For behavioral code use either $rtoi() or $realtobits()

```
real in1;
integer a1;
wire [63:0] b1;
a1 = $roti(in1); //Truncates fractional part
b1 = $realtobits(in1); //Probably not what you want
```

You can use $bitstoreal() if you need to cast a bit vector to a real type.

EDIT:
So if I follow your comments correctly, you're building a model of a floating-point ALU that works on 32-bit data values. In this case you could use *real* data types since Verilog can handle this format natively. Of course, you won't be able to detect certain situations

```
task [31:0] realAdd(input [31:0] in1, input [31:0] in2, output [31:0] out);
begin
real rIn1,rIn2,rOut;
rIn1 = $bitstoreal(in1);
rIn2 = $bitstoreal(in2);
rOut = rIn1 + rIn2;
out = $realtobits(rOut);
end
endtask
```

These functions all use double precision so you'll need to do some trivial bit extensions to handle single precision inputs, and some non-trivial bounds checking/truncation on the output. You can avoid this by using SystemVerilog, which has the $bitstoshortreal()/$shortrealtobits() functions that work on single precision values.

If you want hardware for this, Computer Organization & Design has a description of a multi cycle implementation. As Andy posted, there may be better resources out there for your case. These are not simple to design.