| |
| |
|
Utilization of the HSLA toolbox for the FPGA prototyping
Pohl, Zdeněk ; Líčko, M.
An innovative design-flow for DSP algorithms usign high-speed logarithmic arithmetic (HSLA) toolbox is introduced on a demo RLS lattice application. Utilization of toolbox provides effective design time shortening and it makes designer work easier. Firstly, scripts in Matlab are written and checked. From working scripts, design is decomposed in Simulink to cycle-exact simulation and rewritten in Celoxica DK1 tool. Finally, hardware is targeted from DK1 and results are compared with simulations.
|
|
Extension for Xilinx System Generator - logarithmic arithmetic blockset
Líčko, Miroslav ; Métais, B. ; Tichý, Milan ; Matoušek, Rudolf
The paper introduces support of floating point(FP) data format for the Xilinx System Generator (XSG) using logarithmic arithmetic. This type of arithmetic seems to be one of the promising ways to solve FP sort of DSP problems in practice. Our 32-bit high-speed logarithmic arithmetic (HSLA) keeps the accuracy according to IEEE 754 and speed up some kinds of FP algorithms. Promising is 19-bit equivalent utilised int this paper. It offers reasonable precision for the practical use and has min.HW requirements.
|
| |
| |
| |
| |
| |
|
Utilization of Matlab for the logarithmic processor development
Líčko, Miroslav ; Matoušek, Rudolf ; Pohl, Zdeněk
Microprocessors are using the floating-point units for the real data type manipulation. Basic research has indicated, that the logaritmic number system can offer new possibilities of implementation for the algorithms, especially for algorithms widely using multiplication, division and square root operations. In this article there's a short summary of the development, evavaluation and demonstration with the utilization of Matlab.
|