System-on-chip (SOC) design gets increasingly complex, as a growing number of applications are integrated in modern systems. Some of these applications have real-time requirements, such as a minimum throughput or a maximum latency. To reduce cost, system resources are shared between applications, making their timing behavior inter-dependent. Real-time requirements must hence be verified for all possible combinations of concurrently executing applications, which is not feasible with commonly used simulation-based techniques. This chapter addresses this problem using two complexity-reducing concepts: composability and predictability. Applications in a composable system are completely isolated and cannot affect each other’s behaviors, enabling...
Systems-on-Chip (SoCs) typically implement complex appli-cations, each consisting of multiple tasks....
The demand for guaranteed, hence predictable, performance in the real-time systems domain is project...
MPSoCs serve for the needs of the modern embedded systems by providing computationally powerful and ...
System-on-chip (SOC) design gets increasingly complex, as a growing number of applications are integ...
System-on-chip (soc) design gets increasingly complex, as a growing number of applications are integ...
Contemporary System-on-Chip (SoC) become more and more complex, as increasing integration results in...
Designing multi-processor systems-on-chips becomes increasingly complex, as more applications with r...
Verification of real-time requirements in systems-on-chip becomes more complex as more application...
A growing number of applications, often with firm or soft real-time requirements, are integrated on ...
Verification of application requirements is becoming a bottleneck in system-on-chip design, as the n...
Verification of application requirements is becoming a bottleneck in system-on-chip design, as the n...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems-on-Chip (SoC) complexity increases as a grow-ing number of applications are integrated and e...
Systems-on-Chip (SoCs) typically implement complex appli-cations, each consisting of multiple tasks....
The demand for guaranteed, hence predictable, performance in the real-time systems domain is project...
MPSoCs serve for the needs of the modern embedded systems by providing computationally powerful and ...
System-on-chip (SOC) design gets increasingly complex, as a growing number of applications are integ...
System-on-chip (soc) design gets increasingly complex, as a growing number of applications are integ...
Contemporary System-on-Chip (SoC) become more and more complex, as increasing integration results in...
Designing multi-processor systems-on-chips becomes increasingly complex, as more applications with r...
Verification of real-time requirements in systems-on-chip becomes more complex as more application...
A growing number of applications, often with firm or soft real-time requirements, are integrated on ...
Verification of application requirements is becoming a bottleneck in system-on-chip design, as the n...
Verification of application requirements is becoming a bottleneck in system-on-chip design, as the n...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems-on-Chip (SoC) complexity increases as a grow-ing number of applications are integrated and e...
Systems-on-Chip (SoCs) typically implement complex appli-cations, each consisting of multiple tasks....
The demand for guaranteed, hence predictable, performance in the real-time systems domain is project...
MPSoCs serve for the needs of the modern embedded systems by providing computationally powerful and ...