Three-dimensional integrated circuits (3D-ICs) are a promising approach to address the integration challenges faced by current systems on chips (SoCs). Designing an efficient network on chip (NoC) interconnect for a 3-D SoC that meets not only the application performance constraints but also the constraints imposed by the 3-D technology is a significant challenge. In this paper, we present a design tool, SunFloor 3D, to synthesize application-specific 3-D NoCs. The proposed tool determines the best NoC topology for the application, finds paths for the communication flows, assigns the network components to the 3-D layers, and places them in each layer. We perform experiments on several SoC benchmarks and present a comparative study between 3...
In many of today\u2019s system-on-chip (SoC) designs, the cores are partitioned into multiple voltag...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...
Three-dimensional (3D) manufacturing technologies are viewed as promising solutions to the bandwidt...
Three-dimensional integrated circuits (3D-ICs) are a promising approach to address the integration ...
Three-dimensional integrated circuits are a promising approach to address the integration challenges...
Three-dimensional integrated circuits are a promising approach to push beyond the integration issues...
Three-dimensional stacking of silicon layers is emerging as a promising solution to handle the desi...
Three-dimensional integrated circuits, where multiple silicon layers are stacked vertically have eme...
Abstract – With increasing performance-per-watt implementation requirements for emerging application...
Three dimensional integration is a promising approach for reducing the form factor of chips. Scalabl...
Design constraints imposed by global interconnect delays as well as limitations in integration of di...
Abstract—In many of today’s system-on-chip (SoC) designs, the cores are partitioned into multiple vo...
Recently, Network-on-Chip (NoC) architectures have gained popularity to address the interconnect del...
In many of today\u2019s system-on-chip (SoC) designs, the cores are partitioned into multiple voltag...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...
Three-dimensional (3D) manufacturing technologies are viewed as promising solutions to the bandwidt...
Three-dimensional integrated circuits (3D-ICs) are a promising approach to address the integration ...
Three-dimensional integrated circuits are a promising approach to address the integration challenges...
Three-dimensional integrated circuits are a promising approach to push beyond the integration issues...
Three-dimensional stacking of silicon layers is emerging as a promising solution to handle the desi...
Three-dimensional integrated circuits, where multiple silicon layers are stacked vertically have eme...
Abstract – With increasing performance-per-watt implementation requirements for emerging application...
Three dimensional integration is a promising approach for reducing the form factor of chips. Scalabl...
Design constraints imposed by global interconnect delays as well as limitations in integration of di...
Abstract—In many of today’s system-on-chip (SoC) designs, the cores are partitioned into multiple vo...
Recently, Network-on-Chip (NoC) architectures have gained popularity to address the interconnect del...
In many of today\u2019s system-on-chip (SoC) designs, the cores are partitioned into multiple voltag...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...
Three-dimensional (3D) manufacturing technologies are viewed as promising solutions to the bandwidt...