It is time for a new era of processors whose temporal behavior is as easily controlled as their logical function. We call them precision timed (PRET) machines. Our basic argument is that real-time systems, in which temporal behavior is as important as logical function, are an important and growing application; processor architecture needs to follow suit
We contend that repeatability of execution times is crucial to the validity of testing of real-time ...
This research is purposed to increase computer function into a time driven to support real time syst...
This research is purposed to increase computer function into a time driven to support real time syst...
We argue that at least for embedded software applications, computer architecture, software, and netw...
In a hard real-time embedded system, the time at which a result is computed is as important as the r...
Cyber-Physical Systems (CPS) are integrations of computation with physical processes. These systems ...
Precision Timed Architectures (PRET) are a recent proposal for designing processors for real-time em...
Building computers that can be used to design embedded real-time systems is the subject of this titl...
Most modern processors leverage technologies that improve average-case performance but render worst ...
Embedded processors play a key role in many safety-critical applications including medical, automoti...
The demand for guaranteed, hence predictable, performance in the real-time systems domain is project...
This paper argues that repeatable timing is more important and more achievable than predictable timi...
This paper introduces a set of design principles that aim to make processor architectures amenable t...
Real-time systems must be able to ensure temporally determinate execution of real-time tasks at run-...
Embedded real-time systems like those found in automotive, rail and aerospace, steadily require high...
We contend that repeatability of execution times is crucial to the validity of testing of real-time ...
This research is purposed to increase computer function into a time driven to support real time syst...
This research is purposed to increase computer function into a time driven to support real time syst...
We argue that at least for embedded software applications, computer architecture, software, and netw...
In a hard real-time embedded system, the time at which a result is computed is as important as the r...
Cyber-Physical Systems (CPS) are integrations of computation with physical processes. These systems ...
Precision Timed Architectures (PRET) are a recent proposal for designing processors for real-time em...
Building computers that can be used to design embedded real-time systems is the subject of this titl...
Most modern processors leverage technologies that improve average-case performance but render worst ...
Embedded processors play a key role in many safety-critical applications including medical, automoti...
The demand for guaranteed, hence predictable, performance in the real-time systems domain is project...
This paper argues that repeatable timing is more important and more achievable than predictable timi...
This paper introduces a set of design principles that aim to make processor architectures amenable t...
Real-time systems must be able to ensure temporally determinate execution of real-time tasks at run-...
Embedded real-time systems like those found in automotive, rail and aerospace, steadily require high...
We contend that repeatability of execution times is crucial to the validity of testing of real-time ...
This research is purposed to increase computer function into a time driven to support real time syst...
This research is purposed to increase computer function into a time driven to support real time syst...