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https://github.com/openhwgroup/cvw
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Fixed formatting
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Harshini Srinath
GitHub
parent
2846a2f567
commit
70599d3153
@ -27,16 +27,16 @@
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////////////////////////////////////////////////////////////////////////////////////////////////
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module cvtshiftcalc import cvw::*; #(parameter cvw_t P) (
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input logic XZero, // is the input zero?
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input logic ToInt, // to integer conversion?
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input logic IntToFp, // interger to floating point conversion?
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input logic XZero, // is the input zero?
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input logic ToInt, // to integer conversion?
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input logic IntToFp, // interger to floating point conversion?
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input logic [P.FMTBITS-1:0] OutFmt, // output format
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input logic [P.NE:0] CvtCe, // the calculated expoent
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input logic [P.NF:0] Xm, // input mantissas
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input logic [P.CVTLEN-1:0] CvtLzcIn, // input to the Leading Zero Counter (without msb)
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input logic CvtResSubnormUf, // is the conversion result subnormal or underlows
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output logic CvtResUf, // does the cvt result unerflow
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output logic [P.CVTLEN+P.NF:0] CvtShiftIn // number to be shifted
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input logic CvtResSubnormUf, // is the conversion result subnormal or underlows
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output logic CvtResUf, // does the cvt result unerflow
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output logic [P.CVTLEN+P.NF:0] CvtShiftIn // number to be shifted
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);
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logic [$clog2(P.NF):0] ResNegNF; // the result's fraction length negated (-NF)
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@ -47,7 +47,7 @@ module cvtshiftcalc import cvw::*; #(parameter cvw_t P) (
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// seclect the input to the shifter
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// fp -> int:
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// | P.XLEN zeros | mantissa | 0's if nessisary |
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// | P.XLEN zeros | mantissa | 0's if necessary |
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// .
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// Other problems:
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// - if shifting to the right (neg CalcExp) then don't a 1 in the round bit (to prevent an incorrect plus 1 later durring rounding)
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@ -58,16 +58,16 @@ module cvtshiftcalc import cvw::*; #(parameter cvw_t P) (
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// | P.NF-1 zeros | mantissa | 0's if nessisary |
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// .
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// - otherwise:
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// | LzcInM | 0's if nessisary |
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// | LzcInM | 0's if necessary |
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// .
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// change to int shift to the left one
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always_comb
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// get rid of round bit if needed
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// | add sticky bit if needed
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// | |
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if (ToInt) CvtShiftIn = {{P.XLEN{1'b0}}, Xm[P.NF]&~CvtCe[P.NE], Xm[P.NF-1]|(CvtCe[P.NE]&Xm[P.NF]), Xm[P.NF-2:0], {P.CVTLEN-P.XLEN{1'b0}}};
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if (ToInt) CvtShiftIn = {{P.XLEN{1'b0}}, Xm[P.NF]&~CvtCe[P.NE], Xm[P.NF-1]|(CvtCe[P.NE]&Xm[P.NF]), Xm[P.NF-2:0], {P.CVTLEN-P.XLEN{1'b0}}};
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else if (CvtResSubnormUf) CvtShiftIn = {{P.NF-1{1'b0}}, Xm, {P.CVTLEN-P.NF+1{1'b0}}};
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else CvtShiftIn = {CvtLzcIn, {P.NF+1{1'b0}}};
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else CvtShiftIn = {CvtLzcIn, {P.NF+1{1'b0}}};
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// choose the negative of the fraction size
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if (P.FPSIZES == 1) begin
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@ -79,9 +79,9 @@ module cvtshiftcalc import cvw::*; #(parameter cvw_t P) (
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end else if (P.FPSIZES == 3) begin
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always_comb
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case (OutFmt)
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P.FMT: ResNegNF = -($clog2(P.NF)+1)'(P.NF);
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P.FMT1: ResNegNF = -($clog2(P.NF)+1)'(P.NF1);
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P.FMT2: ResNegNF = -($clog2(P.NF)+1)'(P.NF2);
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P.FMT: ResNegNF = -($clog2(P.NF)+1)'(P.NF);
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P.FMT1: ResNegNF = -($clog2(P.NF)+1)'(P.NF1);
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P.FMT2: ResNegNF = -($clog2(P.NF)+1)'(P.NF2);
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default: ResNegNF = 'x;
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endcase
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@ -95,8 +95,6 @@ module cvtshiftcalc import cvw::*; #(parameter cvw_t P) (
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endcase
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end
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// determine if the result underflows ??? -> fp
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// - if the first 1 is shifted out of the result then the result underflows
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// - can't underflow an integer to fp conversions
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