`include "wally-config.vh" module divshiftcalc( input logic [`DIVLEN+2:0] Quot, input logic [`FMTBITS-1:0] Fmt, input logic [$clog2(`DIVLEN/2+3)-1:0] DivEarlyTermShiftDiv2, input logic [`NE+1:0] DivCalcExp, output logic [$clog2(`NORMSHIFTSZ)-1:0] DivShiftAmt, output logic [`NORMSHIFTSZ-1:0] DivShiftIn, output logic DivResDenorm, output logic [`NE+1:0] DivDenormShift ); logic [`NE+1:0] NormShift; // is the result denromalized // if the exponent is 1 then the result needs to be normalized then the result is denormalizes assign DivResDenorm = DivCalcExp[`NE+1]|(~|DivCalcExp[`NE+1:0]); // if the result is denormalized // 00000000x.xxxxxx... Exp = DivCalcExp // .00000000xxxxxxx... >> NF+1 Exp = DivCalcExp+NF+1 // .00xxxxxxxxxxxxx... << DivCalcExp+NF+1 Exp = +1 // .0000xxxxxxxxxxx... >> 1 Exp = 1 // Left shift amount = DivCalcExp+NF+1-1 assign DivDenormShift = (`NE+2)'(`NF)+DivCalcExp; // if the result is normalized // 00000000x.xxxxxx... Exp = DivCalcExp // .00000000xxxxxxx... >> NF+1 Exp = DivCalcExp+NF+1 // 00000000.xxxxxxx... << NF Exp = DivCalcExp+1 // 00000000x.xxxxxx... << NF Exp = DivCalcExp (extra shift done afterwards) // 00000000xx.xxxxx... << 1? Exp = DivCalcExp-1 (determined after) // inital Left shift amount = NF assign NormShift = (`NE+2)'(`NF); // if the shift amount is negitive then dont shift (keep sticky bit) assign DivShiftAmt = (DivResDenorm ? DivDenormShift[$clog2(`NORMSHIFTSZ)-1:0]&{$clog2(`NORMSHIFTSZ){~DivDenormShift[`NE+1]}} : NormShift[$clog2(`NORMSHIFTSZ)-1:0])+{{$clog2(`NORMSHIFTSZ)-$clog2(`DIVLEN/2+3)-1{1'b0}}, DivEarlyTermShiftDiv2&{$clog2(`DIVLEN/2+3){~DivDenormShift[`NE+1]}}, 1'b0}; // *** may be able to reduce shifter size assign DivShiftIn = {{`NF{1'b0}}, Quot[`DIVLEN+2:0], {`NORMSHIFTSZ-`DIVLEN-3-`NF{1'b0}}}; endmodule