We don't have enough information to give very prescriptive advice - but there are some general things you should be thinking about.

What types are the time values? Are you comparing date times or some primitive value (like a time_t). Think about how your data types affects performance. Choose the best ones.

Should you really be doing this in memory or should you be putting all these rows in to SQL and letting it be queried on there? It's really good at that.

But let's stick with what you asked about - in memory searching.

When searching is taking too long there is only one solution - search fewer things. You do this by partitioning your data in a way that allows you to easily rule out as many nodes as possible with as few operations as possible.

In your case you have two criteria - a code and a date range. Here are some ideas...

You could partition based on code - i.e. Dictionary> - if you have many evenly distributed codes your list sizes will each be about N/M in size (where N = total event count and M = number of events). So a million nodes with ten codes now requires searching 100k items rather than a million. But you could take that a bit further. The List could itself be sorted by starting time allowing a binary search to rule out many other nodes very quickly. (this of course has a trade-off in time building the collection of data). This should provide very quick

You could partition based on date and just store all the data in a single list sorted by start date and use a binary search to find the start date then march forward to find the code. Is there a benefit to this approach over the dictionary? That depends on the rest of your program. Maybe being an IList is important. I don't know. You need to figure that out.

You could flip the dictionary model partition the data by start time rounded to some boundary (depending on the length, granularity and frequency of your events). This is basically bucketing the data in to groups that have similar start times. E.g., all the events that were started between 12:00 and 12:01 might be in one bucket, etc. If you have a very small number of events and a lot of highly frequent (but not pathologically so) events this might give you very good lookup performance.

The point? Think about your data. Consider how expensive it should be to add new data and how expensive it should be to query the data. Think about how your data types affect those characteristics. Make an informed decision based on that data. When in doubt let SQL do it for you.