Line 297... |
Line 297... |
////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////
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//
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//
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// Normalize Result
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// Normalize Result
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//
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//
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wire ine_d;
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wire ine_d;
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wire [47:0] fract_denorm, fract_div;
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reg [47:0] fract_denorm;
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wire [47:0] fract_div;
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wire sign_d;
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wire sign_d;
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reg sign;
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reg sign;
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reg [30:0] opa_r1;
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reg [47:0] fract_i2f;
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reg opas_r1, opas_r2;
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wire f2i_out_sign;
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always @(posedge clk) // Exponent must be once cycle delayed
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always @(posedge clk) // Exponent must be once cycle delayed
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exp_r <= #1 fpu_op_r2[1] ? exp_mul : exp_fasu;
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case(fpu_op_r2)
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0,1: exp_r <= #1 exp_fasu;
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2,3: exp_r <= #1 exp_mul;
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4: exp_r <= #1 0;
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5: exp_r <= #1 opa_r1[30:23];
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endcase
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assign fract_div = (opb_dn ? quo[49:2] : {quo[26:0], 21'h0});
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assign fract_div = (opb_dn ? quo[49:2] : {quo[26:0], 21'h0});
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assign fract_denorm = !fpu_op_r3[1] ? {fract_out_q, 20'h0}:
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always @(posedge clk)
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fpu_op_r3[0] ? fract_div : prod;
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opa_r1 <= #1 opa_r[30:0];
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always @(posedge clk)
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fract_i2f <= #1 (fpu_op_r2==5) ?
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(sign_d ? 1-{24'h00, (|opa_r1[30:23]), opa_r1[22:0]}-1 : {24'h0, (|opa_r1[30:23]), opa_r1[22:0]}) :
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(sign_d ? 1 - {opa_r1, 17'h01} : {opa_r1, 17'h0});
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always @(fpu_op_r3 or fract_out_q or prod or fract_div or fract_i2f)
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case(fpu_op_r3)
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0,1: fract_denorm = {fract_out_q, 20'h0};
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2: fract_denorm = prod;
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3: fract_denorm = fract_div;
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4,5: fract_denorm = fract_i2f;
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endcase
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always @(posedge clk)
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opas_r1 <= #1 opa_r[31];
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always @(posedge clk)
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opas_r2 <= #1 opas_r1;
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assign sign_d = fpu_op_r2[1] ? sign_mul : sign_fasu;
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assign sign_d = fpu_op_r2[1] ? sign_mul : sign_fasu;
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always @(posedge clk)
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always @(posedge clk)
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sign <= #1 (rmode_r2==2'h3) ? !sign_d : sign_d;
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sign <= #1 (rmode_r2==2'h3) ? !sign_d : sign_d;
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post_norm u4(.clk(clk), // System Clock
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post_norm u4(.clk(clk), // System Clock
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.fpu_op(fpu_op_r3), // Floating Point Operation
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.fpu_op(fpu_op_r3), // Floating Point Operation
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.opas(opas_r2), // OPA Sign
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.sign(sign), // Sign of the result
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.sign(sign), // Sign of the result
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.rmode(rmode_r3), // Rounding mode
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.rmode(rmode_r3), // Rounding mode
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.fract_in(fract_denorm), // Fraction Input
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.fract_in(fract_denorm), // Fraction Input
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.exp_ovf(exp_ovf_r), // Exponent Overflow
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.exp_ovf(exp_ovf_r), // Exponent Overflow
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.exp_in(exp_r), // Exponent Input
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.exp_in(exp_r), // Exponent Input
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Line 329... |
Line 360... |
.div_opa_ldz(div_opa_ldz_r2), // Divide opa leading zeros count
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.div_opa_ldz(div_opa_ldz_r2), // Divide opa leading zeros count
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.output_zero(mul_00 | div_00), // Force output to Zero
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.output_zero(mul_00 | div_00), // Force output to Zero
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.out(out_d), // Normalized output (un-registered)
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.out(out_d), // Normalized output (un-registered)
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.ine(ine_d), // Result Inexact output (un-registered)
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.ine(ine_d), // Result Inexact output (un-registered)
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.overflow(overflow_d), // Overflow output (un-registered)
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.overflow(overflow_d), // Overflow output (un-registered)
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.underflow(underflow_d) // Underflow output (un-registered)
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.underflow(underflow_d), // Underflow output (un-registered)
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.f2i_out_sign(f2i_out_sign) // F2I Output Sign
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);
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);
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////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////
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//
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//
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// FPU Outputs
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// FPU Outputs
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Line 380... |
Line 412... |
((fpu_op_r3==3'b011) & opb_00 & opa_00) |
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((fpu_op_r3==3'b011) & opb_00 & opa_00) |
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(((opa_inf & opb_00) | (opb_inf & opa_00 )) & fpu_op_r3==3'b010)
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(((opa_inf & opb_00) | (opb_inf & opa_00 )) & fpu_op_r3==3'b010)
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) ? QNAN : INF;
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) ? QNAN : INF;
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always @(posedge clk)
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always @(posedge clk)
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out[30:0] <= #1 (mul_inf | div_inf | (inf_d & (fpu_op_r3!=3'b011)) | snan_d | qnan_d) ? out_fixed :
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out[30:0] <= #1 (mul_inf | div_inf | (inf_d & (fpu_op_r3!=3'b011) & (fpu_op_r3!=3'b101)) | snan_d | qnan_d) & fpu_op_r3!=3'b100 ? out_fixed :
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out_d;
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out_d;
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assign out_d_00 = !(|out_d);
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assign out_d_00 = !(|out_d);
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assign sign_mul_final = (sign_exe_r & ((opa_00 & opb_inf) | (opb_00 & opa_inf))) ? !sign_mul_r : sign_mul_r;
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assign sign_mul_final = (sign_exe_r & ((opa_00 & opb_inf) | (opb_00 & opa_inf))) ? !sign_mul_r : sign_mul_r;
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assign sign_div_final = (sign_exe_r & (opa_inf & opb_inf)) ? !sign_mul_r : sign_mul_r | (opa_00 & opb_00);
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assign sign_div_final = (sign_exe_r & (opa_inf & opb_inf)) ? !sign_mul_r : sign_mul_r | (opa_00 & opb_00);
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always @(posedge clk)
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always @(posedge clk)
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out[31] <= #1 ((fpu_op_r3==3'b010) & !(snan_d | qnan_d)) ? sign_mul_final :
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out[31] <= #1 ((fpu_op_r3==3'b101) & out_d_00) ? (f2i_out_sign & !(qnan_d | snan_d) ) :
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((fpu_op_r3==3'b010) & !(snan_d | qnan_d)) ? sign_mul_final :
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((fpu_op_r3==3'b011) & !(snan_d | qnan_d)) ? sign_div_final :
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((fpu_op_r3==3'b011) & !(snan_d | qnan_d)) ? sign_div_final :
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(snan_d | qnan_d | ind_d) ? nan_sign_d :
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(snan_d | qnan_d | ind_d) ? nan_sign_d :
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output_zero_fasu ? result_zero_sign_d :
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output_zero_fasu ? result_zero_sign_d :
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sign_fasu_r;
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sign_fasu_r;
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Line 405... |
Line 438... |
!opa_00 & !opb_00 & !(snan_d | qnan_d | inf_d);
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!opa_00 & !opb_00 & !(snan_d | qnan_d | inf_d);
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assign ine_div = (ine_d | overflow_d | underflow_d) & !(opb_00 | snan_d | qnan_d | inf_d);
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assign ine_div = (ine_d | overflow_d | underflow_d) & !(opb_00 | snan_d | qnan_d | inf_d);
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assign ine_fasu = (ine_d | overflow_d | underflow_d) & !(snan_d | qnan_d | inf_d);
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assign ine_fasu = (ine_d | overflow_d | underflow_d) & !(snan_d | qnan_d | inf_d);
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always @(posedge clk)
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always @(posedge clk)
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ine <= #1 !fpu_op_r3[1] ? ine_fasu :
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ine <= #1 fpu_op_r3[2] ? ine_d :
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!fpu_op_r3[1] ? ine_fasu :
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fpu_op_r3[0] ? ine_div : ine_mul;
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fpu_op_r3[0] ? ine_div : ine_mul;
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assign overflow_fasu = overflow_d & !(snan_d | qnan_d | inf_d);
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assign overflow_fasu = overflow_d & !(snan_d | qnan_d | inf_d);
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assign overflow_fmul = !inf_d & (inf_mul_r | inf_mul2 | overflow_d) & !(snan_d | qnan_d);
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assign overflow_fmul = !inf_d & (inf_mul_r | inf_mul2 | overflow_d) & !(snan_d | qnan_d);
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assign overflow_fdiv = (overflow_d & !(opb_00 | inf_d | snan_d | qnan_d));
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assign overflow_fdiv = (overflow_d & !(opb_00 | inf_d | snan_d | qnan_d));
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always @(posedge clk)
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always @(posedge clk)
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overflow <= #1 !fpu_op_r3[1] ? overflow_fasu :
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overflow <= #1 fpu_op_r3[2] ? 0 :
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!fpu_op_r3[1] ? overflow_fasu :
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fpu_op_r3[0] ? overflow_fdiv : overflow_fmul;
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fpu_op_r3[0] ? overflow_fdiv : overflow_fmul;
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always @(posedge clk)
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always @(posedge clk)
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underflow_fmul_r <= #1 underflow_fmul_d;
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underflow_fmul_r <= #1 underflow_fmul_d;
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Line 431... |
Line 466... |
assign underflow_fasu = underflow_d & !(inf_d | snan_d | qnan_d);
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assign underflow_fasu = underflow_d & !(inf_d | snan_d | qnan_d);
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assign underflow_fmul = underflow_fmul1 & !(snan_d | qnan_d | inf_mul_r);
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assign underflow_fmul = underflow_fmul1 & !(snan_d | qnan_d | inf_mul_r);
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assign underflow_fdiv = underflow_fasu & !opb_00;
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assign underflow_fdiv = underflow_fasu & !opb_00;
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always @(posedge clk)
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always @(posedge clk)
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underflow <= #1 !fpu_op_r3[1] ? underflow_fasu :
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underflow <= #1 fpu_op_r3[2] ? 0 :
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!fpu_op_r3[1] ? underflow_fasu :
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fpu_op_r3[0] ? underflow_fdiv : underflow_fmul;
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fpu_op_r3[0] ? underflow_fdiv : underflow_fmul;
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always @(posedge clk)
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always @(posedge clk)
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snan <= #1 snan_d;
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snan <= #1 snan_d;
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Line 479... |
Line 515... |
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// Status Outputs
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// Status Outputs
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always @(posedge clk)
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always @(posedge clk)
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qnan <= #1 snan_d | qnan_d | (ind_d & !fasu_op_r2) |
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qnan <= #1 fpu_op_r3[2] ? 0 : (
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snan_d | qnan_d | (ind_d & !fasu_op_r2) |
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(opa_00 & opb_00 & fpu_op_r3==3'b011) |
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(opa_00 & opb_00 & fpu_op_r3==3'b011) |
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(((opa_inf & opb_00) | (opb_inf & opa_00 )) & fpu_op_r3==3'b010);
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(((opa_inf & opb_00) | (opb_inf & opa_00 )) & fpu_op_r3==3'b010)
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);
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assign inf_fmul = (((inf_mul_r | inf_mul2) & (rmode_r3==2'h0)) | opa_inf | opb_inf) &
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assign inf_fmul = (((inf_mul_r | inf_mul2) & (rmode_r3==2'h0)) | opa_inf | opb_inf) &
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!((opa_inf & opb_00) | (opb_inf & opa_00 )) &
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!((opa_inf & opb_00) | (opb_inf & opa_00 )) &
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fpu_op_r3==3'b010;
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fpu_op_r3==3'b010;
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always @(posedge clk)
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always @(posedge clk)
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inf <= #1 !(qnan_d | snan_d) & (
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inf <= #1 fpu_op_r3[2] ? 0 :
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(!(qnan_d | snan_d) & (
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((&out_d[30:23]) & !(|out_d[22:0]) & !(opb_00 & fpu_op_r3==3'b011)) |
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((&out_d[30:23]) & !(|out_d[22:0]) & !(opb_00 & fpu_op_r3==3'b011)) |
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(inf_d & !(ind_d & !fasu_op_r2) & !fpu_op_r3[1]) |
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(inf_d & !(ind_d & !fasu_op_r2) & !fpu_op_r3[1]) |
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inf_fmul |
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inf_fmul |
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(!opa_00 & opb_00 & fpu_op_r3==3'b011) |
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(!opa_00 & opb_00 & fpu_op_r3==3'b011) |
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(fpu_op_r3==3'b011 & opa_inf & !opb_inf)
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(fpu_op_r3==3'b011 & opa_inf & !opb_inf)
|
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)
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);
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);
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assign output_zero_fasu = out_d_00 & !(inf_d | snan_d | qnan_d);
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assign output_zero_fasu = out_d_00 & !(inf_d | snan_d | qnan_d);
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assign output_zero_fdiv = (div_00 | (out_d_00 & !opb_00)) & !(opa_inf & opb_inf) &
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assign output_zero_fdiv = (div_00 | (out_d_00 & !opb_00)) & !(opa_inf & opb_inf) &
|
!(opa_00 & opb_00) & !(qnan_d | snan_d);
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!(opa_00 & opb_00) & !(qnan_d | snan_d);
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assign output_zero_fmul = (out_d_00 | opa_00 | opb_00) &
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assign output_zero_fmul = (out_d_00 | opa_00 | opb_00) &
|
!(inf_mul_r | inf_mul2 | opa_inf | opb_inf | snan_d | qnan_d) &
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!(inf_mul_r | inf_mul2 | opa_inf | opb_inf | snan_d | qnan_d) &
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!(opa_inf & opb_00) & !(opb_inf & opa_00);
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!(opa_inf & opb_00) & !(opb_inf & opa_00);
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|
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always @(posedge clk)
|
always @(posedge clk)
|
zero <= #1 fpu_op_r3==3'b011 ? output_zero_fdiv :
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zero <= #1 fpu_op_r3==3'b101 ? out_d_00 & !(snan_d | qnan_d):
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fpu_op_r3==3'b011 ? output_zero_fdiv :
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fpu_op_r3==3'b010 ? output_zero_fmul :
|
fpu_op_r3==3'b010 ? output_zero_fmul :
|
output_zero_fasu ;
|
output_zero_fasu ;
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|
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always @(posedge clk)
|
always @(posedge clk)
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opa_nan_r <= #1 !opa_nan & fpu_op_r2==3'b011;
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opa_nan_r <= #1 !opa_nan & fpu_op_r2==3'b011;
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