@article{SisLab45,
          volume = {E-1},
          number = {4(8)},
           month = {June},
          author = {Van Huan Tran and Xuan Tu Tran},
           title = {CoMoSy: a Flexible System-on-Chip Platform for Embedded Applications},
         journal = {Journal of Research, Development, and Application on Information and Communication Theory},
           pages = {17--26},
            year = {2011},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/45/},
        abstract = {Thanks to the rapid evolution of semiconductor
technology, System-on-Chip (SoC) paradigm has become
one of the most common design methodologies for
quickly developing embedded systems to meet the high
demands of embedded applications. In this paper, we
present the design and implementation of a SoC platform
targeted to controlling and monitoring applications. This
proposed platform is composed of a 32-bit processor and
a dozen of common hardware interfaces, providing the
programmability and connectivity to peripheral devices
such as memories, LAN network, monitor, keyboard, ADC,
DAC, or other I/O devices. In addition, to increase the
flexibility of the system and to rapidly develop end-user
applications, we also deploy an application-specific
software framework with the robustness of a lightweight
kernel and real-time applet management. The system
model has finally been validated through the realization
of a remote control camera system.}
}