The best way to strip the time portion of a datetime field is using datediff and dateadd functions.

```
DateAdd(day, datediff(day,0, MydateValue), 0)
```

This takes advantedge of the fact that SQL Server stores dates as two integers, one representing the number of days since day "0" - (1 jan 1900), and the second one which represents the number of *ticks* (each tick is about 3.33 ms) since midnight (for the time) *.

the formula above simply has to only read the first integer. There is no conversion or processing required, so it is extremely fast.

To make your queries use an index... use this formula on the input filtering parameters first, or on the "other" side of the equal sign from the tables date time field, so that the query optimizer does not have to run the calculation on every datetime field in the table to determine which rows satisfy the filter predicate. This makes your search argument "SARG-able" (Search ARGument)

```
Where MyDateTimeColumn > DateAdd(day,
datediff(day,0, @MydateParameter), 0) -- SARG-able
```

rather than

```
Where DateAdd(day, datediff(day,0,
MyDateTimeColumn ), 0) > @MydateParameter -- Not SARG-able
```

* NOTE. Internally, the second integer (the time part) stores ticks. In a day there are 24 x 60 X 60 X 300 = 25,920,000 ticks (serendipitously just below the max value a 32 bit integer can hold). However, you do not need to worry about this when arithmetically modifying a datetime... When adding or subtracting values from datetimes you can treat the value as a fraction as though it was exactly equal to the fractional portion of a day, as though the complete datetime value was a floating point number consisting of an integer portion representing the date and the fractional portion representing the time). i.e.,

```
`Declare @Dt DateTime Set @Dt = getdate()
Set @Dt = @Dt + 1.0/24 -- Adds one hour
Select @Dt
Set @Dt = @Dt - .25 -- Moves back 6 hours
Select @Dt`
```