Contemporary System-on-Chip (SoC) become more and more complex, as increasing integration results in a larger number of concurrently executing applications. These applications consist of tasks that are mapped on heterogeneous multi-processor platforms with distributed memory hierarchies, where SRAMs and SDRAMs are shared by a variety of arbiters. Some applications have real-time requirements, meaning that they must perform a particular computation before a deadline to guarantee functional correctness, or to prevent quality degradation. Mapping the applications on the platform such that all real-time requirements are satisfied is very challenging. The number of possible mappings of tasks to processing elements and data structures to memories...
Abstract—The verification complexity of real-time require-ments in embedded systems grows exponentia...
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...
Verification of real-time requirements in systems-on-chip becomes more complex as more application...
Designing multi-processor systems-on-chips becomes increasingly complex, as more applications with r...
Contemporary System-on-Chip (SoC) become more and more complex, as increasing integration results in...
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...
Verifying real-time requirements of applications is increasingly complex on modern Systems-on-Chips ...
Verifying firm real-time requirements gets increasingly complex, as the number of applications in em...
Verifying real-time requirements of applications is increas-ingly complex on modern Systems-on-Chips...
The verification complexity of real-time requirements in embedded systems grows exponentially with t...
Abstract—The verification complexity of real-time require-ments in embedded systems grows exponentia...
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...
Verification of real-time requirements in systems-on-chip becomes more complex as more application...
Designing multi-processor systems-on-chips becomes increasingly complex, as more applications with r...
Contemporary System-on-Chip (SoC) become more and more complex, as increasing integration results in...
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...
Verifying real-time requirements of applications is increasingly complex on modern Systems-on-Chips ...
Verifying firm real-time requirements gets increasingly complex, as the number of applications in em...
Verifying real-time requirements of applications is increas-ingly complex on modern Systems-on-Chips...
The verification complexity of real-time requirements in embedded systems grows exponentially with t...
Abstract—The verification complexity of real-time require-ments in embedded systems grows exponentia...
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...