Recent technological advances have led to an increasing gap between memory and processor performance, since memory bandwidth is progressing at a much slower pace than processor bandwidth. Pre-fetching techniques are traditionally used to bridge this gap and achieve high processor utilization while tolerating high memory latencies. Following this trend, new computational models have been proposed to split task execution in two consecutive phases: a memory phase in which the required instructions and data are pre-fetched to local memory (M-phase), and an execution phase in which the task is executed with no memory contention (C-phase). Decoupling memory and execution phases not only simplifies the timing analysis, but also allows a more effic...
Traditional multiprocessor real-time scheduling partitions a task set and applies uniprocessor sched...
\u3cp\u3eCommercial off-the-shelf programmable platforms for real-time systems typically contain a c...
Real-time computing paradigm is being pervasively deployed in many critical and non-critical applica...
Recent technological advances have led to an increasing gap between memory and processor performance...
Recent technological advances have led to an increasing gap between memory and processor performance...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
In the last years, a progressive migration from single processor chips to multi-core computing devic...
This report addresses the problem of priority assignment in multiprocessor real-time systems using g...
Abstract—Recently, there have been several promising tech-niques developed for schedulability analys...
Commercial off-the-shelf programmable platforms for real-time systems typically contain a cache to b...
In recent years more and more real-time applications run on multiprocessor or distributed systems. I...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
Driven by industry demand, there is an increasing need to develop real-time multiprocessor systems w...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
Traditional multiprocessor real-time scheduling partitions a task set and applies uniprocessor sched...
\u3cp\u3eCommercial off-the-shelf programmable platforms for real-time systems typically contain a c...
Real-time computing paradigm is being pervasively deployed in many critical and non-critical applica...
Recent technological advances have led to an increasing gap between memory and processor performance...
Recent technological advances have led to an increasing gap between memory and processor performance...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
In the last years, a progressive migration from single processor chips to multi-core computing devic...
This report addresses the problem of priority assignment in multiprocessor real-time systems using g...
Abstract—Recently, there have been several promising tech-niques developed for schedulability analys...
Commercial off-the-shelf programmable platforms for real-time systems typically contain a cache to b...
In recent years more and more real-time applications run on multiprocessor or distributed systems. I...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
Driven by industry demand, there is an increasing need to develop real-time multiprocessor systems w...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
Traditional multiprocessor real-time scheduling partitions a task set and applies uniprocessor sched...
\u3cp\u3eCommercial off-the-shelf programmable platforms for real-time systems typically contain a c...
Real-time computing paradigm is being pervasively deployed in many critical and non-critical applica...