ARCHITECTURE studentVersion OF interpolatorCalculatePolynom IS subtype sample_type is signed(coeffBitNb-1+oversamplingBitNb+10 DOWNTO 0); type order0 is array (0 to 0) of sample_type; type order1 is array (0 to 1) of sample_type; type order2 is array (0 to 2) of sample_type; type order3 is array (0 to 3) of sample_type; signal cA: order3; signal cB: order2; signal cC: order1; signal cD: order0; signal bufferSine: sample_type; BEGIN process(clock, reset) begin if reset = '1' then cA <= (others => (others => '0')); cB <= (others => (others => '0')); cC <= (others => (others => '0')); cD <= (others => (others => '0')); bufferSine <= (others => '0'); elsif rising_edge(clock) then if restartPolynom = '1' then cA(3) <= (others => '0'); cA(2) <= (others => '0'); cA(1) <= (others => '0'); cA(0) <= resize(a,sample_type'high+1); cB(2) <= (others => '0'); cB(1) <= (others => '0'); cB(0) <= resize(b,sample_type'high+1); cC(1) <= (others => '0'); cC(0) <= resize(c,sample_type'high+1); cD(0) <= resize(d,sample_type'high+1); else cC(1) <= cC(0) + cC(1); cB(2) <= cB(2) + resize(2*cB(1),sample_type'high+1) + cB(0); cB(1) <= resize(b,sample_type'high+1) + cB(1); cA(3) <= cA(3) + resize(3*cA(2),sample_type'high+1) + resize(3*cA(1),sample_type'high+1) + cA(0); cA(2) <= cA(2) + resize(2*cA(1),sample_type'high+1) + cA(0); cA(1) <= resize(A,sample_type'high+1) + cA(1); end if; bufferSine <= bufferSine + shift_right(cA(3)+cB(2)+cC(1)+cD(0),0); end if; end process; process(cA, cB, cC, cD) begin --bufferSine <= bufferSine + cA(3)+cB(2)+cC(1)+cD(0); end process; --sampleOut <= resize(shift_right(cA(3)+cB(2)+cC(1)+cD(0),oversamplingBitNb),signalBitNb); sampleOut <= resize(bufferSine,signalBitNb); END ARCHITECTURE studentVersion;