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The increasing popularity of multi-core System-on-Chip platforms introduces new challenges, both in terms of hardware platforms and design methodologies. Dynamic reconfiguration can be exploited to increase the flexibility of the system and to implement multiple applications, since it is possible to easily switch between them by reconfiguring part of the device at run-time. Additionally, new applications...
Dynamic reconfigurable embedded systems are gathering, day after day, an increasing interest from both the scientific and the industrial world. The need of a comprehensive tool which can guide designers through the whole implementation process is becoming stronger. In this paper the authors introduce a new design framework which amends this lack. In particular the paper describes the entire low level...
Complex design, targeting system-on-chip based on reconfigurable architectures, still lacks a generalized methodology allowing both the automatic derivation of a complete system solution able to fit into the final device, and mixed hardware-software solutions, exploiting partial reconfiguration capabilities. The shining methodology organizes the input specification of a complex system-on-chip design...
The design of embedded systems has rapidly changed during the last decade. It is possible to identify two main responsible factors: hardware/software codesign and dynamic reconfiguration. The work presented in this paper tries to investigate how to consider the reconfiguration as an explicit dimension in the design flow for embedded systems. This work addresses the challenge introduced by the partial...
Reconfigurable devices, such as FPGAs, introduce into the design workflow of embedded systems a new degree of freedom: the designer can have the system autonomously modify the functionality carried out by the IP-core according to the application's changing needs while it runs. The Caronte methodology, based on the modular design approach, is a design workflow that allows the creation and the handling...
The design of embedded systems is rapidly changed during the last decade. It is possible to identify two main factors that are involved in this process: HW/WS codesign and dynamic reconfigurable architecture. This work aims at introducing an innovative methodology that allows to easily implement on an FPGA a system specification, taking as input its high-level description, such as C or SystemC, and...
This paper aims at introducing a methodology that allows an easy implementation of IP-Cores focusing only on their functionalities rather than their interfaces and their integration in a given architecture. The proposed approach implements all the communication infrastructure needed by a component, described in VHDL, to be finally inserted into a real architecture that can be implemented on FPGAs,...
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