`include "wally-config.vh" module unpack ( input logic [`FLEN-1:0] X, Y, Z, // inputs from register file input logic [`FPSIZES/3:0] FmtE, // format signal 00 - single 01 - double 11 - quad 10 - half output logic XSgnE, YSgnE, ZSgnE, // sign bits of XYZ output logic [`NE-1:0] XExpE, YExpE, ZExpE, // exponents of XYZ (converted to largest supported precision) output logic [`NF:0] XManE, YManE, ZManE, // mantissas of XYZ (converted to largest supported precision) output logic XNormE, // is X a normalized number output logic XNaNE, YNaNE, ZNaNE, // is XYZ a NaN output logic XSNaNE, YSNaNE, ZSNaNE, // is XYZ a signaling NaN output logic XDenormE, YDenormE, ZDenormE, // is XYZ denormalized output logic XZeroE, YZeroE, ZZeroE, // is XYZ zero output logic XInfE, YInfE, ZInfE, // is XYZ infinity output logic XExpMaxE // does X have the maximum exponent (NaN or Inf) ); logic [`NF-1:0] XFracE, YFracE, ZFracE; //Fraction of XYZ logic XExpNonzero, YExpNonzero, ZExpNonzero; // is the exponent of XYZ non-zero logic XFracZero, YFracZero, ZFracZero; // is the fraction zero logic XExpZero, YExpZero, ZExpZero; // is the exponent zero logic YExpMaxE, ZExpMaxE; // is the exponent all 1s unpackinput unpackinputX (.In(X), .FmtE, .Sgn(XSgnE), .Exp(XExpE), .Man(XManE), .NaN(XNaNE), .SNaN(XSNaNE), .Denorm(XDenormE), .Zero(XZeroE), .Inf(XInfE), .ExpMax(XExpMaxE), .ExpZero(XExpZero)); unpackinput unpackinputY (.In(Y), .FmtE, .Sgn(YSgnE), .Exp(YExpE), .Man(YManE), .NaN(YNaNE), .SNaN(YSNaNE), .Denorm(YDenormE), .Zero(YZeroE), .Inf(YInfE), .ExpMax(YExpMaxE), .ExpZero(YExpZero)); unpackinput unpackinputZ (.In(Z), .FmtE, .Sgn(ZSgnE), .Exp(ZExpE), .Man(ZManE), .NaN(ZNaNE), .SNaN(ZSNaNE), .Denorm(ZDenormE), .Zero(ZZeroE), .Inf(ZInfE), .ExpMax(ZExpMaxE), .ExpZero(ZExpZero)); // is X normalized assign XNormE = ~(XExpMaxE|XExpZero); endmodule