Condusiv Technologies Blog

Condusiv Technologies Blog

Blogging @Condusiv

The Condusiv blog shares insight into the issues surrounding system and application performance—and how I/O optimization software is breaking new ground in solving those issues.

Which Processes are Using All of My System Resources?

by Gary Quan 17. July 2018 05:50

Over time as more files and applications are added to your system, you notice that performance has degraded, and you want to find out what is causing it. A good starting point is to see how the system resources are being used and which processes and/or files are using them.

Both Diskeeper® and SSDkeeper® contain a lesser known feature to assist you on this. It is called the System Monitoring Report which can show you how the CPU and I/O resources are being utilized, then digging down a bit deeper, which processes or files are using them.

Under Reports on the Main Menu, the System Monitoring Report provides you with data on the system’s CPU usage and I/O Activity.

 

The CPU Usage report takes the average CPU usage from the past 7 days, then provides a graph of the hourly usage on an average day. You can then see at which times the CPU resources are being hit the most and by how much.

Digging down some more, you can then see which processes utilized the most CPU resources.

 

The Disk I/O Activity report takes the average disk I/O activity from the past 7 days, then provides a graph of the hourly activity on an average day. You can then determine at which times the I/O activity is the highest.

Digging down some more, you can then see which processes utilized the I/O resources the most, plus what processes are causing the most split (extra) I/Os.

 

You can also see which file types have the highest I/O utilization as well as those causing the most split (extra) I/Os.  This can help indicate what files and related processes are causing this type of extra I/O activity.

 

So, if you are trying to see how your system is being used, maybe for performance issues, this report gives you a quick and easy look on how the CPU and Disk I/O resources are being used on your system and what processes and file types are using them. This along with some other Microsoft Utilities, like Task Manager and Performance Monitor can help you tune your system for optimum performance.

How to Improve Application Performance by Decreasing Disk Latency like an IT Engineer

by Spencer Allingham 13. June 2018 06:49

You might be responsible for a busy SQL server, for example, or a Web Server; perhaps a busy file and print server, the Finance Department's systems, documentation management, CRM, BI, or something else entirely.

Now, think about WHY these are the workloads that you care about the most?

 

Were YOU responsible for installing the application running the workload for your company? Is the workload being run business critical, or considered TOO BIG TO FAIL?

Or is it simply because users, or even worse, customers, complain about performance?

 

If the last question made you wince, because you know that YOU are responsible for some of the workloads running in your organisation that would benefit from additional performance, please read on. This article is just for you, even if you don't consider yourself a "Techie".

Before we get started, you should know that there are many variables that can affect the performance of the applications that you care about the most. The slowest, most restrictive of these is referred to as the "Bottleneck". Think of water being poured from a bottle. The water can only flow as fast as the neck of the bottle, the 'slowest' part of the bottle.

Don't worry though, in a computer the bottleneck will pretty much always fit into one of the following categories:

•           CPU

•           DISK

•           MEMORY

•           NETWORK

The good news is that if you're running Windows, it is usually very easy to find out which one the bottleneck is in, and here is how to do it (like an IT Engineer):

 •          Open Resource Monitor by clicking the Start menu, typing "resource monitor", and pressing Enter. Microsoft includes this as part of the Windows operating system and it is already installed.

 •          Do you see the graphs in the right-hand pane? When your computer is running at peak load, or users are complaining about performance, which of the graphs are 'maxing out'?

This is a great indicator of where your workload's bottleneck is to be found.         

 

SO, now you have identified the slowest part of your 'compute environment' (continue reading for more details), what can you do to improve it?

The traditional approach to solving computer performance issues has been to throw hardware at the solution. This could be treating yourself to a new laptop, or putting more RAM into your workstation, or on the more extreme end, buying new servers or expensive storage solutions.

BUT, how do you know when it is appropriate to spend money on new or additional hardware, and when it isn't. Well the answer is; 'when you can get the performance that you need', with the existing hardware infrastructure that you have already bought and paid for. You wouldn't replace your car, just because it needed a service, would you?

Let's take disk speed as an example.  Let’s take a look at the response time column in Resource Monitor. Make sure you open the monitor to full screen or large enough to see the data.  Then open the Disk Activity section so you can see the Response Time column.  Do it now on the computer you're using to read this. (You didn't close Resource Monitor yet, did you?) This is showing the Disk Response Time, or put another way, how long is the storage taking to read and write data? Of course, slower disk speed = slower performance, but what is considered good disk speed and bad?

To answer that question, I will refer to a great blog post by Scott Lowe, that you can read here...

https://www.techrepublic.com/blog/the-enterprise-cloud/use-resource-monitor-to-monitor-storage-performance/

In it, the author perfectly describes what to expect from faster and slower Disk Response Times:

"Response Time (ms). Disk response time in milliseconds. For this metric, a lower number is definitely better; in general, anything less than 10 ms is considered good performance. If you occasionally go beyond 10 ms, you should be okay, but if the system is consistently waiting more than 20 ms for response from the storage, then you may have a problem that needs attention, and it's likely that users will notice performance degradation. At 50 ms and greater, the problem is serious."

Hopefully when you checked on your computer, the Disk Response Time is below 20 milliseconds. BUT, what about those other workloads that you were thinking about earlier. What's the Disk Response Times on that busy SQL server, the CRM or BI platform, or those Windows servers that the users complain about?

If the Disk Response Times are often higher than 20 milliseconds, and you need to improve the performance, then it's choice time and there are basically two options:

           In my opinion as an IT Engineer, the most sensible option is to use storage workload reduction software like Diskeeper for physical Windows computers, or V-locity for virtualised Windows computers. These will reduce Disk Storage Times by allowing a good percentage of the data that your applications need to read, to come from a RAM cache, rather than slower disk storage. This works because RAM is much faster than the media in your disk storage. Best of all, the only thing you need to do to try it, is download a free copy of the 30 day trial. You don't even have to reboot the computer; just check and see if it is able to bring the Disk Response Times down for the workloads that you care about the most.

           If you have tried the Diskeeper or V-locity software, and you STILL need faster disk access, then, I'm afraid, it's time to start getting quotations for new hardware. It does make sense though, to take a couple of minutes to install Diskeeper or V-locity first, to see if this step can be avoided. The software solution to remove storage inefficiencies is typically a much more cost-effective solution than having to buy hardware!

Visit www.condusiv.com/try to download Diskeeper and V-locity now, for your free trial.

 

The Inside Story of Condusiv’s “No Reboot” Quest

by Rick Cadruvi, Chief Architect 17. April 2018 04:57

In a world of 24/7 uptime and rare reboot windows, one of our biggest challenges as a company has simply been getting our own customers upgraded to the latest version of our I/O reduction software.

In the last year, we have done dashboard review sessions with a substantial number of customers to demonstrate the power of our latest versions to hybrid and all-flash arrays, hyperconverged systems, Azure/AWS, local SSDs, and more. However, many remain undone simply because customers can’t find the time for reboot windows to upgrade to the latest versions with the most powerful engines and new benefits dashboard. This has been particularly challenging for customers with hundreds to thousands of servers.

Even though we own the trademark term, “Set It and Forget It®,” there was always one aspect that wasn’t, and that’s the fact that it required a reboot to install or upgrade.

Herein lies the problem – important components of our software sit at the storage driver level. At least to the best of our knowledge, all other software vendors who sit at that layer also require a reboot to install or upgrade. So, consider our engineering challenge to take on a project most people wouldn’t know was even solvable.

Let’s start with an explanation as to why this barrier existed. Our software contains several filter drivers that allow us to implement leading edge performance enhancing technologies.  Some of them act at the Windows File System level. Windows has long provided a Filter Manager that allows developers to create File System and Network filter drivers that can be loaded and unloaded without requiring a reboot.  You will quickly recognize that Anti-Malware and Data Backup/Recovery software tends to be the principle targets for this Filter Manager. There are also products such as data encryption that benefit from the Windows Filter Manager. And, as it turns out, we benefit because some of our filter drivers run above the File System.

However, sometimes a software product needs to be closer to the physical hardware itself. This allows a much broader view of what is going on with the actual I/O to the physical device subsystem. There are quite a few software products that need this bigger view. It turns out that we do also.  One of the reasons, is to allow our patented IntelliMemory® caching software to eliminate a huge amount of noisy I/O that creates substantial, yet preventable, bottlenecks to your application. This is I/O that your application wouldn’t even recognize as problematic to its performance, nor would you. Because we have a global view, we can eliminate a large percentage of I/Os from having to go to storage, while using very limited system resources. We also have other technologies that benefit from our telemetry disk filter that helps us see a more global picture of storage performance and what is actually causing bottlenecks. This allows us to focus our efforts on the true causes of those bottlenecks, giving our customers the greatest bang for their buck.  Because we collect excellent empirical data about what is causing the bottlenecks, we can apply very limited and targeted system resources to deliver very significant storage performance increases. Keep in mind, the limited CPU cycles we use operate at lowest priority and we only use resources that are otherwise idle, so the benefits of our engines are completely non-intrusive to overall server performance.

Why does the above matter? Well, the Microsoft Filter Manager doesn’t provide support for most driver stacks and this includes the parts of the storage driver stack below the File System. That means that our disk filter drivers couldn’t actually start providing their benefits upon initial install until after a reboot. If we add new functionality to provide even greater storage performance via a change to one of our disk filter drivers, a reboot was required after an update before the new functionality could be brought to bear.

Until now we just lived with the restrictions. We didn’t live with it because we couldn’t create a solution, but because we anticipated that the frequency of Windows updates, especially security-based updates, would start to increase the frequency of server reboot requirements and the problem would, for all intents and purposes, become manageable. Alas, our hopes and dreams in this area failed to materialize. 

We’ve been doing Windows system and especially kernel software development for decades. I just attended Plugfest 30 for file system filter driver developers.  This is a Microsoft event to ensure high-quality standards for products with filter drivers like ours. We were also at the first Plugfest nearly two decades ago. In addition, we also wrote the Windows NTFS file system component to allow safe, live file defragmentation for Windows NT dating back to the Windows NT 3.51 release.  That by itself is an interesting story, but I’ll leave that for another time.

Anyway, we finally realized that our crystal ball prediction about an increase in the frequency of Windows Server reboots due to Windows Update cycles (patch Tuesday?) was a little less clear than we had hoped. Accepting that this problem wasn’t going away, we set out to create our own Filter Manager to provide a mechanism that allowed filter drivers on stacks not supported by the Microsoft Filter Manager to be inserted and removed without the reboot requirement. This was something we’ve been considering, talked about with other software vendors in a similar situation, and even prototyped before. The time had finally come where we needed to facilitate our customers in getting the significant increased performance from our software immediately instead of waiting for reboot opportunities.

We took our decades of experience and knowledge of Windows Operating System internals and experience developing Kernel software and aimed it at giving our customers the relief from this limitation. The result is in our latest release of V-locity® 7.0, Diskeeper® 18, and SSDkeeper™ 2.0. 

We’d love to hear your stories about how this revolutionary enablement technology has made a difference for you and your organization.

Tags:

Diskeeper | V-Locity

Condusiv Smashes the I/O Performance Gap with New V-locity 7.0, Diskeeper 18, and SSDkeeper 2.0

by Brian Morin 6. April 2018 08:37

Condusiv is pleased to announce the release of V-locity® 7.0, Diskeeper® 18, and SSDkeeper 2.0 that smash the I/O Performance Gap on Windows servers and PCs as growing volumes of data continue to outpace the ability of underlying server and storage hardware to meet performance SLAs on mission critical workloads like MS-SQL.

The new 2018 editions of V-locity, Diskeeper, and SSDkeeper come with “no reboot” capabilities and enhanced reporting that offers a single pane view of all systems to show the exact benefit of I/O reduction software to each system in terms of number of noisy I/Os eliminated, percentage of read and write traffic offloaded from storage, and, most importantly, how much time is saved on each system as a result. It is also now easier than ever to quickly identify systems underperforming from a caching standpoint that could use more memory.

When a minimum of 30-40% I/O traffic from any Windows server is completely unnecessary, nothing but mere noise chewing up IOPS and throughput, it needs to be easy to see the exact levels of inefficiency on individual systems and what it means in terms of I/O reduction and “time saved” when Condusiv software is deployed to eliminate those inefficiencies. Since many customers choose to add a little more memory on key systems like MS-SQL to get even more from the software, it is now clearly evident what 50% or more reduction in I/O traffic actually means.

Our recent 4th annual I/O Performance Survey (no Condusiv customers included) found that MS-SQL performance problems are at their worst level in 4 years despite heavy investments in hardware infrastructure. 28% of mid-sized and large enterprises receive regular complaints from users regarding sluggish SQL-based applications. This is simply due to the growth of I/O outpacing the hardware stack’s ability to keep up. This is why it is more important than ever to consider I/O reduction software solutions that guarantee to solve performance issues instead of reactively throwing expensive new servers or storage at the problem.

Not only are the latest versions of V-locity, Diskeeper, and SSDkeeper easier to deploy and manage with “no reboot” capabilities, but reporting has been enhanced to enable administrators to quickly see the full value being provided to each system along with memory tuning recommendations for even more benefit.

A single pane view lists out all systems with associated workload data, memory data, and benefit data from I/O reduction software and lists systems as red, yellow, and green according to caching effectiveness to help administers quickly identify and prioritize systems that could use a little more memory to achieve a 50% or more reduction in I/O to storage.

Regarding the new “no reboot” capabilities, this is something that the engineering team has been attempting to crack for some time.  Per Rick Cadruvi, SVP, Engineering, “All storage filter drivers require a reboot, which is problematic for admins who manage software across thousands of servers. However, due to our extensive knowledge of Windows Kernel internals dating back to Windows NT 3.51, we were able to find a way to properly synchronize and handle the load/unload sequences of our driver transparently to other drivers in the storage stack so as not to require a reboot when deploying or updating Condusiv software.” 

Fore more on Condusiv’s quest for “no reboot” capabilities, see this blog by Rick Cadruvi, SVP Engineering: The Inside Story of Condusiv's No Reboot Quest 

This means that customers who are currently on V-locity 5.3 and higher or Diskeeper 15 and higher are able to upgrade to the latest version without a reboot. Customers on older versions will have to uninstall, reboot, then install the new version.

"As much as Condusiv I/O reduction software has been a real benefit to our applications running across 2,500+ Windows servers, we are happy to see a no reboot version of the software released so it is now truly "Set It & Forget It"®. My team is happy they no longer have to wrestle down a reboot window for hundreds of servers in order to update or deploy Condusiv software," said Blake W. Smith, MSME, System Director, Enterprise Infrastructure, CHRISTUS Health.

 

I’m a MEDITECH Hospital with SSDs, Is FAL Growth Still an Issue that Risks Downtime?

by Brian Morin 4. December 2017 07:34

Now that many MEDITECH hospitals have gone all-flash for their backend storage, one of the most common questions we field is whether or not there is still downtime risk from the File Attribute List (FAL) growth issue if the data physically lives on solid-state drives (SSDs).

The main reason this question comes up is because MEDITECH requires “defragmentation,” which most admins insinuate as only being a requirement for a spinning disk backend. That misnomer couldn’t be further from the truth as the FAL issue has nothing to do with the backend media but rather the file system itself. Clearly, defragmentation processes are damaging to solid-state media, which is why MEDITECH hospitals turn to Condusiv’s V-locity® I/O reduction software that prevents fragmentation from occurring in the first place and has special engines designed for MEDITECH environments to remediate the FAL from reaching its size limit and causing unscheduled downtime.

The File Attribute List is a Windows NTFS file metadata structure referred to as the FAL. ThFAstructure capointdifferentypeofilattributessucasecuritattributeostandarinformatiosuch acreatioanmodificatiodateandmosimportantlythactuadatcontainewith ithfileFoexamplethFAkeeps tracowheralthdatifothfileThFAactuallcontains pointers to file records thaindicatthlocatioothfildatothvolumeIthadathatbe storeadifferenlogic allocationothvolume (i.e.fragmentation), morpointerarrequired. This iturincreasethsizothFALHereiliethproblemthFAL sizhaauppelimitatioo256KB which is comprised of 8192 attribute entriesWhethalimiireachednmorpointercan be added, whicmeans Nmore datcan baddetthfileAnd, iit is a foldefile whickeeps tracoalthfiletharesidundethafolderNmorfilecabaddeundethafoldefile. Once this occurs, the application crashes, leading to a best case scenario of several hours of unscheduled downtime to resolve.

Although this blog points out MEDITECH customers experiencing this issue, we have seen this FAL problem occur within non-MEDITECH environments like MS-Exchange and MS-SQL, with varying types of backend storage media from HDDs to all-flash arrays. So, what can be done about it?

The logical solution would be–why not just defragment the volume? Wouldn’t that decrease the number of pointers and decrease the FAL size? The problem is that traditional defragmentation actually causes the FAL to grow in size! While it can decrease the number of pointers, it will not decrease the FAL size, but in fact, it can cause the FAL size to groeven larger, making the problem worse even though you are attempting to remediate it.

The only proprietary solution to solve this problem is by using Condusiv’s V-locity® for virtual servers or Diskeeper® Server for physical servers. Included is a special technology called MediWrite®, which helps suppress this issue from occurring in the first place and provides special handling if it has already occurred. MediWrite includes:

>Unique FAL handling: As indicated above,traditional methods of defragmentation will cause the FAL to groeven further in size. MediWrite will detect when files have FAL size issues and will use proprietary methods to prevent FAL growth. This is the only engine of its kind in the industry.

>Unique FAL safe file movement:  V-locity and Diskeeper’s free space consolidation engines automatically detect FAL size issues and automatically deploy the MediWrite feature to resolve.

>Unique FAL growth prevention: Along with MediWrite, V-locity and Diskeeper contain another very important technology called IntelliWrite® which automatically prevents new fragmentation from occurring. By preventing new fragmentation from occurring, IntelliWrite minimizes any further FAL size growth issues.

>Unique Offline FAL Consolidation tool: Any MEDITECH hospital that already has an FAL issue can use the embedded offline tool to shrink the FAL-IN-USE size in a very short time (~5 min) as opposed to manual processes that take several hours.

>V-locity and Diskeeper have been endorsed by MEDITECH. Click Here to view.

 

 

RecentComments

Comment RSS

Month List

Calendar

<<  September 2018  >>
MoTuWeThFrSaSu
272829303112
3456789
10111213141516
17181920212223
24252627282930
1234567

View posts in large calendar