📄 bms_eras_str_half.tdf
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-------------------------------------------------------------------------
-------------------------------------------------------------------------
--
-- Revision Control Information
--
-- $Workfile: bms_eras_str_half.tdf $
-- $Archive: P:/RS_eras/units/Dec_str/ahdl/bms_eras_str_half.tdv $
--
-- $Revision: 1.6 $
-- $Date: 12 Aug 1999 13:08:22 $
-- $Author : Alejandro Diaz-Manero
--
-- Project : RS_eras
--
-- Description : Berlekamp-Massey algorithm for streaming RS decoder supporting
-- erasures and for half speed.
--
-- Copyright 1999 (c) Altera Corporation
-- All rights reserved
--
-------------------------------------------------------------------------
-------------------------------------------------------------------------
FUNCTION lpm_add_sub (cin, dataa[LPM_WIDTH-1..0], datab[LPM_WIDTH-1..0],
add_sub, clock, aclr)
RETURNS (result[LPM_WIDTH-1..0], cout, overflow);
FUNCTION lpm_counter (data[LPM_WIDTH-1..0], clock, clk_en, cnt_en, updown, aclr,
aset, aconst, aload, sclr, sset, sconst, sload)
RETURNS (q[LPM_WIDTH-1..0], eq[15..0]);
FUNCTION lpm_compare (dataa[LPM_WIDTH-1..0], datab[LPM_WIDTH-1..0], clock, aclr)
RETURNS (alb, aeb, agb, ageb, aneb, aleb);
FUNCTION gfmul (a[m..1], b[m..1])
RETURNS (c[m..1]);
FUNCTION gfdiv (a[m..1], d[m..1])
RETURNS (c[m..1]);
PARAMETERS
(
m = 4, -- GF size (2^m)
irrpol = 19, -- field polynomial
check = 4, -- number of check symbols (= # of syndromes)
inv_file = "inv_4_19.hex"
);
constant wide = ceil(log2(check+1));
constant nummult = ceil(check DIV 2);
constant odd = nummult > floor(check DIV 2) ? 1:0;
subdesign bms_eras_str_half
(
sysclk, reset, latchsyn, syn[check..1][m..1], num_eras[wide..1], eras_pos[check..1][m..1] : INPUT;
bdout[check..1][m..1], omegaout[check..1][m..1], numerr[wide..1], done : OUTPUT;
)
VARIABLE
synreg[check..1][m..1], bd[check..1][m..1], bdprev[check..1][m..1], bdtemp[check..1][m..1] : dffe;
one[m..1] : node;
sh_sel[check..1], omsel[check..1] : dffe;
erasleft[check..1][m..1], erasright[check..1][m..1] : node;
onereg : dffe;
onenode[m..1] : node;
deltaleft[check..1][m..1], deltaright[check..1][m..1] : node;
bdleft[check..1][m..1], bdright[check..1][m..1] : node;
mulleft[nummult..1][m..1], mulright[nummult..1][m..1], deltamult[m..1] : dffe;
mulout[nummult..1][m..1] : node;
mulsum[nummult..1][m..1], addvec[check..1][m..1] : node;
deltazero[m..1] : node;
predelta[m..1], delta[m..1], deltaprev[m..1] : dffe;
mcount, omegacount : lpm_counter WITH (LPM_WIDTH = wide);
llnuma[wide..1], llnumb[wide..1] : node;
llnum[wide..1], num_eras_q[wide..1] : dffe;
llnumnode[wide..1] : node;
mloop[wide..1], omegaloop[wide..1] : node;
mchk[wide..1], mcmp[wide..1], omegachk[wide..1], omegacmp[wide..1] : node;
init_syn[wide..1], eras_zero[wide..1] : node;
mloop_plus_eras_num[wide+1..1] : node;
omegaleft[check..1][m..1], omegaright[check..1][m..1] : node;
loadbdleft, loadbdright, loadbdprev, loadbdtemp, load_llnum, multmux : node; -- 1 - 4
shiftsynleft, shiftsynright, clearbd, shiftbdprev_ml, shiftbdprev_lm, shift_sh_sel : node; -- 6 - 9
deltacalc, newdelta, olddelta : node; -- 10 - 12
incm, tlm : node; -- 13
incomega, initomega, calcomega : node; -- 14 - 18
massdone : node; -- 19
add_sub1 : lpm_add_sub WITH (LPM_WIDTH = wide, LPM_DIRECTION = "SUB");
add_sub2, add_sub3 : lpm_add_sub WITH (LPM_WIDTH = wide, LPM_DIRECTION = "ADD");
add_sub4 : lpm_add_sub WITH (LPM_WIDTH = wide+1, LPM_DIRECTION = "ADD");
compare1 : lpm_compare WITH (LPM_WIDTH = wide+1);
mx : MACHINE OF BITS (mst[19..1])
WITH STATES
(s0 = B"0001000001000000000",
s1 = B"0001000001000010000", -- load syndromes, multmux
s1a = B"0001000001000010010", -- load bdright, multmux
s1b = B"0001000001000000000", -- keep selecting deltacalc calomega
s1c = B"1101001001000100001", -- shift syndrome as num erasures,
-- incm, load bdleft, shiftbdprev_ml, shift_sh_sel
s1d = B"0001000001000010000", -- multmux
s1e = B"0000000000000001000", -- load bdtemp
s2a = B"0000000000000000100", -- load bdprev not inc mloop
s2b = B"0000000011100000000", -- calc new delta = Sm + (series)B(j)*S(m-j), shiftbdprev_lm
s77a= B"0000000011000010000", -- 1 pipe stage to top of gfmuls, multmux
s77b= B"0000000011000010000", -- 1 pipe stage to top of gfmuls
s3 = B"0000000000000000000", -- if new delta <> 0, calc new BD
s4 = B"0000000000000001000", -- TD = BD, BD = BD - deltamult*(D^i)*BDprev
s5 = B"0000000000000010001", -- load first half BD , multmux
s5a = B"0000000000000010010", -- load second half BD, check 2L <= m?
s6 = B"0000000100000000100", -- L = m+1-L, i=1, BDprev = BDtemp, olddelta = delta, load llnum
s8 = B"0000001000000100000", -- inc mloop, shift synregs left
s10 = B"0001100000010001000", -- initialize omegaleft, loadbdtemp, clearbd
s11 = B"0001100000001010101", -- initialize omegaright, loadbdprev, shift synregs right
s12 = B"0001010000000000010", -- calc omegaleft, load omegaright, incomega
s13 = B"0101000000001010001", -- calc omegaright, load omegaleft, synshiftright, shiftbdprev_ml
s14 = B"0100000000000000000", -- last shiftbdprev_ml
s99 = B"0010000000000000000");
BEGIN
mcmp[] = check;
omegacmp[] = check-1;
one[] = 1;
--*********************
--*** STATE MACHINE ***
--*********************
mx.clk = sysclk;
mx.reset = GND;
CASE mx IS
WHEN s0 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s1;
END IF;
when S1 =>
if (reset == VCC) then
mx = S0;
elsif eras_zero[wide] == VCC then
mx = S1a;
else
mx = S2a;
end if;
WHEN s1a =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s1b;
END IF;
WHEN s1b =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s1c;
END IF;
WHEN s1c =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s1d;
END IF;
WHEN s1d =>
IF (reset == VCC) THEN
mx = s0;
ELSIF (init_syn[wide] == VCC) THEN
mx = s1a;
ELSE
mx = s1e;
END IF;
WHEN s1e =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s2a;
END IF;
WHEN s2a =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s2b;
END IF;
WHEN s2b =>
IF (reset == VCC) THEN
mx = s0;
ELSIF (mchk[wide] == VCC) THEN
mx = s77a;
ELSE
mx = s10;
END IF;
WHEN s77a =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s77b;
END IF;
WHEN s77b =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s3;
END IF;
WHEN s3 =>
IF (reset == VCC) THEN
mx = s0;
ELSIF (deltazero[m] == VCC) THEN
mx = s4;
ELSE
mx = s8;
END IF;
WHEN s4 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s5;
END IF;
WHEN s5 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s5a;
END IF;
WHEN s5a =>
IF (reset == VCC) THEN
mx = s0;
ELSIF (tlm == VCC) THEN
mx = s6;
ELSE
mx = s8;
END IF;
WHEN s6 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s8;
END IF;
WHEN s8 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s2b;
END IF;
WHEN s10 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s11;
END IF;
WHEN s11 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s12;
END IF;
WHEN s12 =>
IF (reset == VCC) THEN
mx = s0;
ELSIF (omegachk[wide] == VCC) THEN
mx = s13;
ELSE
mx = s14;
END IF;
WHEN s13 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s12;
END IF;
WHEN s14 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s99;
END IF;
WHEN s99 =>
IF (reset == VCC) THEN
mx = s0;
ELSE
mx = s99;
END IF;
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