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@ -1599,6 +1599,7 @@ begin
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end if;
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when ADD_SHIFT =>
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-- r.shift = - exponent difference
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opsel_r <= RES_SHIFT;
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v.x := s_nz;
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set_x := '1';
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@ -1619,6 +1620,7 @@ begin
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when ADD_3 =>
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-- check for overflow or negative result (can't get both)
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-- r.shift = -1
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if r.r(63) = '1' then
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-- result is opposite sign to expected
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v.result_sign := not r.result_sign;
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@ -1694,12 +1696,14 @@ begin
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when FMADD_2 =>
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-- Product is potentially bigger here
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-- r.shift = addend exp - product exp + 64
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set_s := '1';
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opsel_s <= S_SHIFT;
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v.shift := r.shift - to_signed(64, EXP_BITS);
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v.state := FMADD_3;
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when FMADD_3 =>
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-- r.shift = addend exp - product exp
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opsel_r <= RES_SHIFT;
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v.first := '1';
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v.state := FMADD_4;
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@ -1731,6 +1735,7 @@ begin
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v.state := FMADD_6;
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when FMADD_6 =>
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-- r.shift = 56 (or 0, but only if r is now nonzero)
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if (r.r(56) or r_hi_nz or r_lo_nz or r.r(1) or r.r(0)) = '0' then
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if s_nz = '0' then
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-- must be a subtraction, and r.x must be zero
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@ -1877,6 +1882,7 @@ begin
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when SQRT_2 =>
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-- shift R right one place
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-- not expecting multiplier result yet
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-- r.shift = -1
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opsel_r <= RES_SHIFT;
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v.first := '1';
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v.state := SQRT_3;
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@ -2012,12 +2018,14 @@ begin
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v.state := FINISH;
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when INT_SHIFT =>
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-- r.shift = b.exponent - 52
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opsel_r <= RES_SHIFT;
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set_x := '1';
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v.state := INT_ROUND;
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v.shift := to_signed(-2, EXP_BITS);
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when INT_ROUND =>
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-- r.shift = -2
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opsel_r <= RES_SHIFT;
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round := fp_rounding(r.r, r.x, '0', r.round_mode, r.result_sign);
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v.fpscr(FPSCR_FR downto FPSCR_FI) := round;
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@ -2030,6 +2038,7 @@ begin
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end if;
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when INT_ISHIFT =>
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-- r.shift = b.exponent - 54;
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opsel_r <= RES_SHIFT;
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v.state := INT_FINAL;
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@ -2087,6 +2096,7 @@ begin
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arith_done := '1';
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when FRI_1 =>
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-- r.shift = b.exponent - 52
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opsel_r <= RES_SHIFT;
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set_x := '1';
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v.shift := to_signed(-2, EXP_BITS);
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@ -2114,6 +2124,7 @@ begin
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when NORMALIZE =>
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-- Shift so we have 9 leading zeroes (we know R is non-zero)
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-- r.shift = clz(r.r) - 9
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opsel_r <= RES_SHIFT;
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set_x := '1';
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if exp_tiny = '1' then
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@ -2127,6 +2138,7 @@ begin
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end if;
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when ROUND_UFLOW =>
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-- r.shift = - amount by which exponent underflows
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v.tiny := '1';
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if r.fpscr(FPSCR_UE) = '0' then
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-- disabled underflow exception case
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@ -2204,6 +2216,7 @@ begin
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when ROUNDING_2 =>
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-- Check for overflow during rounding
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-- r.shift = -1
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v.x := '0';
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if r.r(55) = '1' then
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opsel_r <= RES_SHIFT;
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@ -2221,6 +2234,7 @@ begin
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end if;
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when ROUNDING_3 =>
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-- r.shift = clz(r.r) - 9
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mant_nz := r_hi_nz or (r_lo_nz and not r.single_prec);
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if mant_nz = '0' then
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v.result_class := ZERO;
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@ -2242,6 +2256,7 @@ begin
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end if;
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when DENORM =>
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-- r.shift = result_exp - -1022
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opsel_r <= RES_SHIFT;
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arith_done := '1';
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