As software continues to control more system-critical functions in cars, its timing is becoming an integral element in functional safety. Timing validation and verification (V&V) assesses softwares end-to-end timing measurements against given budgets. The advent of multicore processors with massive resource sharing reduces the significance of end-to-end execution times for timing V&V and requires reasoning on (worst-case) access delays on contention-prone hardware resources. While Performance Monitoring Units (PMU) support this finer-grained reasoning, their design has never been a prime consideration in high-performance processors - where automotive-chips PMU implementations descend from - since PMU does not directly affect performance or ...
Performance Monitoring Counters (PMCs) have been traditionally used in the mainstream computing doma...
Cars, trains, trucks, telecom networks and industrial robots are examples of products relying on com...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
As software continues to control more system-critical functions in cars, its timing is becoming an i...
This talk presents the general landscape of timing analysis as it is being used today in the design ...
Critical real-time embedded systems feature complex safety-related, performance-demanding functional...
Car manufacturers relentlessly replace or augment the functionality of mechanical subsystems with el...
Performance Monitoring Units (PMUs) are at the heart of most-advanced timing analysis techniques to ...
For mixed-criticality automotive systems, the functional safety standard ISO 26262 stipulates freedo...
Multicores are becoming ubiquitous in automotive. Yet, the expected benefits on integration are chal...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
The number of mechanical subsystems enhanced or completely replaced by electrical/electronic compone...
The use of complex processors is becoming ubiquitous in High-Integrity Systems (HIS). To deal with p...
Abstract Embedded hard real-time systems need reliable guarantees for the satisfaction of their timi...
Performance Monitoring Counters (PMCs) have been traditionally used in the mainstream computing doma...
Performance Monitoring Counters (PMCs) have been traditionally used in the mainstream computing doma...
Cars, trains, trucks, telecom networks and industrial robots are examples of products relying on com...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
As software continues to control more system-critical functions in cars, its timing is becoming an i...
This talk presents the general landscape of timing analysis as it is being used today in the design ...
Critical real-time embedded systems feature complex safety-related, performance-demanding functional...
Car manufacturers relentlessly replace or augment the functionality of mechanical subsystems with el...
Performance Monitoring Units (PMUs) are at the heart of most-advanced timing analysis techniques to ...
For mixed-criticality automotive systems, the functional safety standard ISO 26262 stipulates freedo...
Multicores are becoming ubiquitous in automotive. Yet, the expected benefits on integration are chal...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
The number of mechanical subsystems enhanced or completely replaced by electrical/electronic compone...
The use of complex processors is becoming ubiquitous in High-Integrity Systems (HIS). To deal with p...
Abstract Embedded hard real-time systems need reliable guarantees for the satisfaction of their timi...
Performance Monitoring Counters (PMCs) have been traditionally used in the mainstream computing doma...
Performance Monitoring Counters (PMCs) have been traditionally used in the mainstream computing doma...
Cars, trains, trucks, telecom networks and industrial robots are examples of products relying on com...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...