I have followed the "Don't Optimize Prematurely" mantra and coded up my WCF Service using Entity Framework.

However, I profiled the performance and Entity Framework is too slow. (My app processes 2 messages in about 1.2 seconds, where the (legacy) app that I am re-writing does 5-6 messages in the same time. (The legacy app calls sprocs for its DB Access.)

My profiling points to Entity Framework taking the bulk of the time per message.

So, what are my options?

  • Are there better ORMs out there?
    (Something that just supports normal reading and writing of objects and does it fast..)

  • Is there a way to make Entity Framework faster?
    (Note: when I say faster I mean over the long run, not the first call. (The first call is slow (15 seconds for a message), but that is not a problem. I just need it to be fast for the rest of the messages.)

  • Some mysterious 3rd option that will help me get more speed out of my service.

NOTE: Most of my DB interactions are Create and Update. I do very very little selecting and deleting.

  • This sounds like a rehash of 'linq is slow' how do you know it's EF? Have you profiled all your changes?
    – Maess
    Dec 1, 2011 at 20:25
  • 6
    Some of the answers are pointing to the queries. In my experience, slowness in EF has little to do with the queries but instead with the costs of materialization, and those costs are often tied to change tracking and how that affects the instance(s) created. Unfortunately, I don't have a silver bullet for you so this is just a comment, but I would recommend seeing if profiling reveals high materialization costs and, if so, research what can be done about said costs. Dec 1, 2011 at 20:26
  • @Maess - I thought I indicated that I had profiled and found that it was EF/DB that was slow. Either way, yes I did. I profiled it and it is EF/DB interactions that are the major culprit.
    – Vaccano
    Dec 1, 2011 at 20:56
  • 1
    @Vaccano, no, materialization is the process of taking the data from the database and instantiating and populating the graph of objects to represent that data. I'm not talking about first run performance as the code is jitted (or even as Sql Server might create the query execution plan), but what happens each and every time you get data in the form of objects. Dec 1, 2011 at 21:13
  • 1
    EF was really designed to be flexible with any data source and that's its greatest power, however, if you're always using MS-SQL, there isn't much point in not using stored procedures w/EF (and, perhaps, not using EF at all - as it certainly adds more "what is it doing now?" questions in the development process). If you hate obfuscation or need fine tuned control, EF is not for you. On really complex projects EF, honestly, takes longer to debug, overall (and easier to fry a database!).
    – MC9000
    Dec 28, 2018 at 7:05

13 Answers 13


The fact of the matter is that products such as Entity Framework will ALWAYS be slow and inefficient, because they are executing lot more code.

I also find it silly that people are suggesting that one should optimize LINQ queries, look at the SQL generated, use debuggers, pre-compile, take many extra steps, etc. i.e. waste a lot of time. No one says - Simplify! Everyone wants to comlicate things further by taking even more steps (wasting time).

A common sense approach would be not to use EF or LINQ at all. Use plain SQL. There is nothing wrong with it. Just because there is herd mentality among programmers and they feel the urge to use every single new product out there, does not mean that it is good or it will work. Most programmers think if they incorporate every new piece of code released by a large company, it is making them a smarter programmer; not true at all. Smart programming is mostly about how to do more with less headaches, uncertainties, and in the least amount of time. Remember - Time! That is the most important element, so try to find ways not to waste it on solving problems in bad/bloated code written simply to conform with some strange so called 'patterns'

Relax, enjoy life, take a break from coding and stop using extra features, code, products, 'patterns'. Life is short and the life of your code is even shorter, and it is certainly not rocket science. Remove layers such as LINQ, EF and others, and your code will run efficiently, will scale, and yes, it will still be easy to maintain. Too much abstraction is a bad 'pattern'.

And that is the solution to your problem.

  • 170
    This is throwing the baby out with the bathwater. You optimize bottlenecks, it's silly to throw EF out because it's too slow in a few places, while being plenty fast in most others. Why not use both? EF handles stored procedures and raw SQL just fine. I just converted a LINQ-to-SQL query that took 10+ seconds into a SP that takes ~1 second, but I'm not gonna throw all LINQ-to-SQL out. It saved a LOT of time in other simpler cases, with less code and less room for error and the queries are compiler verified and match the database. Less code is easier maintenance and less room for errors.
    – JulianR
    Dec 29, 2011 at 18:11
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    Overall your advice is good though, but I don't think it's right to abandon EF or other abstractions because they don't work well 10% of the time.
    – JulianR
    Dec 29, 2011 at 18:13
  • 57
    Plain SQL = easy to maintain? Just not true for very large apps with lots of business logic. Writing complex reusable SQL is not an easy thing to do. Personally I have had some performance issues with EF, but these problems simply don't compare to the benefits of a proper ORM in terms of a RAD and keeping things DRY (if there's any level of complexity involved). Mar 22, 2012 at 12:08
  • 13
    +10^100 Too much abstraction is a bad 'pattern'
    – Makach
    Nov 5, 2012 at 22:30
  • 66
    -1. "EF will ALWAYS be slow and inefficient." I don't see why you would assert something like this to be the absolute truth. Having more layers to go through will make something slower, but whether that difference is even NOTICEABLE is completely dependent on the situation like the amount of data and the type of query being executed. To me this is the same thing as saying 'C# will ALWAYS be slow and inefficient' because it is a higher abstraction than C++. Yet many people choose to use it because the productivity gains far out weigh performance loss (if there is any). The same applies to EF
    – Despertar
    Dec 6, 2012 at 1:49

You should start by profiling the SQL commands actually issued by the Entity Framework. Depending on your configuration (POCO, Self-Tracking entities) there is a lot room for optimizations. You can debug the SQL commands (which shouldn't differ between debug and release mode) using the ObjectSet<T>.ToTraceString() method. If you encounter a query that requires further optimization you can use some projections to give EF more information about what you trying to accomplish.


Product product = db.Products.SingleOrDefault(p => p.Id == 10);
// executes SELECT * FROM Products WHERE Id = 10

ProductDto dto = new ProductDto();
foreach (Category category in product.Categories)
// executes SELECT * FROM Categories WHERE ProductId = 10
    dto.Categories.Add(new CategoryDto { Name = category.Name });

Could be replaced with:

var query = from p in db.Products
            where p.Id == 10
            select new
                Categories = from c in p.Categories select c.Name
ProductDto dto = new ProductDto();
foreach (var categoryName in query.Single().Categories)
// Executes SELECT p.Id, c.Name FROM Products as p, Categories as c WHERE p.Id = 10 AND p.Id = c.ProductId
    dto.Categories.Add(new CategoryDto { Name = categoryName });

I just typed that out of my head, so this isn't exactly how it would be executed, but EF actually does some nice optimizations if you tell it everything you know about the query (in this case, that we will need the category-names). But this isn't like eager-loading (db.Products.Include("Categories")) because projections can further reduce the amount of data to load.

  • 43
    This response sounds reasonable, until you realize that anonymous types are not accessible outside of the method in which they're defined. If you want to load up a complex object and not write a megamoth, you then need to deserialize your new anonymous types into some kind of POCO. Again, that almost sounds reasonable until you realize that in doing so you have essentially REWRITTEN YOUR OWN ENTITY FRAMEWORK. Which is bullshit.
    – Doug
    Jan 30, 2013 at 13:44
  • 6
    this resulted in a 15x-20x increase in speed for me. Mar 8, 2013 at 21:09
  • 13
    Interesting and helpful reply, still valid quite some time later. @Doug: Which is not really bullshit since you only optimise (using projections) those few queries where you really need use the extra benefit. EF and POCO gives you reasonable default, which is very nice!
    – Victor
    Jan 16, 2014 at 21:49
  • 2
    @Doug Most applications have view models for view-only scenarios, right? Might as well do as much of the mapping as you pull out the data.
    – Casey
    Aug 26, 2015 at 15:58
  • 4
    I use to feel ORM's were the future. They just made sense, until I started using them. Then I found Dapper. Now, when seeing solutions like this, I cringe at how the complexity ramps up quickly. Writing abstracted SQL in C# is no way to go through life. Jun 2, 2016 at 15:26

One suggestion is to use LINQ to Entity Framework only for single-record CRUD statements.

For more involved queries, searches, reporting, etc, write a stored procedure and add it to the Entity Framework model as described on MSDN.

This is the approach I've taken with a couple of my sites and it seems to be a good compromise between productivity and performance. Entity Framework will not always generate the most efficient SQL for the task at hand. And rather than spending the time to figure out why, writing a stored procedure for the more complex queries actually saves time for me. Once you're familiar with the process, it's not too much of a hassle to add stored procs to your EF model. And of course the benefit of adding it to your model is that you get all that strongly typed goodness that comes from using an ORM.

  • Do you have an idea about the methods used in scaffolding like db.athlete.find(id) etc. How do they perform in comparison with ADO.NET or dapper?? Mar 22, 2016 at 5:25

If you're purely fetching data, it's a big help to performance when you tell EF to not keep track of the entities it fetches. Do this by using MergeOption.NoTracking. EF will just generate the query, execute it and deserialize the results to objects, but will not attempt to keep track of entity changes or anything of that nature. If a query is simple (doesn't spend much time waiting on the database to return), I've found that setting it to NoTracking can double query performance.

See this MSDN article on the MergeOption enum:

Identity Resolution, State Management, and Change Tracking

This seems to be a good article on EF performance:

Performance and the Entity Framework


You say that you have profiled the application. Have you profiled the ORM too? There is an EF profiler from Ayende that will highlight where you can optimise your EF code. You can find it here:


Remember that you can use a traditional SQL approach alongside your ORM if you need to to gain performance.

If there a faster/better ORM? Depending on your object/data model, you could consider using a one of the micro-ORMs, such as Dapper, Massive or PetaPoco.

The Dapper site publishes some comparitive benchmarks that will give you an idea how they compare to other ORMs. But it's worth noting that the micro-ORMs do not support the rich feature set of the full ORMs like EF and NH.

You may want to take a look at RavenDB. This is a non-relational database (from Ayende again) that lets you store POCOs directly with no mapping needed. RavenDB is optimised for reads and makes the developers life a whole lot easier by removing need to manipulate schema and to map your objects to that schema. However, be aware that this is a significantly different approach to using an ORM approach and these are outlined in the product's site.


I have found the answer by @Slauma here very useful for speeding things up. I used the same sort of pattern for both inserts and updates - and performance rocketed.


From my experience, the problem not with EF, but with ORM approach itself.

In general all ORMs suffers from N+1 problem not optimized queries and etc. My best guess would be to track down queries that causes performance degradation and try to tune-up ORM tool, or rewrite that parts with SPROC.

  • 2
    People keep telling me this. But I will set up a simple select statement using old school ADO, and the same simple select using an EF context and EF is always considerably slower. I really want to like EF, but it keeps making life harder instead of easier. Jun 22, 2014 at 23:33
  • 1
    @Sinaesthetic Of course it's slower. By the same token, code written using Linq to Objects is usually slower than code written without it. The question is not really whether it's faster or as fast (how could it be, when under the hood it still has to issue the query you were issuing by hand?) but whether 1) it's still fast enough for your needs 2) it saves you time writing the code 3) the benefits offset the costs. Based on those items I think EF is appropriate for lots of projects.
    – Casey
    Aug 26, 2015 at 17:33
  • @Sinaesthetic I'd also add that if you don't use an ORM, what happens more often than not is not that each SQL query is fine-tuned and optimized but that the application ends up developing an in-house, organic, poorly-supported, poorly-performing ORM, unless your team is exceptionally disciplined and very concerned about performance.
    – Casey
    Aug 26, 2015 at 17:35

This is simple non-framework, non-ORM option that loads at 10,000/second with 30 fields or so. Running on an old laptop, so probably faster than that in a real environment.



I ran into this issue as well. I hate to dump on EF because it works so well, but it is just slow. In most cases I just want to find a record or update/insert. Even simple operations like this are slow. I pulled back 1100 records from a table into a List and that operation took 6 seconds with EF. For me this is too long, even saving takes too long.

I ended up making my own ORM. I pulled the same 1100 records from a database and my ORM took 2 seconds, much faster than EF. Everything with my ORM is almost instant. The only limitation right now is that it only works with MS SQL Server, but it could be changed to work with others like Oracle. I use MS SQL Server for everything right now.

If you would like to try my ORM here is the link and website:


Or if you want to use nugget:

PM> Install-Package OR-M_DataEntities

Documentation is on there as well


It only makes sense to optimize after you've profiled. If you find out that the DB access is slow, you can convert to using stored procedures and keep EF. If you find out that it's the EF itself that's slow, you may have to switch to a different ORM or not use an ORM at all.


We have an similar application (Wcf -> EF -> database) that does 120 Requests per second easily, so I am more than sure that EF is not your problem here, that being said, I have seen major performance improvements with compiled queries.

  • 98% of my code is Create and Update calls. I don't know if that makes a difference, but it is much slower than 120 per second.
    – Vaccano
    Dec 1, 2011 at 21:45
  • yeah that would not be a typical application, i would suggest you profile your application. for us its mostly reads...
    – np-hard
    Dec 1, 2011 at 22:56

I used EF, LINQ to SQL and dapper. Dapper is the fastest. Example: I needed 1000 main records with 4 sub records each. I used LINQ to sql, it took about 6 seconds. I then switched to dapper, retrieved 2 record sets from the single stored procedure and for each record added the sub records. Total time 1 second.

Also the stored procedure used table value functions with cross apply, I found scalar value functions to be very slow.

My advice would be to use EF or LINQ to SQL and for certain situations switch to dapper.


The Entity Framework should not cause major bottlenecks itself. Chances are that there are other causes. You could try to switch EF to Linq2SQL, both have comparing features and the code should be easy to convert but in many cases Linq2SQL is faster than EF.

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