module fctrl ( input logic [6:0] Funct7D, input logic [6:0] OpD, input logic [4:0] Rs2D, input logic [2:0] Funct3D, input logic [2:0] FRM_REGW, output logic IllegalFPUInstrD, output logic FWriteEnD, output logic FDivStartD, output logic [2:0] FResultSelD, output logic [3:0] FOpCtrlD, output logic [1:0] FResSelD, output logic [1:0] FIntResSelD, output logic FmtD, output logic [2:0] FrmD, output logic FWriteIntD); `define FCTRLW 15 logic [`FCTRLW-1:0] ControlsD; // FPU Instruction Decoder always_comb case(OpD) // FWriteEn_FWriteInt_FResultSel_FOpCtrl_FResSel_FIntResSel_FDivStart_IllegalFPUInstr 7'b0000111: case(Funct3D) 3'b010: ControlsD = `FCTRLW'b1_0_000_0000_00_00_0_0; // flw 3'b011: ControlsD = `FCTRLW'b1_0_000_0001_00_00_0_0; // fld default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b0100111: case(Funct3D) 3'b010: ControlsD = `FCTRLW'b0_0_000_0010_00_00_0_0; // fsw 3'b011: ControlsD = `FCTRLW'b0_0_000_0011_00_00_0_0; // fsd default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b1000011: ControlsD = `FCTRLW'b1_0_001_0000_00_00_0_0; // fmadd 7'b1000111: ControlsD = `FCTRLW'b1_0_001_0001_00_00_0_0; // fmsub 7'b1001011: ControlsD = `FCTRLW'b1_0_001_0010_00_00_0_0; // fnmsub 7'b1001111: ControlsD = `FCTRLW'b1_0_001_0011_00_00_0_0; // fnmadd 7'b1010011: casez(Funct7D) 7'b00000??: ControlsD = `FCTRLW'b1_0_010_0000_00_00_0_0; // fadd 7'b00001??: ControlsD = `FCTRLW'b1_0_010_0001_00_00_0_0; // fsub 7'b00010??: ControlsD = `FCTRLW'b1_0_001_0100_00_00_0_0; // fmul 7'b00011??: ControlsD = `FCTRLW'b1_0_011_0000_00_00_1_0; // fdiv 7'b01011??: ControlsD = `FCTRLW'b1_0_011_0001_00_00_1_0; // fsqrt 7'b00100??: case(Funct3D) 3'b000: ControlsD = `FCTRLW'b1_0_100_0000_01_00_0_0; // fsgnj 3'b001: ControlsD = `FCTRLW'b1_0_100_0001_01_00_0_0; // fsgnjn 3'b010: ControlsD = `FCTRLW'b1_0_100_0010_01_00_0_0; // fsgnjx default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b00101??: case(Funct3D) 3'b000: ControlsD = `FCTRLW'b1_0_100_0111_10_00_0_0; // fmin 3'b001: ControlsD = `FCTRLW'b1_0_100_0101_10_00_0_0; // fmax default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b10100??: case(Funct3D) 3'b010: ControlsD = `FCTRLW'b0_1_100_0010_00_00_0_0; // feq 3'b001: ControlsD = `FCTRLW'b0_1_100_0001_00_00_0_0; // flt 3'b000: ControlsD = `FCTRLW'b0_1_100_0011_00_00_0_0; // fle default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b11100??: if (Funct3D == 3'b001) ControlsD = `FCTRLW'b0_1_100_0000_00_10_0_0; // fclass else if (Funct3D[1:0] == 2'b00) ControlsD = `FCTRLW'b0_1_100_0100_00_01_0_0; // fmv.x.w else if (Funct3D[1:0] == 2'b01) ControlsD = `FCTRLW'b0_1_100_0101_00_01_0_0; // fmv.x.d else ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction 7'b1100000: case(Rs2D[0]) 1'b0: ControlsD = `FCTRLW'b0_1_010_0110_00_00_0_0; // fcvt.s.w 1'b1: ControlsD = `FCTRLW'b0_1_010_0101_00_00_0_0; // fcvt.s.wu default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b1101000: case(Rs2D[0]) 1'b0: ControlsD = `FCTRLW'b1_1_010_0100_00_00_0_0; // fcvt.w.s 1'b1: ControlsD = `FCTRLW'b1_1_010_0101_00_00_0_0; // fcvt.wu.s default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b1111000: ControlsD = `FCTRLW'b1_0_100_0000_00_00_0_0; // fmv.w.x 7'b0100000: ControlsD = `FCTRLW'b1_0_010_0010_00_00_0_0; // fcvt.s.d 7'b1100001: case(Rs2D[0]) 1'b0: ControlsD = `FCTRLW'b0_1_010_1110_00_00_0_0; // fcvt.d.w 1'b1: ControlsD = `FCTRLW'b0_1_010_1111_00_00_0_0; // fcvt.d.wu default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b1101001: case(Rs2D[0]) 1'b0: ControlsD = `FCTRLW'b1_0_010_1100_00_00_0_0; // fcvt.w.d 1'b1: ControlsD = `FCTRLW'b1_0_010_1101_00_00_0_0; // fcvt.wu.d default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase 7'b1111001: ControlsD = `FCTRLW'b1_0_100_0001_00_00_0_0; // fmv.d.x 7'b0100001: ControlsD = `FCTRLW'b1_0_010_1000_00_00_0_0; // fcvt.d.s default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase default: ControlsD = `FCTRLW'b0_0_000_0000_00_00_0_1; // non-implemented instruction endcase // unswizzle control bits assign {FWriteEnD, FWriteIntD, FResultSelD, FOpCtrlD, FResSelD, FIntResSelD, FDivStartD, IllegalFPUInstrD} = ControlsD; // if dynamic rounding, choose FRM_REGW assign FrmD = &Funct3D ? FRM_REGW : Funct3D; // Precision // 0-single // 1-double assign FmtD = FResultSelD == 3'b000 ? Funct3D[0] : Funct7D[0]; // div/sqrt // fdiv = ???0 // fsqrt = ???1 // cmp // fmin = ?111 // fmax = ?101 // feq = ?010 // flt = ?001 // fle = ?011 // {?, is min or max, is eq or le, is lt or le} //fma/mult // fmadd = ?000 // fmsub = ?001 // fnmsub = ?010 -(a*b)+c // fnmadd = ?011 -(a*b)-c // fmul = ?100 // {?, is mul, is negitive, is sub} // sgn inj // fsgnj = ??00 // fsgnjn = ??01 // fsgnjx = ??10 // add/sub/cnvt // fadd = 0000 // fsub = 0001 // fcvt.w.s = 0100 // fcvt.wu.s = 0101 // fcvt.s.w = 0110 // fcvt.s.wu = 0111 // fcvt.s.d = 0010 // fcvt.w.d = 1100 // fcvt.wu.d = 1101 // fcvt.d.w = 1110 // fcvt.d.wu = 1111 // fcvt.d.s = 1000 // { is double and not add/sub, is to/from int, is to int or float to double, is unsigned or sub} // fmv.w.x = ???0 // fmv.w.d = ???1 // flw = ?000 // fld = ?001 // fsw = ?010 // fsd = ?011 // fmv.x.w = ?100 // fmv.x.d = ?101 // {?, is mv, is store, is double or fmv} endmodule