Recent trends show a steady increase towards concurrently executing more and more applications on a single embedded system. Multi-Processor System-on-Chip (MPSoC) architectures are proposed to allow complex design of embedded systems. This is achieved by integrating as many processing resources as possible on a single chip and therefore enabling the execution of multiple applications on a single embedded System-on-Chip (SoC). Due to cost implications, the applications have to share some resources when executing concurrently on these systems. To fully exploit the computational power of an MPSoC, an application is further split into a number of concurrent tasks. Depending on the intrinsic behavior of an application, its tasks may be either da...
Multi-processors systems on chip (MPSOC) platforms emerged in embedded systems as hardware solutions...
Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applicati...
Designing a SoC for applications with mixed time-criticality is a complex and time-consuming task. E...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Systems-on-Chip (SoC) complexity increases as a grow-ing number of applications are integrated and e...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
Abstract—The functionality of embedded systems is ever in-creasing. This has lead to mixed time-crit...
The functionality of embedded systems is ever increasing. This has lead to mixed time-criticality sy...
Designing a SoC for applications with mixed time-criticality is a complex and time-consuming task. E...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
\u3cp\u3eIn this chapter we define what a mixed-time-criticality system is and what its requirements...
Multi-processors systems on chip (MPSOC) platforms emerged in embedded systems as hardware solutions...
Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applicati...
Designing a SoC for applications with mixed time-criticality is a complex and time-consuming task. E...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Systems-on-Chip (SoC) complexity increases as a grow-ing number of applications are integrated and e...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
Abstract—The functionality of embedded systems is ever in-creasing. This has lead to mixed time-crit...
The functionality of embedded systems is ever increasing. This has lead to mixed time-criticality sy...
Designing a SoC for applications with mixed time-criticality is a complex and time-consuming task. E...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
\u3cp\u3eIn this chapter we define what a mixed-time-criticality system is and what its requirements...
Multi-processors systems on chip (MPSOC) platforms emerged in embedded systems as hardware solutions...
Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applicati...
Designing a SoC for applications with mixed time-criticality is a complex and time-consuming task. E...