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It seems that all the major investment banks use C++ in Unix (Linux, Solaris) for their low latency/high frequency server applications. Why is Windows generally not used as a platform for this? Are there technical reasons why Windows can't compete?

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Anyone bring marshmallows? I want to put these flames to good use! –  Billy ONeal Aug 29 '10 at 0:52

8 Answers 8

The performance requirements on the extremely low-latency systems used for algorithmic trading are extreme. In this environment, microseconds count.

I'm not sure about Solaris, but the case of Linux, these guys are writing and using low-latency patches and customisations for the whole kernel, from the network card drivers on up. It's not that there's a technical reason why that couldn't be done on Windows, but there is a practical/legal one - access to the source code, and the ability to recompile it with changes.

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This seems like a good answer, but do you know for a fact that they write low-latency patches and recompile the kernel? –  Jon Sep 3 '10 at 4:18
    
@Jon: I have only anecdotal evidence, from various discussions on LKML and similar places over the years (eg. Christoph Lameter is a kernel developer who was working on low-latency for such applications for a while). –  caf Sep 3 '10 at 4:37
    
@Jon I have written kernel patches to areas like pdflush. The standard kernel access assumptions dont necessarily line up with desired access patterns. –  Foo Bah Sep 11 '11 at 6:05

Technically, no. However, there is a very simple business reason: the rest of the financial world runs on Unix. Banks run on AIX, the stock market itself runs on Unix, and therefore, it is simply easier to find programmers in the financial world that are used to a Unix environment, rather than a Windows one.

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+1 for not devolving into Unix FUD. –  Billy ONeal Aug 29 '10 at 0:51
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It's defenetly NOT about finding guys with windows knowledge. I assure you, OS-related knowledge is 1% of the knowledge required to do that kind of development, and everyone working in this area can switch to ANY os if needed. –  BarsMonster Aug 29 '10 at 0:52
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@BarsMonster: I could see though for things like networking stacks, which are completely platform dependent, would require some body of knowledge before being able to switch platforms. Plus things like fork which are common in POSIX world but are not possible in a Windows environment. I think it's a reasonable answer. –  Billy ONeal Aug 29 '10 at 0:55
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That may be true in a standard environment, but in a very low-latency environment, deep understanding of the OS is a must, in order to be able to keep the overhead of your code down, to use the optimal system calls for a specific task, and to be familiar with the specific quirks and gotchas. –  Ryan Gooler Aug 29 '10 at 0:56
    
@Billy ONeal: I am not saying that it's easy to port. I am saying that these guys (which are payed well above average) just can gain required knowledge(not only google - paid trainings, expensive consultants who wrote target networking stack on their own :-) ) of needed OS-specific things not matter what is the OS. Surely all OSes have some tiny dirty secrets, but it's NOT the reason to choose specific OS. –  BarsMonster Aug 29 '10 at 1:02

(I've worked in investment banking for 8 years) In fact, quite a lot of what banks call low latency is done in Java. And not even Real Time Java - just normal Java with the GC turned off. The main trick here is to make sure you've exercised all of your code enough for the jit to have run before you switch a particular VM into prod ( so you have some startup looping that runs for a couple of minutes - and hot failover).

The reasons for using Linux are:

Familiarity

Remote administration is still better, and also low impact - it will have a minimal effect on the other processes on the machine. Remember, these systems are often co-located at the exchange, so the links to the machines (from you/your support team) will probably be worse than those to your normal datacentres.

Tunability - the ability to set swappiness to 0, get the JVM to preallocate large pages, and other low level tricks is quite useful.

I'm sure you could get Windows to work acceptably, but there is no huge advantage to doing so - as others have said, any employees you poached would have to rediscover all their latency busting tricks rather than just run down a checklist.

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I interned at a HFT/market making firm, and our code was in Java, the thought process was the time and errors saved outweighed any potential benefit from using C/C++. –  cohensh Feb 4 '13 at 21:26

Reason is simple, 10-20 years ago when such systems emerged, "hardcore" multi-CPU servers were ONLY on some sort of UNIX. Windows NT was in kinder-garden these days. So the reason is "historical".

Modern systems might be developed on Windows, it's just a matter of taste these days.

PS: I am currencly working on one of such systems :-)

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+1 for another answer not devolving into Unix FUD. –  Billy ONeal Aug 29 '10 at 0:52

Linux/UNIX are much more usable for concurrent remote users, making it easier to script around the systems, use standard tools like grep/sed/awk/perl/ruby/less on logs... ssh/scp... all that stuff's just there.

There are also technical issues, for example: to measure elapsed time on Windows you can choose between a set of functions based on the Windows clock tick, and the hardware-based QueryPerformanceCounter(). The former is increments each 10 to 16 milliseconds (note: some documentation implies more precision - e.g. the values from GetSystemTimeAsFileTime() measure to 100ns, but they report the same 100ns edge of the clock tick until it ticks again). The latter - QueryPerformanceCounter() - has show-stopping issues where different cores/cpus can report clocks-since-startup that differ by several seconds due to being warmed up at different times during system boot. MSDN documents this as a possible BIOS bug, but it's common. So, who wants to develop low-latency trading systems on a platform that can't be instrumented properly? (There are solutions, but you won't find any software ones sitting conveniently in boost or ACE).

Many Linux/UNIX variants have lots of easily tweakable parameters to trade off latency for a single event against average latency under load, time slice sizes, scheduling policies etc.. On open source Operating Systems, there's also the assurance that comes with being able to refer to the code when you think something should be faster than it is, and the knowledge that a (potentially huge) community of people have been and are doing so critically - with Windows it's obviously mainly going to be the people who're assigned to look at it.

On the FUD/reputation side - somewhat intangible but an important part of the reasons for OS selection - I think most programmers in the industry would just trust Linux/UNIX more to provide reliable scheduling and behaviour. Further, Linux/UNIX has a reputation for crashing less, though Windows is pretty reliable these days, and Linux has a much more volatile code base than Solaris or FreeBSD.

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Windows client operating systems only allow one person to use RDP at a time. However Windows Terminal Server has been around forever (it was, in fact, the original use of RDP) and it allows as many connections as you have Client Access Licenses. Windows Server OSs come with the capability to have more than one remote user by default. If you could source the comment about scheduling then I would +1 here -- that part of the answer seems to be FUD at this point to me (the rest of the answer is good). YMMV. –  Billy ONeal Aug 29 '10 at 0:50
    
There is no UNIX/Linux scheduling. It's one of the areas in which implementations differ. And Linux in fact has had more than one scheduler choice (google Completely Fair Scheduler Linux for background), so you can't even say "Linux scheduling is reliable". –  MSalters Aug 30 '10 at 11:37
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@Billy: thanks for the correction re RDP - answer updated appropriately. Have made it clearer what's FUD/opinion, which I still believe to be relevant to the question. @MSalters: That's like saying there is no sport because there's soccer and tennis. UNIX/Linux scheduling can still be addressed collectively. And you can reasonably generalise, just as one can say playing sport is healthy.... –  Tony D Sep 6 '10 at 0:53

There are a variety of reasons, but the reason is not only historical. In fact, it seems as if more and more server-side financial applications run on *nix these days than ever before (including big names like the London Stock Exchange, who switched from a .NET platform). For client-side or desktop apps, it would be silly to target anything other than Windows, as that is the established platform. However, for server-side apps, most places that I have worked at deploy to *nix.

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Windows certainly was not the established desktop platform in 1990, when such trading systems were first developed. And if you needed serious performance on your desktop, 16 bits Windows was not an option. –  MSalters Aug 30 '10 at 11:33

I partially agree with most of the answers above. Though what I have realized is the biggest reason to use C++ is becuase it is relatively faster with a very vast STL library.

Apart from it, linux/unix system is also used to boost performance. I know many low latency team which go to a extent of tweaking the linux kernel. Obviously this level of freedom is not provided by windows.

Other reasons like legacy systems, license cost, resources count as well but are lesser driving factors. As "rjw" mentioned, I have seen teams use Java as well with a modified JVM.

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I second the opinions of historical and access to kernel manipulation.

Apart from those reasons I also believe that just like how they turn off garbage collection of .NET and the similar mechanism in Java when using these technologies in some low latency. They might avoid Windows because of the API's at high level which interact with low level os and then the kernel.

So the core is of course the kernel which can be interacted with using the low level os. The high level APIs are provided just to make the common users life easier. But in case of Low latency this turns out to be a fatty layer and fraction seconds loss around each operation. So a lucrative option for gaining few fraction seconds per call.

Apart from this another thing to consider is integration. Most of the servers, data centers, exchanges use UNIX not windows so using the clients of same family makes the integration and communication easier.

Then you have security issues (many people out there might not agree with this point though) hacking UNIX is not easy compared to hacking WINDOWS. I don't agree licensing must be the issue for banks because they shower money on every single piece of hardware and software and the people who customize them, so buying licenses will not be as bigger the issue when considered what they gain by purchasing.

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