vanderbilt.edu |
The Institute for Space and Defense Electronics (ISDE) is a research facility at Vanderbilt University, a private research university in Nashville, Tennessee. The ISDE is housed in the Department of Electrical Engineering and Computer Science and it is the largest such academic facility in the world.
The mission of ISDE is to contribute to the design and analysis of radiation-hardened electronics, the development of test methods and plans for assuring radiation hardness, and the development of solutions to system-specific problems related to radiation effects. ISDE was launched with initial support from the US Navy SSPO and Draper Labs. In addition, ISDE currently supports the Defense Threat Reduction Agency, Arnold Engineering Development Center, NASA Goddard Space Flight Center, Mission Research Corporation, Boeing/DARPA and BAE Systems. ISDE engineers help to identify radiation related issues at the device and circuit levels, propose design solutions and implement test plans. Expertise includes, but is not limited to, Interrail, Honeywell and IBM processes.
The Radiation Effects Group (RER) at Vanderbilt University was established in 2003 and is the largest program of its kind in the U.S. It is the only academic program actively involved in supporting the Department of Defense (DOD) in radiation effects for strategic applications, and one of very few programs involved in microelectronics research for space applications. In January 2003, the Radiation Effects Group established the Institute for Space and Defense Electronics (ISDE) in order to extend its capabilities to serve government and commercial customers. [1]
This article contains content that is written like an advertisement .(June 2022) |
The ISDE facility is located off of the Vanderbilt University campus and is said to offer an office environment for engineering and project management activities. The institute has full access to the university's laboratories and meeting facilities located on Vanderbilt's campus. The ISDE office is described as a 'secure, limited-access facility', allowing only approved personnel to enter without an ISDE employee escort.
The engineering staff of ISDE performs design, analysis and modeling work for a variety of space and defense-oriented organizations. ISDE engineers help to identify radiation-related issues at the device and circuit levels, propose design solutions, and implement test plans. ISDE has an array of software tools for simulating radiation effects and designing integrated circuits, a high performance parallel computing cluster (ACCRE), several types of radiation sources, and extensive electrical characterization capability. Specifically, ISDE has an extensive suite of test and characterization equipment for radiation-effects analysis, including an ARACOR 10-keV x-ray irradiator, two Cs-137 isotopic irradiators, a state-of-the-art 2 MV Peloton Facility capable of 4 MeV protons, 6 MeV alphas, 14 MeV oxygen and 16 MeV chlorine ions, a Class IV Laser Test Facility etc. ISDE team members have extensive experience conducting single-event tests at facilities including Brookhaven National Laboratory, Lawrence Berkeley National Laboratory, Los Alamos National Laboratory, TRIUMF, Sandia National Laboratories etc.
An array of test equipment is available to facilitate the characterization of irradiated devices and ICs. Vanderbilt also has in place a cooperative research and development agreement (CRADA) with NAVSEA-Crane that provides access to a suite of radiation sources and fully equipped parts analysis laboratory. Vanderbilt's Advanced Computing Center for Research and Education (ACCRE) houses VAMPIRE, an 1800+ processor Beowulf cluster supercomputer used to execute Vanderbilt's Technology Computer Aided Design (TCAD) suite and the particle interaction simulator based on Geant4.
The institute gets funding from various government and private sector sources. Some of them are: [2]
The Defense Advanced Research Projects Agency (DARPA) is a research and development agency of the United States Department of Defense responsible for the development of emerging technologies for use by the military.
Pacific Northwest National Laboratory (PNNL) is one of the United States Department of Energy national laboratories, managed by the Department of Energy's (DOE) Office of Science. The main campus of the laboratory is in Richland, Washington.
Sandia National Laboratories (SNL), also known as Sandia, is one of three research and development laboratories of the United States Department of Energy's National Nuclear Security Administration (NNSA). Headquartered in Kirtland Air Force Base in Albuquerque, New Mexico, it has a second principal facility next to Lawrence Livermore National Laboratory in Livermore, California, and a test facility in Waimea, Kauai, Hawaii. Sandia is owned by the U.S. federal government but privately managed and operated by National Technology and Engineering Solutions of Sandia, a wholly owned subsidiary of Honeywell International.
The Air Force Research Laboratory (AFRL) is a scientific research and development detachment of the United States Air Force Materiel Command dedicated to leading the discovery, development, and integration of direct-energy based aerospace warfighting technologies, planning and executing the Air Force science and technology program, and providing warfighting capabilities to United States air, space, and cyberspace forces. It controls the entire Air Force science and technology research budget which was $2.4 billion in 2006.
Radiation hardening is the process of making electronic components and circuits resistant to damage or malfunction caused by high levels of ionizing radiation, especially for environments in outer space, around nuclear reactors and particle accelerators, or during nuclear accidents or nuclear warfare.
The Bhabha Atomic Research Centre (BARC) is India's premier nuclear research facility, headquartered in Trombay, Mumbai, Maharashtra, India. It was founded by Homi Jehangir Bhabha as the Atomic Energy Establishment, Trombay (AEET) in January 1954 as a multidisciplinary research program essential for India's nuclear program. It operates under the Department of Atomic Energy (DAE), which is directly overseen by the Prime Minister of India.
A single-event upset (SEU), also known as a single-event error (SEE), is a change of state caused by one single ionizing particle striking a sensitive node in a live micro-electronic device, such as in a microprocessor, semiconductor memory, or power transistors. The state change is a result of the free charge created by ionization in or close to an important node of a logic element. The error in device output or operation caused as a result of the strike is called an SEU or a soft error.
The Pakistan Institute of Nuclear Science & Technology (PINSTECH) is a federally funded research and development laboratory in Nilore, Islamabad, Pakistan.
Dassault Systèmes Simulia Corp. is a computer-aided engineering (CAE) vendor. Formerly known as Abaqus Inc. and previously Hibbitt, Karlsson & Sorensen, Inc., (HKS), the company was founded in 1978 by David Hibbitt, Bengt Karlsson and Paul Sorensen, and has its headquarters in Providence, Rhode Island.
The Armed Forces Radiobiology Research Institute (AFRRI) is an American triservice research laboratory in Bethesda, Maryland chartered by Congress in 1960 and formally established in 1961. It conducts research in the field of radiobiology and related matters which are essential to the operational and medical support of the U.S. Department of Defense (DoD) and the U.S. military services. AFRRI provides services and performs cooperative research with other federal and civilian agencies and institutions.
The University of Florida Training Reactor (UFTR), commissioned in 1959, is a 100 kW modified Argonaut-type reactor at the University of Florida in Gainesville, Florida. It is a light water and graphite moderated, graphite reflected, light water cooled reactor designed and used primarily for training and nuclear research related activities. The reactor is licensed by the Nuclear Regulatory Commission and is the only research reactor in Florida.
The Ford Nuclear Reactor was a facility at the University of Michigan in Ann Arbor dedicated to investigating the peaceful uses of nuclear power. It was a part of the Michigan Memorial Phoenix Project, a living memorial created to honor the casualties of World War II. The reactor operated from September 1957 until July 3, 2003. During its operation, the FNR was used to study medicine, cellular biology, chemistry, physics, mineralogy, archeology, anthropology, and nuclear science.
The Sarayköy Nuclear Research and Training Center, known as SANAEM, is a nuclear research and training center of Turkey. The organization was established on July 1, 2005, as a subunit of Turkish Atomic Energy Administration at Kazan district in northwest of Ankara on an area of 42.3 ha.
Ronald D Schrimpf is an American electrical engineer and scientist. He is the Orrin H. Ingram Chair in Engineering, Electrical Engineering & Computer Science at Vanderbilt University. where his research activities focus on microelectronics and semiconductor devices. He is affiliated with the Radiation Effects and Reliability Group at Vanderbilt University where he works on the effects of radiation on semiconductor devices and integrated circuits. He also serves as the Director of the Institute for Space and Defense Electronics at Vanderbilt. He is best known for his work in the field of ionizing radiation response on Bipolar junction transistor (BJT) and Enhanced Low Dose Rate Sensitivity in BJT.
Daniel M. Fleetwood is an American scientist, inventor, engineer and innovator. He is credited as being one of the first to identify the origins of flicker noise in semiconductor devices and its usefulness in understanding the effects of ionizing radiation on microelectronic devices and materials.
Epaminondas George Aristotle Alexander Stassinopoulos was a American astrophysicist, author, and Resistance member against the Nazis occupying Greece during World War II. He served as the Head of the Radiation Physics Office at NASA’s Goddard Space Flight Center until 2006, when he transitioned to Emeritus status until 2021. He was the author of numerous papers and articles in the field of space radiation.
Kenneth F. Galloway, Sr. is an American engineer and engineering educator. He is a Distinguished Professor of Engineering, Emeritus, and Dean of the School of Engineering, Emeritus, at Vanderbilt University. He is a Fellow of the Institute of Electrical and Electronics Engineers, the American Association for the Advancement of Science, the American Society for Engineering Education and the American Physical Society.
Arthur Frank Witulski is an American electrical engineer. He is the Research Associate Professor Electrical Engineering and Computer Science at Vanderbilt University, where his research activities focus on microelectronics and semiconductor devices. He is affiliated with the Radiation Effects and Reliability Group at Vanderbilt University, where he works on the effects of radiation on semiconductor devices and integrated circuits. He also serves as an engineer at the Institute for Space and Defense Electronics at Vanderbilt. He is best known for his work in the field of Power electronics and ionizing radiation response of DC-to-DC converter.
The Aurora Pulsed Radiation Simulator was a 14 TW flash gamma-ray simulator, designed to simulate the effects of a nuclear weapon's bremsstrahlung, or gamma radiation, pulses on military electronic systems. It was built in 1971 by the U.S. Defense Atomic Support Agency (DASA), which eventually became the Defense Threat Reduction Agency, and the U.S. Department of Energy (DOE).
The SCORPION(Self CORrecting Projectile for Infantry OperatioN) program was a research initiative funded by the U.S. Defense Advanced Research Projects Agency (DARPA) and led by the U.S. Army Research Laboratory (ARL) and the Georgia Institute of Technology to integrate micro adaptive flow control (MAFC) technology into small caliber munitions to develop spinning, guided projectiles. The program led to the creation of a spin-stabilized 40 mm grenade, also called SCORPION, that could propel itself to its target by using calculated micro-jet bursts of air to correct its path once launched.