Distributed hard real-time systems require predictable communication at the network level and verifiable communication behavior at the application level. At the network level, communication between nodes must be guaranteed to happen within bounded time and one common approach is to restrict the network access by enforcing a time-division multiple access (TDMA) schedule. At the application level, the application\u27s communication behavior should be verified to ensure that the application uses the predictable communication in the intended way. Network Code is a domain-specific programming language to write a predictable verifiable distributed communication for distributed real-time applications. In this paper, we present the syntax and sema...
A critical resource in a distributed real-time system is its shared communication medium. Unrestrain...
In this paper, we present a model and language constructs for a distributed real-time system with th...
316 pagesAs computer networks have grown into some of the most complex and critical computing system...
Distributed hard real-time systems require predictable communication at the network level and verif...
Distributed hard real-time systems require guaranteed communication. One common approach is to restr...
Distributed hard real-time systems require guaranteed communication. One common approach is to restr...
Distributed real-time systems require a predictable and verifiable mechanism to control the communic...
The general goal of the work on Network Code is to allow building adaptive and verifiable distribute...
A critical resource in a distributed real-time system is its shared communication medium. Unrestrain...
This paper presents language constructs for the expression of timing and concurrency requirements in...
In this paper we propose a method for extending programming languages that enables the specification...
In hard real-time applications, programs must not only be functionally correct but must also meet ti...
In hard real-time applications, programs must not only be functionally correct but must also meet ti...
ABSTRACT We propose a technique to automatically synthesize programs and schedules for hard real-tim...
A model for distributed hard real-time programs should incorporate real-time characteristics and be ...
A critical resource in a distributed real-time system is its shared communication medium. Unrestrain...
In this paper, we present a model and language constructs for a distributed real-time system with th...
316 pagesAs computer networks have grown into some of the most complex and critical computing system...
Distributed hard real-time systems require predictable communication at the network level and verif...
Distributed hard real-time systems require guaranteed communication. One common approach is to restr...
Distributed hard real-time systems require guaranteed communication. One common approach is to restr...
Distributed real-time systems require a predictable and verifiable mechanism to control the communic...
The general goal of the work on Network Code is to allow building adaptive and verifiable distribute...
A critical resource in a distributed real-time system is its shared communication medium. Unrestrain...
This paper presents language constructs for the expression of timing and concurrency requirements in...
In this paper we propose a method for extending programming languages that enables the specification...
In hard real-time applications, programs must not only be functionally correct but must also meet ti...
In hard real-time applications, programs must not only be functionally correct but must also meet ti...
ABSTRACT We propose a technique to automatically synthesize programs and schedules for hard real-tim...
A model for distributed hard real-time programs should incorporate real-time characteristics and be ...
A critical resource in a distributed real-time system is its shared communication medium. Unrestrain...
In this paper, we present a model and language constructs for a distributed real-time system with th...
316 pagesAs computer networks have grown into some of the most complex and critical computing system...