Network-on-chip-based multiprocessor systems-on-chip are considered as future embedded systems platforms. One of the steps in mapping an application onto such a parallel platform involves scheduling the communication on the network-on-chip. This paper presents different scheduling strategies that minimize resource usage by exploiting all scheduling freedom offered by networks-on-chip. It also introduces a technique to take the dynamism in applications into account when scheduling the communication of an application on the network-on-chip while minimizing the resource usage. Our experiments show that resource-utilization is improved when compared to existing techniques
With the advent of the multiple IP-core based design using Network on Chip (NoC), it is possible to ...
iii With the increasing capacity of today’s integrated circuits, a number of heterogeneous system-on...
Networks-on-Chips (NoCs) represent a scalable wiring solution for future chips, with dynamic allocat...
Network-on-chip-based multiprocessor systems-on-chip are considered as future embedded systems platf...
Abstract. Network-on-chip-based multiprocessor systems-onchip are considered as future embedded syst...
In this paper, we focus on solving the problem of removing inter-core communication overhead for str...
In this paper, we present a novel Energy-Aware Scheduling (EAS) algorithm which statically schedules...
In a modern industrial system, the requirement on computational capacity has increased dramatically,...
Efficient run-time mapping of tasks onto Multiprocessor System-on-Chip (MPSoC) is very challenging e...
This paper examines the possibilities of providing throughput guarantees in a network-on-chip by app...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
This thesis addresses the problem of designing performance and energy efficient embedded streaming s...
With the advance of semiconductor technology, global on-chip wiring is becoming a limiting factor fo...
In this paper, we jointly optimize computation and communication task scheduling for streaming appli...
Energy consumption has become a critical design issue in real-time embedded systems (RTES), which ar...
With the advent of the multiple IP-core based design using Network on Chip (NoC), it is possible to ...
iii With the increasing capacity of today’s integrated circuits, a number of heterogeneous system-on...
Networks-on-Chips (NoCs) represent a scalable wiring solution for future chips, with dynamic allocat...
Network-on-chip-based multiprocessor systems-on-chip are considered as future embedded systems platf...
Abstract. Network-on-chip-based multiprocessor systems-onchip are considered as future embedded syst...
In this paper, we focus on solving the problem of removing inter-core communication overhead for str...
In this paper, we present a novel Energy-Aware Scheduling (EAS) algorithm which statically schedules...
In a modern industrial system, the requirement on computational capacity has increased dramatically,...
Efficient run-time mapping of tasks onto Multiprocessor System-on-Chip (MPSoC) is very challenging e...
This paper examines the possibilities of providing throughput guarantees in a network-on-chip by app...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
This thesis addresses the problem of designing performance and energy efficient embedded streaming s...
With the advance of semiconductor technology, global on-chip wiring is becoming a limiting factor fo...
In this paper, we jointly optimize computation and communication task scheduling for streaming appli...
Energy consumption has become a critical design issue in real-time embedded systems (RTES), which ar...
With the advent of the multiple IP-core based design using Network on Chip (NoC), it is possible to ...
iii With the increasing capacity of today’s integrated circuits, a number of heterogeneous system-on...
Networks-on-Chips (NoCs) represent a scalable wiring solution for future chips, with dynamic allocat...