Sending report ...Prophet
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Usage Stats Overall Period: Updated 20 Aug, 2008 Users: 495 Jobs: 6717 Avg. exec. time: 5 mins Reviews & Citations Google/IEEE: updated 15 Apr, 2008 Avg. Review: Citations: 3
495 users, detailed statistics
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Available Versions
- 1 (published)
| Version | 1 - published on 15 May, 2005 |
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| Contributor(s) | |
| At a glance | The PROPHET simulator is a framework to solve systems of partial differential equations (PDEs) in time and 1, 2, or 3 space dimensions. |
| Screenshots | |
| Description | The PROPHET simulator is a framework to solve systems of partial differential equations (PDEs) in time and 1, 2, or 3 space dimensions. PDEs are discretized using either finite elements or finite volume methods in space and with implicit methods in time, which reduces the differential equations to a system of algebraic equations that are solved by Newton's method at each timestep. The matrix resulting from the linearization is solved by sparse iterative or direct methods. PROPHET is designed with the goals of: 1) efficiency, 2) geometric flexibility, and 3) equation extensibility. The first two characteristics distinguish PROPHET from packages such as MATLAB or Mathematica, which do not allow the use of arbitrary shapes or grids and are not tuned to solve systems with 100,000 or 1,000,000 unknowns. The third characteristic distinguishes it from application-specific simulators such as PISCES or SUPREM-4. It allows new equations to be specified by a user or model developer who may not be familiar with numerical methods. |
| Credits | PROPHET was developed at Bell Labs by Conor Rafferty and R. Kent Smith. |
| Cite this work | If you reference this work in a publication, please cite as follows: In addition, we would appreciate it if you would add the following acknowledgment to your publication:
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| Type | Tools |
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Citations
The following are publications that have cited this resource, separated by their affiliation to the NCN.
Affiliated authors
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Damodaran, S.; Vadivelmurugan, S.; Do, Q.T.; Heitzinger, C.; Liu, Y.; Dutton, R.W.; Klimeck, G. (2007), "Investigation of Silicon Nanowire Biosensors Using the 2D Drift-diffusion Model," NSTI Nanotech 2007, Santa Clara, California, 2: pg. 542-544, 05.
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Kwon, H.I.; Ravaioli, U.; Lee, J.D. (2006), "Simulation of Electronic/Ionic Mixed Conduction in Solid Ionic Memories," Nonequilibrium Carrier Dynamics in Semiconductors 14th International Conference, July 2005, Springer proceedings in physics, Springer Berlin Heidelberg, 110: pg. 349-352. 0930-8989.
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Lundstrom, M.S.; Klimeck, G. (2006), "The NCN: Science, Simulation, and Cyber Services," Emerging Technologies - Nanoelectronics, 2006 IEEE Conference on: pg. 496--500, 01.
Damodaran, S.; Vadivelmurugan, S.; Do, Q.T.; Heitzinger, C.; Liu, Y.; Dutton, R.W.; Klimeck, G. (2007), "Investigation of Silicon Nanowire Biosensors Using the 2D Drift-diffusion Model," NSTI Nanotech 2007, Santa Clara, California, 2: pg. 542-544, 05.
Kwon, H.I.; Ravaioli, U.; Lee, J.D. (2006), "Simulation of Electronic/Ionic Mixed Conduction in Solid Ionic Memories," Nonequilibrium Carrier Dynamics in Semiconductors 14th International Conference, July 2005, Springer proceedings in physics, Springer Berlin Heidelberg, 110: pg. 349-352. 0930-8989.
Lundstrom, M.S.; Klimeck, G. (2006), "The NCN: Science, Simulation, and Cyber Services," Emerging Technologies - Nanoelectronics, 2006 IEEE Conference on: pg. 496--500, 01.
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See also
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- 9.1 Ranking Topic Introduction to Semiconductor Devices with ABACUS
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- how can I activate prophet - 1 response
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