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---- ----
---- Copyright Notice ----
---- ----
---- This file is part of YAC - Yet Another CORDIC Core ----
---- Copyright (c) 2014, Author(s), All rights reserved. ----
---- ----
---- YAC is free software; you can redistribute it and/or ----
---- modify it under the terms of the GNU Lesser General Public ----
---- License as published by the Free Software Foundation; either ----
---- version 3.0 of the License, or (at your option) any later version. ----
---- ----
---- YAC is distributed in the hope that it will be useful, ----
---- but WITHOUT ANY WARRANTY; without even the implied warranty of ----
---- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ----
---- Lesser General Public License for more details. ----
---- ----
---- You should have received a copy of the GNU Lesser General Public ----
---- License along with this library. If not, download it from ----
---- http://www.gnu.org/licenses/lgpl ----
---- ----
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Author(s): Christian Haettich
Email feddischson@opencores.org
Description
------------------
CORDIC is the acronym for COordinate Rotation DIgital Computer and
allows a hardware efficient calculation of various functions
like - atan, sin, cos - atanh, sinh, cosh, - division, multiplication.
Hardware efficient means, that only shifting, additions and
subtractions in combination with table-lookup is required. This makes
it suitable for a realization in digital hardware. Good
introductions can be found in [1][2][3][5].
The following six CORDIC modes are supported:
- trigonometric rotation
- trigonometric vectoring
- linear rotation
- linear vectoring
- hyperbolic rotation
- hyperbolic vectoring
Furthermore, the CORDIC algorithm is implemented for iterative
processing which means, that the IP-core is started
with a set of input data and after a specific amount of
clock cycles, the result is
available. No parallel data can be processed.
In addition to an IP-core written in VHDL, a bit-accurate C-model
is provided. This C-model can be compiled as mex for a usage with Octave or
Matlab. Therefore, this C-model allows a bit-accurate analysis
of the CORDIC performance on a higher level.
For a more detailed documentation, see ./doc/documentation.pdf
Status
----------------------
- C-model implementation is done
- RTL model implementation is done
- RTL model is verified against C-model
- Wishbone-bus wrapper is added
- included into a small SoC, tested on a spartan-3 FPGA
Next-Steps
-----------------------
- Circuit optimizations
- Numerical optimizations
- Further testing within an SOC
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Files and folders:
------------------
./c_octave : contains a bit-accurate C-implementation of the YAC.
This C-implementation is used for analyzing the performance
and to generate RTL testbench stimulus
(cordic_iterative_test.m).
The file cordic_iterative_code.m is used to create some
VHDL/C-code automatically.
./rtl/vhdl : Contains the VHDL implementation files
./doc : Will contain a detailed documentation in future.
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[1] Andraka, Ray; A survey of CORDIC algorithms for FPGA based computers, 1989
[2] Hu, Yu Hen; CORDIC-Based VLSI Architectures for Digital Signal Processing, 1992
[3] CORDIC on wikibook: http://en.wikibooks.org/wiki/Digital_Circuits/CORDIC
[4] CORDIC on wikipedia:http://en.wikipedia.org/wiki/CORDIC
[5] David, Herbert; Meyr, Heinricht; CORDIC Algorithms and Architectures
http://www.eecs.berkeley.edu/newton/Classes/EE290sp99/lectures/ee290aSp996_1/cordic_chap24.pdf
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>>>>>>> initial commit
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>>>>>>> Updated C and RTL model as well as the documentation
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