cvw/wally-pipelined/src/fpu/cvtfp.sv


// `include "wally-config.vh"
module cvtfp (
    input logic [10:0] XExpE,
    input logic [52:0] XManE,
    input logic XSgnE,
    input logic XZeroE,
    input logic XDenormE,
    input logic XInfE,
    input logic XNaNE,
    input logic XSNaNE,
    input logic [2:0] FrmE,
    input logic FmtE,
    output logic [63:0] CvtFpResE,
    output logic [4:0] CvtFpFlgE);

    logic [7:0] DExp;
    logic [51:0] Frac;
    logic Denorm;


	logic [8:0]	i,NormCnt;
	always_comb begin
			i = 0;
			while (~XManE[52-i] && i <= 52) i = i+1;  // search for leading one 
			NormCnt = i;
	end


    logic [12:0] DExpCalc;
    // logic Overflow, Underflow;
    assign DExpCalc = (XExpE-1023+127)&{13{~XZeroE}};
    assign Denorm = $signed(DExpCalc) <= 0 & $signed(DExpCalc) > $signed(-23);

    logic [12:0] ShiftCnt;
	logic [51:0] SFrac;
	logic [25:0] DFrac;
	logic [77:0] DFracTmp,tmp, tmp2;
    //assign ShiftCnt = FmtE ? -DExpCalc&{13{Denorm}} : NormCnt;
    assign SFrac = XManE[51:0] << NormCnt;
logic Shift;
assign tmp = (-DExpCalc+1)&{13{Shift}};
assign tmp2 = {XManE, 23'b0};
assign Shift = {13{Denorm|(($signed(DExpCalc) > $signed(-25)) & DExpCalc[12])}};
	assign DFracTmp = {XManE, 25'b0} >> ((-DExpCalc+1)&{13{Shift}});
assign DFrac = DFracTmp[76:51];

    logic Sticky, UfSticky, Guard, Round, LSBFrac, UfGuard, UfRound, UfLSBFrac;
    logic CalcPlus1, UfCalcPlus1;
    logic Plus1, UfPlus1;
    // used to determine underflow flag
    assign UfSticky = |DFracTmp[50:0];
    assign UfGuard = DFrac[1];
    assign UfRound = DFrac[0];
    assign UfLSBFrac = DFrac[2];

    
    assign Sticky = UfSticky | UfRound;
    assign Guard = DFrac[2];
    assign Round = DFrac[1];
    assign LSBFrac = DFrac[3];


    always_comb begin
        // Determine if you add 1
        case (FrmE)
            3'b000: CalcPlus1 = Guard & (Round | (Sticky) | (~Round&~Sticky&LSBFrac));//round to nearest even
            3'b001: CalcPlus1 = 0;//round to zero
            3'b010: CalcPlus1 = XSgnE;//round down
            3'b011: CalcPlus1 = ~XSgnE;//round up
            3'b100: CalcPlus1 = (Guard & (Round | (Sticky) | (~Round&~Sticky)));//round to nearest max magnitude
            default: CalcPlus1 = 1'bx;
        endcase
        // Determine if you add 1 (for underflow flag)
        case (FrmE)
            3'b000: UfCalcPlus1 = UfGuard & (UfRound | UfSticky | (~UfRound&~UfSticky&UfLSBFrac));//round to nearest even
            3'b001: UfCalcPlus1 = 0;//round to zero
            3'b010: UfCalcPlus1 = XSgnE;//round down
            3'b011: UfCalcPlus1 = ~XSgnE;//round up
            3'b100: UfCalcPlus1 = (UfGuard & (UfRound | UfSticky | (~UfRound&~UfSticky)));//round to nearest max magnitude
            default: UfCalcPlus1 = 1'bx;
        endcase
   
    end

    // If an answer is exact don't round
    assign Plus1 = CalcPlus1 & (Sticky | UfGuard | Guard | Round);
    assign UfPlus1 = UfCalcPlus1 & (Sticky | UfGuard);
    logic [12:0] DExpFull;
logic [22:0] DResFrac;
logic [7:0] DResExp;
    assign {DExpFull, DResFrac} = {DExpCalc&{13{~Denorm}}, DFrac[25:3]} + Plus1;
    assign DResExp = DExpFull[7:0];

	logic [10:0] SExp;
	assign SExp = XExpE-(NormCnt&{8{~XZeroE}})+({11{XDenormE}}&1024-127);

    logic Overflow, Underflow, Inexact;
    assign Overflow = $signed(DExpFull) >= $signed({1'b0, {8{1'b1}}}) & ~(XNaNE|XInfE);
    assign Underflow = (($signed(DExpFull) <= 0) & ((Sticky|Guard|Round) | (XManE[52]&~|DFrac) | (|DFrac&~Denorm)) | ((DExpFull == 1) & Denorm & ~(UfPlus1&UfLSBFrac))) & ~(XNaNE|XInfE);
    assign Inexact = (Sticky|Guard|Round|Underflow|Overflow) &~(XNaNE);

logic [31:0] DRes;
    assign DRes = XNaNE ? {XSgnE, XExpE, 1'b1, XManE[50:29]} : 
			Underflow & ~Denorm ? {XSgnE, 30'b0, CalcPlus1&(|FrmE[1:0]|Shift)} : 
			    Overflow | XInfE ? ((FrmE[1:0]==2'b01) | (FrmE[1:0]==2'b10&~XSgnE) | (FrmE[1:0]==2'b11&XSgnE)) & ~XInfE ? {XSgnE, 8'hfe, {23{1'b1}}} :
                                                                                                                 {XSgnE, 8'hff, 23'b0} : 
			    {XSgnE, DResExp, DResFrac};
    assign CvtFpResE = FmtE ? {{32{1'b1}},DRes} : {XSgnE, SExp, SFrac[51]|XNaNE, SFrac[50:0]};
    assign CvtFpFlgE = FmtE ? {XSNaNE, 1'b0, Overflow, Underflow, Inexact} : {XSNaNE, 4'b0};

endmodule // fpadd
LZA added to FMA and attemting a merged FMA and adder in synthesis 2021-08-10 17:57:16 +00:00
			// `include "wally-config.vh"
			`module cvtfp (`
			`input logic [10:0] XExpE,`
			`input logic [52:0] XManE,`
			`input logic XSgnE,`
			`input logic XZeroE,`
			`input logic XDenormE,`
			`input logic XInfE,`
			`input logic XNaNE,`
			`input logic XSNaNE,`
			`input logic [2:0] FrmE,`
			`input logic FmtE,`
			`output logic [63:0] CvtFpResE,`
			`output logic [4:0] CvtFpFlgE);`

			`logic [7:0] DExp;`
			`logic [51:0] Frac;`
			`logic Denorm;`


			`logic [8:0] i,NormCnt;`
			`always_comb begin`
			`i = 0;`
			`while (~XManE[52-i] && i <= 52) i = i+1; // search for leading one`
			`NormCnt = i;`
			`end`








			`logic [12:0] DExpCalc;`
			`// logic Overflow, Underflow;`
			`assign DExpCalc = (XExpE-1023+127)&{13{~XZeroE}};`
			`assign Denorm = $signed(DExpCalc) <= 0 & $signed(DExpCalc) > $signed(-23);`

			`logic [12:0] ShiftCnt;`
			`logic [51:0] SFrac;`
			`logic [25:0] DFrac;`
			`logic [77:0] DFracTmp,tmp, tmp2;`
			`//assign ShiftCnt = FmtE ? -DExpCalc&{13{Denorm}} : NormCnt;`
			`assign SFrac = XManE[51:0] << NormCnt;`
			`logic Shift;`
			`assign tmp = (-DExpCalc+1)&{13{Shift}};`
			`assign tmp2 = {XManE, 23'b0};`
			`assign Shift = {13{Denorm\|(($signed(DExpCalc) > $signed(-25)) & DExpCalc[12])}};`
			`assign DFracTmp = {XManE, 25'b0} >> ((-DExpCalc+1)&{13{Shift}});`
			`assign DFrac = DFracTmp[76:51];`

			`logic Sticky, UfSticky, Guard, Round, LSBFrac, UfGuard, UfRound, UfLSBFrac;`
			`logic CalcPlus1, UfCalcPlus1;`
			`logic Plus1, UfPlus1;`
			`// used to determine underflow flag`
			`assign UfSticky = \|DFracTmp[50:0];`
			`assign UfGuard = DFrac[1];`
			`assign UfRound = DFrac[0];`
			`assign UfLSBFrac = DFrac[2];`


			`assign Sticky = UfSticky \| UfRound;`
			`assign Guard = DFrac[2];`
			`assign Round = DFrac[1];`
			`assign LSBFrac = DFrac[3];`


			`always_comb begin`
			`// Determine if you add 1`
			`case (FrmE)`
			`3'b000: CalcPlus1 = Guard & (Round \| (Sticky) \| (~Round&~Sticky&LSBFrac));//round to nearest even`
			`3'b001: CalcPlus1 = 0;//round to zero`
			`3'b010: CalcPlus1 = XSgnE;//round down`
			`3'b011: CalcPlus1 = ~XSgnE;//round up`
			`3'b100: CalcPlus1 = (Guard & (Round \| (Sticky) \| (~Round&~Sticky)));//round to nearest max magnitude`
			`default: CalcPlus1 = 1'bx;`
			`endcase`
			`// Determine if you add 1 (for underflow flag)`
			`case (FrmE)`
			`3'b000: UfCalcPlus1 = UfGuard & (UfRound \| UfSticky \| (~UfRound&~UfSticky&UfLSBFrac));//round to nearest even`
			`3'b001: UfCalcPlus1 = 0;//round to zero`
			`3'b010: UfCalcPlus1 = XSgnE;//round down`
			`3'b011: UfCalcPlus1 = ~XSgnE;//round up`
			`3'b100: UfCalcPlus1 = (UfGuard & (UfRound \| UfSticky \| (~UfRound&~UfSticky)));//round to nearest max magnitude`
			`default: UfCalcPlus1 = 1'bx;`
			`endcase`

			`end`

			`// If an answer is exact don't round`
			`assign Plus1 = CalcPlus1 & (Sticky \| UfGuard \| Guard \| Round);`
			`assign UfPlus1 = UfCalcPlus1 & (Sticky \| UfGuard);`
			`logic [12:0] DExpFull;`
			`logic [22:0] DResFrac;`
			`logic [7:0] DResExp;`
			`assign {DExpFull, DResFrac} = {DExpCalc&{13{~Denorm}}, DFrac[25:3]} + Plus1;`
			`assign DResExp = DExpFull[7:0];`

			`logic [10:0] SExp;`
			`assign SExp = XExpE-(NormCnt&{8{~XZeroE}})+({11{XDenormE}}&1024-127);`

			`logic Overflow, Underflow, Inexact;`
			`assign Overflow = $signed(DExpFull) >= $signed({1'b0, {8{1'b1}}}) & ~(XNaNE\|XInfE);`
			`assign Underflow = (($signed(DExpFull) <= 0) & ((Sticky\|Guard\|Round) \| (XManE[52]&~\|DFrac) \| (\|DFrac&~Denorm)) \| ((DExpFull == 1) & Denorm & ~(UfPlus1&UfLSBFrac))) & ~(XNaNE\|XInfE);`
			`assign Inexact = (Sticky\|Guard\|Round\|Underflow\|Overflow) &~(XNaNE);`

			`logic [31:0] DRes;`
			`assign DRes = XNaNE ? {XSgnE, XExpE, 1'b1, XManE[50:29]} :`
			`Underflow & ~Denorm ? {XSgnE, 30'b0, CalcPlus1&(\|FrmE[1:0]\|Shift)} :`
			`Overflow \| XInfE ? ((FrmE[1:0]==2'b01) \| (FrmE[1:0]==2'b10&~XSgnE) \| (FrmE[1:0]==2'b11&XSgnE)) & ~XInfE ? {XSgnE, 8'hfe, {23{1'b1}}} :`
			`{XSgnE, 8'hff, 23'b0} :`
			`{XSgnE, DResExp, DResFrac};`
			`assign CvtFpResE = FmtE ? {{32{1'b1}},DRes} : {XSgnE, SExp, SFrac[51]\|XNaNE, SFrac[50:0]};`
			`assign CvtFpFlgE = FmtE ? {XSNaNE, 1'b0, Overflow, Underflow, Inexact} : {XSNaNE, 4'b0};`

			`endmodule // fpadd`