Erlang is a powerful and robust language for writing massively parallel and distributed applications. With the introduction of multi-core ARM processors, the embedded market will be looking for ways of taking advantage of the newfound opportunities for parallelism. To support the development of embedded applications using Erlang we want to provide Erlang and Embedded developers with a run-time system suited for embedded devices. We have managed to shrink the disk size of the Erlang runtime system by a factor of 42 without affecting the stability of the Erlang virtual machine. It is our firm belief that Erlang can play a vital role in the future of embedded systems
With the advent of many-core architectures, scalability is a key property for programming languages...
Distributed actor languages are an effective means of constructing scalable reliable systems, and th...
This thesis compares a C++ prototype and an Erlang prototype for an Internet of Things application. ...
This technical report presents the design of Scalable Distributed (SD) Erlang: a set of language-lev...
As CPU chips integrate more processor cores, computer systems are evolving from multi-core to many-c...
This thesis investigates the possibility to extend the Erlang runtime system such that it can take a...
Erlang is a functional language with a much-emulated model for building reliable distributed sys...
Abstract. Erlang is a concurrent functional programming language designed to ease the development of...
Growing computational power of mobile devices modifies existing approachesto data processing in large...
By connecting many simple general-purpose RISC CPUs with a Network-on-Chip memory system, the Epipha...
The functional programming language Erlang was developed by the Ericsson cor-poration to address the...
The advent of multicore architectures has bred complexity for developers. Variability in scheduling ...
Erlang is an interesting example of a concurrent, high-level programming lan-guage. It is very instr...
Distributed actor languages are an effective means of constructing scalable reliable systems, and th...
Growing computational power of mobile devices modifies existing approachesto data processing in large...
With the advent of many-core architectures, scalability is a key property for programming languages...
Distributed actor languages are an effective means of constructing scalable reliable systems, and th...
This thesis compares a C++ prototype and an Erlang prototype for an Internet of Things application. ...
This technical report presents the design of Scalable Distributed (SD) Erlang: a set of language-lev...
As CPU chips integrate more processor cores, computer systems are evolving from multi-core to many-c...
This thesis investigates the possibility to extend the Erlang runtime system such that it can take a...
Erlang is a functional language with a much-emulated model for building reliable distributed sys...
Abstract. Erlang is a concurrent functional programming language designed to ease the development of...
Growing computational power of mobile devices modifies existing approachesto data processing in large...
By connecting many simple general-purpose RISC CPUs with a Network-on-Chip memory system, the Epipha...
The functional programming language Erlang was developed by the Ericsson cor-poration to address the...
The advent of multicore architectures has bred complexity for developers. Variability in scheduling ...
Erlang is an interesting example of a concurrent, high-level programming lan-guage. It is very instr...
Distributed actor languages are an effective means of constructing scalable reliable systems, and th...
Growing computational power of mobile devices modifies existing approachesto data processing in large...
With the advent of many-core architectures, scalability is a key property for programming languages...
Distributed actor languages are an effective means of constructing scalable reliable systems, and th...
This thesis compares a C++ prototype and an Erlang prototype for an Internet of Things application. ...