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Marketing is nice as long as it matches the reality. With Microsoft Dynamics NAV 2013, Microsoft has promised a lot of improvements, but how well does NAV 2013 stand the reality test?
Apparently, outstandingly well.
Over the past two days, I have intensively tested NAV 2009 and NAV 2013 through a series of five different tests that measure different aspects of NAV data handling. My conclusion is clear: NAV 2013 is faster than any NAV you have ever seen, including the Classic client on the native database.
Continue reading to find out more about my findings and testing approach.
Is This Some Kind Of A Trick?
No, this is not a trick. It’s for real.
Several days ago I wrote about performance improvements in Microsoft Dynamics NAV 2013, and then got a comment that it all looks nice in theory, but that NAV 2013 is actually slower than NAV 2009. Per Mogensen of Mergetool.com has done some testing and published a video demonstrating the results.
I’ve reviewed the video, and I’ve noticed a couple of possible issues with how the performance was measured, so I decided to do check for myself. My results show something completely different: not only NAV 2013 is faster than NAV 2009, it’s also faster than the Classic client on the native database – kind of a holy grail of NAV performance.
And then I double-checked with Per, and he confirmed to me that he also noticed a couple of problems himself. He has repeated the tests, and his tests now also show great improvement in NAV 2013. His updated video is here.
But, let’s continue with my results.
The Racing Horses
To find out how fast NAV 2013 really is, I’ve compared it to other flavors of NAV. The racing horses were:
So, quite a jolly bunch. I would love if I could also have tested the performance of 2009 NAS on both native database and SQL Server, but I chose to let it pass.
All of the applications have had exactly the same operating conditions, under exactly the same environment and system configuration settings. The following are the system specifications:
The machine was physical, not virtual. All flavors of NAV were installed on the same physical instance.
All of the six applications had to endure the same testing conditions, and have run the following tests:
In addition, under NAV 2013 I’ve run the following test as well:
Before each of the tests, I prepared the environment by doing the following:
Then, after the environment was ready, for each of the tests I did the following:
The warm-up is indeed slower under NAV 2013, than under any other system, and my methodology disregarded the warm-up measurements. Warm up times mostly don’t show anything useful.
Each of the tests records the time right before the test starts, and then again right after it ends. The time difference is then logged into the database.
I measured the time by creating two DateTime instances, setting them to current system time, then subtracting the start time from the end time. This gives the duration in milliseconds. In addition to this, under NAV 2013 I’ve added another measurement method: the .NET System.Diagnostics.Stopwatch class, just in case – if there is anything flawed with NAV’s time variable in 2013, certainly nothing will be wrong with the .NET Stopwatch. As expected, there was no difference between what NAV calculated and what the System.Diagnostics.Stopwatch measured.
In the results, all measurements I present are in milliseconds, and in all test results I’ll show, less is better.
Finally, we get to the point which I believe you await as much as did I: the results. Let me present them test by test.
1. Sales Orders
In the Per Mogensen’s tests, the NAV 2009 Classic Client on a native database is the winner of this test. At pure C/AL level, NAV 2013 there performs almost as fast as Classic on native, but the RTC under NAV 2013 is still the slowest. My results are very different. I can’t be 100% sure why, but I’ll give a couple of thoughts at the end of this post.
In any case, these are the measurements I got:
A picture is worth a thousand words, so here it comes:
Image 1: Sales Orders test results
As I expected, the Web Services perform faster on both 2009 and 2013, because there is no user interface and only the NST is involved in code execution. Under Web Services, NAV 2013 performs about 44% faster than the fastest breed of NAV ever – the Classic Client on a native database. Stripped off the burden of a UI, NAV 2013 Web Services practically demonstrate pure SQL Server performance, and SQL Server is faster than ever before, just as it says on the tin.
But NAV 2013 RTC also showed respectable performance. It performed 21% better than NAV 2009 Classic Client on native database. I kind of didn’t expect this to occur, because the Classic Client on native database is a native ISAM system and NAV business logic is entirely optimized to fly on it. What astonishes me is 128% improvement of NAV 2013 over NAV 2009 in Web Services, or 137% improvement in RoleTailored Client performance. That’s truly amazing.
Obviously, NAV 2013 provides considerable improvement over NAV 2009.
2. Repeated Read
This test measures the capability of a client to iterate through a series of records. Iteration is something that C/AL code frequently does, and where any flavor of NAV somewhat sucked under SQL Server, as compared with the sheer performance of the native database. Again, native database and C/AL as a language are optimized precisely for this kind of access, and it was never a wonder that the native was a king here.
However, NAV 2013 seems to have just deposed that king:
Graphically, this is how it looks:
Image 2: Repeated Read of Customers, Vendors and Items
NAV 2013 is lightning fast here, and no wonder why: the caching. While NAV 2009 on SQL Server had to maintain a series of cursors, NAV 2013 ran a single T-SQL query, and then cached the records for subsequent reads. It simply outperforms everything.
I don’t want to spend any time comparing the speed of NAV 2013 with the speed of NAV 2009 native; what I want to do is point out the speed improvement by a factor of more than 400x over NAV 2009 on SQL. How cool is that?
3. Repeated Read of Filtered Tables
The beauty of this test is that it shows how well a system copes with a complex filter. I’ve set the filter on Name and Description columns on Customer, Vendor and Item table respectively to this: @*a* (it searches for letter a anywhere in the field, in a case-insensitive way).
This filter can’t make meaningful use of any key, so what shall win or lose this race will be the capability of the database management system to handle such a process on foot.
Again, NAV 2013 played this one coolly.
Here go the results:
This is the graph:
Image 3: Repeated Read of Filtered Tables
While the variances in NAV 2009 SQL Server flavors are insignificant, the improvement of NAV 2013 is again verging with insane. It’s obvious that the cache kicked in here bit time, but I also assume that there may be some .NET-level code optimization that made this kind of thing possible.
4. Reading Unique G/L Account Numbers from G/L Entry
Now, this was a tricky one. It uses several concepts, combination of which is a total no-brainer for the ISAM-based NAV 2009 on native, but verges on rocket science for anything SQL-related. It was literally the most inefficient thing to do to a SQL database in NAV, and running a piece of code such as this literally smothers SQL by causing it to drop existing and create new cursors all the time.
The algorithm is as follows:
In previous versions, steps 2, 4, and 6 drop existing (except for the first iteration) and create new cursors in SQL Server, and I was curious to find out how well SQL coped with this task now that cursors are gone, and MARS is taking their role. There are much less read rows in this test than in the simple repeated read, and if you understand how ISAM works, and how SQL works, you should also expect ISAM to do this with no speed penalty over a simple iterative read, while you can expect SQL to run way slower than a simple iterative read, no matter which approach it takes.
And this is exactly what the results show:
And then, the picture:
Image 4: Repeated Read of SIFT-Filtered Tables
Now, before jumping out from your seat and shouting “gotcha!”, think of this test once again. NAV 2013 is almost 10x faster than NAV 2009 here, and whatever it did deep there in its engine is close to a miracle. If it did caching to attain this speed, that caching must be pretty smart, because this piece of code was accessing some very small sets and jumping around the records like crazy.
While I have a very plausible explanation what made NAV 2013 win all previous tests, I don’t have a faintest idea what kind of magic made it perform this well here. Yes, it is slower than native, but this was kind of like making a Formula One compete in a rally.
Catch this: native is fully optimized to do this kind of access, and doing this is no smarter for it than doing the simplest kind of data iteration. As a matter of fact, since there were less rows to read, this one should have been faster than the repeated read test. And it was. At the same time, NAV 2009 on SQL was slower here, because this put much more pressure on it, and it had to struggle. And struggle it did.
Yet, NAV 2013, while still struggling, has shown an incredible performance improvement to make even this kind of thing perform well. Quite a job, Microsoft!
5. SIFT Read
I measured how various systems perform with SIFTs, in a scenario quite common in real life: iterating through a set of data and calculating flow fields for each row. NAV does this in many situations, and I was very curious to find out how fast NAV 2013 would be here, because of the many changes Microsoft has done in handling the flow fields in NAV 2013.
Here are the results:
Image 5: SIFT Read
When handling flow fields, NAV 2013 performs slightly better than native ever did, about 8% faster. This is quite a feat, if you have in mind that native handles this functionality again, well, natively, by building the flow field information right into indexes, something that SQL never could.
Okay, I assume that some serious caching took place here as well, but still, caching or not, the whole system performs better and faster in NAV 2013. Compared to SQL Server flavors in NAV 2009, the improvement of 532% is quite amazing, and even more so if you think that probably everybody thought that Microsoft has hit the limit with replacing SIFT tables with indexed views in 5.0 SP1. With that obviously not having been a limit at all, I now wonder shall we experience even more improvement here in the future?
Finally, I ran the same test as the previous one, with the SETAUTOCALCFIELDS. I expected serious improvement, but at average of 1,466 milliseconds, this test performed practically only insignificantly faster than the previous one. I expected this one to show the real improvement over the traditional CALCFIELDS approach, but it stubbornly declined. I can’t explain this, but hey, let’s not get too picky
When you add all of the figures above together, the cumulative results demonstrate that Microsoft Dynamics NAV 2013 outperforms its previous incarnations, including the so-far unbeatable Classic Client on a native database.
On average, this is what it took the three clients to execute all tests:
And the last picture of the day:
Image 6: Overall Results
Obviously, the improvements that NAV 2013 promises are not just plain words, as these test results show. The overall performance is about 28% better than with the NAV 2009 Classic Client on a native database, and about 480% better (that’s almost 6x performance improvement!) than with NAV 2009 under SQL Server.
However, this is only a part of the story. There is another one: concurrency. Performance is always welcome, but performance is not what has been preventing NAV to scale as much as, for example, AX could. I wonder if Microsoft will release a hardware sizing document that would estimate some kind of the upper limit for vertical scalability of NAV 2013. The last time we got such numbers from Microsoft was with version 5.0 SP1, when it was set at 250 concurrent users.
Of course, any estimates of the kind are comparing apples to oranges, anyway, because at that number of users, the application is probably always heavily customized, and the actual upper vertical scalability limit will invariably depend on a very complex set of parameters, and can be determined only on a case-by-case basis.
I would’ve loved to have done concurrency tests together with the performance tests, but I may do that another time. However, based on the figures I see here, I dare estimating that everything else being equal, concurrency levels can at least be doubled in any given NAV 2013 deployment, over an equal NAV 2009 deployment.
But What About The Other Test?
So, why do Per Mogensen’s test show somewhat different results? On the C/AL level, hist test is very consistent with my measurements with Web services, but in Per’s tests, NAV 2013 performance with RTC is still inferior to all other clients and platforms.
I can’t tell for sure, but I’ll give my best guess:
Don’t Take My Word For This
So, who do you trust, Per or me? Neither one! Please, don’t just take my findings for granted. Do the measurements yourself.
Here, I’ve attached the objects that I’ve used to run the benchmark, so you can run the same tests on your own machine, and see your own results. I am really curious about the results you’ll get.
So, download the objects:
The reason why there are three distinct sets of objects is that NAV 2013 uses .NET Interoperability in addition to system time to measure time, and that native doesn’t use role centers. Everything else is exactly the same.
(Just in case you need it, here is also my Excel sheet with testing results and charts.)
Run the tests, and then come back here and share your findings. I’d love to hear from you!
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