Our strategical axes

The institute’s work is organised along three lines of research. The following buttons will show you the assigned projects for each line.

 

Efficient Information Processing

Axis coordinator: Yann Thoma

Our skills in the field of programmable circuits (FPGA/CPLD) and interconnection technologies (high-speed interfaces and buses) lead to innovative solutions in the domain of applications requiring high-speed data processing (hardware acceleration, signal processing, cryptography, etc.).
 
Our realizations rely on a solid experience of digital systems development and verification methodologies (VHDL, SystemVerilog, EDA tools, Matalab Simulink).
 
  • Computing accelerator
  • Hardware implementation tailored to dedicated algorithms (Cryptography, signal processing, etc.)
  • High-speed data communication
  • Co-design and data flow optimization
  • Software for hardware design

Under development


EMG4B

May 2, 2014, 15:20 PM
Energy Management Gateway for Buildings
Page:
0836664f-169f-6184-b062-ff0000b5cb90
Select a choice:
Terminated
StartDate:
Jan 1, 2014, 00:00 AM
EndDate:
Jun 30, 2015, 00:00 AM

Energy Management Gateway for Buildings (EMG4B) aims at designing a framework capable of hosting energy related services for buildings.

The project is inspired from the smartphone eco-system, as summarized below:

  • Applications are decoupled from the underlying platform; applications can be added or removed at any time.
  • Standard abstract models and software interfaces allow applications to access the platform’s peripheral resources (heat-pump, photovoltaic inverter, boiler, …) in a uniform way.

 

axes:
  • Software-oriented Heterogeneous Device Support
domaines-d-application:
  • Energy
Tags:

Completed projects


EMG4B

May 2, 2014, 15:20 PM
Energy Management Gateway for Buildings
Page:
0836664f-169f-6184-b062-ff0000b5cb90
Select a choice:
Terminated
StartDate:
Jan 1, 2014, 00:00 AM
EndDate:
Jun 30, 2015, 00:00 AM

Energy Management Gateway for Buildings (EMG4B) aims at designing a framework capable of hosting energy related services for buildings.

The project is inspired from the smartphone eco-system, as summarized below:

  • Applications are decoupled from the underlying platform; applications can be added or removed at any time.
  • Standard abstract models and software interfaces allow applications to access the platform’s peripheral resources (heat-pump, photovoltaic inverter, boiler, …) in a uniform way.

 

axes:
  • Software-oriented Heterogeneous Device Support
domaines-d-application:
  • Energy
Tags: