On the SQL side, you can convert from Quartz.NET BIGINT times to a DateTime in UTC time with:

```
SELECT CAST(NEXT_FIRE_TIME/864000000000.0 - 693595.0 AS DATETIME) FROM QRTZ_TRIGGERS
```

## Numbers Explanation

Values stored in the column are the number of ticks from .NET `DateTime.MinValue`

in UTC time. There are 10000 ticks per millisecond.

The `864000000000.0`

represents the number of ticks in a single day. You can verify this with

```
SELECT DATEDIFF(ms,'19000101','19000102')*10000.0
```

Now, if we take March 13, 2013 at midnight, .NET returns `634987296000000000`

as the number of ticks.

```
var ticks = new DateTime(2013, 3, 13).Ticks;
```

To get a floating point number where whole numbers represent days and decimal numbers represent time, we take the ticks and divide by the number of ticks per day (giving us `734939.0`

in our example)

```
SELECT 634987296000000000/(DATEDIFF(ms,'19000101','19000102')*10000.0)
```

If we get put the date in SQL and convert to a float, we get a different number: `41344.0`

```
SELECT CAST(CAST('March 13, 2013 0:00' AS DATETIME) AS FLOAT)
```

So, we need to generate a conversion factor for the .NET-to-SQL days. SQL minimum date is January 1, 1900 0:00, so the correction factor can be calculated by taking the number of ticks for that time (`599266080000000000`

) and dividing by the ticks per day, giving us `693595.0`

```
SELECT 599266080000000000/(DATEDIFF(ms,'19000101','19000102')*10000.0)
```

So, to calculate the DateTime of a Quartz.NET date:

- take the value in the column
- divide by the number of ticks per day
- subtract out the correction factor
- convert to a DATETIME

```
SELECT CAST([Column]/864000000000.0 - 693595.0 AS DATETIME)
```