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SEm-Labos/zz-solutions/02-SplineInterpolator/SplineInterpolator/hdl/sinegen_struct.vhg
2024-03-15 15:03:34 +01:00

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--
-- VHDL Architecture SplineInterpolator.sineGen.struct
--
-- Created:
-- by - axel.amand.UNKNOWN (WE7860)
-- at - 14:42:04 28.04.2023
--
-- Generated by Mentor Graphics' HDL Designer(TM) 2019.2 (Build 5)
--
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.numeric_std.all;
LIBRARY SplineInterpolator;
LIBRARY WaveformGenerator;
ARCHITECTURE struct OF sineGen IS
-- Architecture declarations
constant tableAddressBitNb : positive := 3;
constant sampleCountBitNb : positive := phaseBitNb-2-tableAddressBitNb;
constant coeffBitNb : positive := signalBitNb+4;
-- Internal signal declarations
SIGNAL a : signed(coeffBitNb-1 DOWNTO 0);
SIGNAL b : signed(coeffBitNb-1 DOWNTO 0);
SIGNAL c : signed(coeffBitNb-1 DOWNTO 0);
SIGNAL d : signed(coeffBitNb-1 DOWNTO 0);
SIGNAL logic0 : std_ulogic;
SIGNAL logic1 : std_ulogic;
SIGNAL newPolynom : std_ulogic;
SIGNAL phase : unsigned(phaseBitNb-1 DOWNTO 0);
SIGNAL sample1 : signed(signalBitNb-1 DOWNTO 0);
SIGNAL sample2 : signed(signalBitNb-1 DOWNTO 0);
SIGNAL sample3 : signed(signalBitNb-1 DOWNTO 0);
SIGNAL sample4 : signed(signalBitNb-1 DOWNTO 0);
SIGNAL sineSamples : signed(signalBitNb-1 DOWNTO 0);
SIGNAL sineSigned : signed(signalBitNb-1 DOWNTO 0);
-- Implicit buffer signal declarations
SIGNAL sawtooth_internal : unsigned (signalBitNb-1 DOWNTO 0);
-- Component Declarations
COMPONENT interpolatorCalculatePolynom
GENERIC (
signalBitNb : positive := 16;
coeffBitNb : positive := 16;
oversamplingBitNb : positive := 8
);
PORT (
clock : IN std_ulogic ;
reset : IN std_ulogic ;
restartPolynom : IN std_ulogic ;
d : IN signed (coeffBitNb-1 DOWNTO 0);
sampleOut : OUT signed (signalBitNb-1 DOWNTO 0);
c : IN signed (coeffBitNb-1 DOWNTO 0);
b : IN signed (coeffBitNb-1 DOWNTO 0);
a : IN signed (coeffBitNb-1 DOWNTO 0);
en : IN std_ulogic
);
END COMPONENT;
COMPONENT interpolatorCoefficients
GENERIC (
bitNb : positive := 16;
coeffBitNb : positive := 16
);
PORT (
sample1 : IN signed (bitNb-1 DOWNTO 0);
sample2 : IN signed (bitNb-1 DOWNTO 0);
sample3 : IN signed (bitNb-1 DOWNTO 0);
sample4 : IN signed (bitNb-1 DOWNTO 0);
a : OUT signed (coeffBitNb-1 DOWNTO 0);
b : OUT signed (coeffBitNb-1 DOWNTO 0);
c : OUT signed (coeffBitNb-1 DOWNTO 0);
d : OUT signed (coeffBitNb-1 DOWNTO 0);
interpolateLinear : IN std_ulogic
);
END COMPONENT;
COMPONENT interpolatorShiftRegister
GENERIC (
signalBitNb : positive := 16
);
PORT (
clock : IN std_ulogic ;
reset : IN std_ulogic ;
shiftSamples : IN std_ulogic ;
sampleIn : IN signed (signalBitNb-1 DOWNTO 0);
sample1 : OUT signed (signalBitNb-1 DOWNTO 0);
sample2 : OUT signed (signalBitNb-1 DOWNTO 0);
sample3 : OUT signed (signalBitNb-1 DOWNTO 0);
sample4 : OUT signed (signalBitNb-1 DOWNTO 0)
);
END COMPONENT;
COMPONENT interpolatorTrigger
GENERIC (
counterBitNb : positive := 4
);
PORT (
triggerOut : OUT std_ulogic ;
clock : IN std_ulogic ;
reset : IN std_ulogic ;
en : IN std_ulogic
);
END COMPONENT;
COMPONENT offsetToUnsigned
GENERIC (
bitNb : positive := 16
);
PORT (
unsignedOut : OUT unsigned (bitNb-1 DOWNTO 0);
signedIn : IN signed (bitNb-1 DOWNTO 0)
);
END COMPONENT;
COMPONENT resizer
GENERIC (
inputBitNb : positive := 16;
outputBitNb : positive := 16
);
PORT (
resizeOut : OUT unsigned (outputBitNb-1 DOWNTO 0);
resizeIn : IN unsigned (inputBitNb-1 DOWNTO 0)
);
END COMPONENT;
COMPONENT sineTable
GENERIC (
inputBitNb : positive := 16;
outputBitNb : positive := 16;
tableAddressBitNb : positive := 3
);
PORT (
sine : OUT signed (outputBitNb-1 DOWNTO 0);
phase : IN unsigned (inputBitNb-1 DOWNTO 0)
);
END COMPONENT;
COMPONENT sawtoothGen
GENERIC (
bitNb : positive := 16
);
PORT (
sawtooth : OUT unsigned (bitNb-1 DOWNTO 0);
clock : IN std_ulogic ;
reset : IN std_ulogic ;
step : IN unsigned (bitNb-1 DOWNTO 0);
en : IN std_ulogic
);
END COMPONENT;
COMPONENT sawtoothToSquare
GENERIC (
bitNb : positive := 16
);
PORT (
square : OUT unsigned (bitNb-1 DOWNTO 0);
sawtooth : IN unsigned (bitNb-1 DOWNTO 0)
);
END COMPONENT;
COMPONENT sawtoothToTriangle
GENERIC (
bitNb : positive := 16
);
PORT (
triangle : OUT unsigned (bitNb-1 DOWNTO 0);
sawtooth : IN unsigned (bitNb-1 DOWNTO 0)
);
END COMPONENT;
-- Optional embedded configurations
-- pragma synthesis_off
FOR ALL : interpolatorCalculatePolynom USE ENTITY SplineInterpolator.interpolatorCalculatePolynom;
FOR ALL : interpolatorCoefficients USE ENTITY SplineInterpolator.interpolatorCoefficients;
FOR ALL : interpolatorShiftRegister USE ENTITY SplineInterpolator.interpolatorShiftRegister;
FOR ALL : interpolatorTrigger USE ENTITY SplineInterpolator.interpolatorTrigger;
FOR ALL : offsetToUnsigned USE ENTITY SplineInterpolator.offsetToUnsigned;
FOR ALL : resizer USE ENTITY SplineInterpolator.resizer;
FOR ALL : sawtoothGen USE ENTITY WaveformGenerator.sawtoothGen;
FOR ALL : sawtoothToSquare USE ENTITY WaveformGenerator.sawtoothToSquare;
FOR ALL : sawtoothToTriangle USE ENTITY WaveformGenerator.sawtoothToTriangle;
FOR ALL : sineTable USE ENTITY SplineInterpolator.sineTable;
-- pragma synthesis_on
BEGIN
-- Architecture concurrent statements
-- HDL Embedded Text Block 2 eb2
logic1 <= '1';
-- HDL Embedded Text Block 3 eb3
logic0 <= '0';
-- Instance port mappings.
I_spline : interpolatorCalculatePolynom
GENERIC MAP (
signalBitNb => signalBitNb,
coeffBitNb => coeffBitNb,
oversamplingBitNb => sampleCountBitNb
)
PORT MAP (
clock => clock,
reset => reset,
restartPolynom => newPolynom,
d => d,
sampleOut => sineSigned,
c => c,
b => b,
a => a,
en => logic1
);
I_coeffs : interpolatorCoefficients
GENERIC MAP (
bitNb => signalBitNb,
coeffBitNb => coeffBitNb
)
PORT MAP (
sample1 => sample1,
sample2 => sample2,
sample3 => sample3,
sample4 => sample4,
a => a,
b => b,
c => c,
d => d,
interpolateLinear => logic0
);
I_shReg : interpolatorShiftRegister
GENERIC MAP (
signalBitNb => signalBitNb
)
PORT MAP (
clock => clock,
reset => reset,
shiftSamples => newPolynom,
sampleIn => sineSamples,
sample1 => sample1,
sample2 => sample2,
sample3 => sample3,
sample4 => sample4
);
I_trig : interpolatorTrigger
GENERIC MAP (
counterBitNb => sampleCountBitNb
)
PORT MAP (
triggerOut => newPolynom,
clock => clock,
reset => reset,
en => logic1
);
I_unsigned : offsetToUnsigned
GENERIC MAP (
bitNb => signalBitNb
)
PORT MAP (
unsignedOut => sine,
signedIn => sineSigned
);
I_size : resizer
GENERIC MAP (
inputBitNb => phaseBitNb,
outputBitNb => signalBitNb
)
PORT MAP (
resizeOut => sawtooth_internal,
resizeIn => phase
);
I_sin : sineTable
GENERIC MAP (
inputBitNb => phaseBitNb,
outputBitNb => signalBitNb,
tableAddressBitNb => tableAddressBitNb
)
PORT MAP (
sine => sineSamples,
phase => phase
);
I_saw : sawtoothGen
GENERIC MAP (
bitNb => phaseBitNb
)
PORT MAP (
sawtooth => phase,
clock => clock,
reset => reset,
step => step,
en => logic1
);
I_square : sawtoothToSquare
GENERIC MAP (
bitNb => signalBitNb
)
PORT MAP (
square => square,
sawtooth => sawtooth_internal
);
I_tri : sawtoothToTriangle
GENERIC MAP (
bitNb => signalBitNb
)
PORT MAP (
triangle => triangle,
sawtooth => sawtooth_internal
);
-- Implicit buffered output assignments
sawtooth <= sawtooth_internal;
END struct;