Name
Abstract | ||
|---|---|---|
A new layered reconfigurable architecture is proposed which exploits modularity, scalability and flexibility to achieve high energy efficiency and memory bandwidth. Functional Reconfiguration theoretical concepts are proposed to describe this kind of architectures, based on concepts from functional programming theory. A high-level design methodology is adapted and modified to allow easy design, testing and simulation. The architectural concepts are tested on an application domain and several tools are created to partially automate application mapping flow and system integration. Moreover, due to its inherent 3D structure of the proposed architecture, physical implementation into 3D silicon is attempted. |
Year | DOI | Venue |
|---|---|---|
2014 | 10.1109/VLSI-SoC.2014.7004167 | Very Large Scale Integration |
Keywords | DocType | Citations |
circuit simulation,energy conservation,functional programming,high level synthesis,integrated circuit design,integrated circuit modelling,integrated circuit testing,reconfigurable architectures,three-dimensional integrated circuits,3D computing architecture,3D silicon technology,3D structure,application mapping flow,functional programming theory,functional reconfiguration theoretical concepts,high energy efficiency,high-level design methodology,layered reconfigurable architecture,memory bandwidth,system integration,3D Architecture,ADL Modeling,Coarse-grained Reconfigurable Architecture (CGRA),Functional Architecture,Functional Reconfigurability,High-level Modeling | Conference | 0 |
PageRank | References | Authors |
0.34 | 7 | 1 |
Name | Order | Citations | PageRank |
|---|---|---|---|
| Zoltán Endre Rákossy | 1 | 46 | 4.53 |