This paper describes a new approach in the high level design and test of transport-triggered architectures (TTA), a special type of application specific instruction processors (ASIP). The proposed method introduces the test as an additional constraint, besides throughput and circuit area. The method, that calculates the testability of the system, helps the designer to assess the obtained architectures with respect to test, area and throughput in the early phase of the design and selects the most suitable one. In order to create the templated TTA, the ¿MOVE¿ framework has been addressed. The approach is validated with respect to the ¿Crypt¿ Unix applicatio
Application specific processors offer a great trade-off between cost and performance. They are far m...
The objective of this thesis work was to construct a VHDL simulation model of a Transport Triggered ...
In previous ASCI papers ([1], [2]), a processor development framework for Transport Triggered Archit...
This paper describes a new approach in the high level design and test of transport-triggered archite...
A designer can chose from several options when mapping an application into a combination of hardware...
In this paper, we present design for testability (DFT) and hi-erarchical test generation techniques ...
Abstract — In this paper, we present design for testability (DFT) and hierarchical test generation t...
In this paper we propose the usage of Transport Triggered Architectures (TTAs) as a template for the...
Processors used in embedded systems have specific requirements which are not always met by off-the-s...
In this presentation we will describe transport triggered architecture (TTA) related sequential proc...
As superscalar processors are becoming more and more complex due to dynamic scheduling of instructio...
This project is based on implementing Design For Testability (DFT) of Application Specific Integrate...
Most power dissipation in Very Large Instruction Word (VLIW) processors occurs in their large, multi...
Due to specific requirements of some of embedded system applications, general purpose processors are ...
Over the years, user-programmable logic devices, such as FPGAs, have become a popular platform for t...
Application specific processors offer a great trade-off between cost and performance. They are far m...
The objective of this thesis work was to construct a VHDL simulation model of a Transport Triggered ...
In previous ASCI papers ([1], [2]), a processor development framework for Transport Triggered Archit...
This paper describes a new approach in the high level design and test of transport-triggered archite...
A designer can chose from several options when mapping an application into a combination of hardware...
In this paper, we present design for testability (DFT) and hi-erarchical test generation techniques ...
Abstract — In this paper, we present design for testability (DFT) and hierarchical test generation t...
In this paper we propose the usage of Transport Triggered Architectures (TTAs) as a template for the...
Processors used in embedded systems have specific requirements which are not always met by off-the-s...
In this presentation we will describe transport triggered architecture (TTA) related sequential proc...
As superscalar processors are becoming more and more complex due to dynamic scheduling of instructio...
This project is based on implementing Design For Testability (DFT) of Application Specific Integrate...
Most power dissipation in Very Large Instruction Word (VLIW) processors occurs in their large, multi...
Due to specific requirements of some of embedded system applications, general purpose processors are ...
Over the years, user-programmable logic devices, such as FPGAs, have become a popular platform for t...
Application specific processors offer a great trade-off between cost and performance. They are far m...
The objective of this thesis work was to construct a VHDL simulation model of a Transport Triggered ...
In previous ASCI papers ([1], [2]), a processor development framework for Transport Triggered Archit...