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Self-modifying Circuitry for Trillion-element Reconfigurable Devices: an Analysis of a Future Computing Paradigm for Efficient, Scalable, Defect-tolerant Processing Nicholas J. Macias
Self-modifying Circuitry for Trillion-element Reconfigurable Devices: an Analysis of a Future Computing Paradigm for Efficient, Scalable, Defect-tolerant Processing
Nicholas J. Macias
As transistors density continues to rise, it becomes increasingly difficult to scale current computing designs to utilize these high transistor counts. This work presents a scalable alternative to the traditional von Neumann architecture, in the form of a self-configurable array of programmable elements. Unlike traditional FPGAs, this architecture utilizes self-analysis and self-modification to address a number of scalability challenges, including handling mixed-granularity designs; handling of defects; and dynamic architecture tuning. Included are details of the basic architecture, examples of its application to solving real-world problems, and an analysis of its scalability. Emphasis is placed on the ability of the system's self-configuration mechanism to support efficient parallel bootstrapping of the system. This work also discusses the three-dimensional version of the Cell Matrix, and explores how this extra dimension can be used to more-efficiently solve future problems.
| Mediji | Grāmatas Paperback Book (Grāmata ar mīksto vāku un līmēto muguru) |
| Izlaists | 2011. gada 7. decembris |
| ISBN13 | 9783846593387 |
| Izdevēji | LAP LAMBERT Academic Publishing |
| Lapas | 172 |
| Izmēri | 150 × 10 × 226 mm · 274 g |
| Valoda | Vācu |
Skatīt visus Nicholas J. Macias ( piem., Paperback Book )