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.

How to Achieve 2X Faster MS-SQL Applications

by Brian Morin 8. November 2017 05:31

By following the best practices outlined here, we can virtually guarantee a 2X or faster boost in your MS-SQL performance with our I/O reduction software.

  1) Don’t just run our I/O reduction software on the SQL Server instances but also on the application servers that run on top of MS-SQL

- It’s not just SQL performance that needs improvement, but the associated application servers that communicate with SQL. Our software will eliminate a minimum of 30-40% of the I/O traffic from those systems.

  2) Run our I/O reduction software on all the non-SQL systems on the same host/hypervisor

- Sometimes a customer is only concerned with improving their SQL performance, so they only install our I/O reduction software on the SQL Server instances. Keep in mind, the other VMs on the same host/hypervisor are interfering with the performance of your SQL instances due to chatty I/O that is contending for the same storage resources. Our software eliminates a minimum of 30-40% of the I/O traffic from those systems that is completely unnecessary, so they don’t interfere with your SQL performance.

- Any customer that is on the core or host pricing model is able to deploy the software to an unlimited number of guest machines on the same host. If you are on per system pricing, consider migrating to a host model if your VM density is 7 or greater.

  3) Cap MS-SQL memory usage, leaving at least 8GB left over

- Perhaps the largest SQL inefficiency is related to how it uses memory. SQL is a memory hog. It takes everything you give it then does very little with it to actually boost performance, which is why customers see such big gains with our software when memory has been tuned properly. If SQL is left uncapped, our software will not see any memory available to be used for cache, so only our write optimization engine will be in effect. Moreover, most DB admins cap SQL, leaving 4GB for the OS to use according to Microsoft’s own best practice.

- However, when using our software, it is best to begin by capping SQL a little more aggressively by leaving 8GB. That will give plenty to the OS, and whatever is leftover as idle will be dynamically leveraged by our software for cache. If 4GB is available to be used as cache by our software, we commonly see customers achieve 50% cache hit rates. It doesn’t take much capacity for our software to drive big gains.

  4) Consider adding more memory to the SQL Server

- Some customers will add more memory then limit SQL memory usage to what it was using originally, which leaves the extra RAM left over for our software to use as cache. This also alleviates concerns about capping SQL aggressively if you feel that it may result in the application being memory starved. Our software can use up to 128GB of DRAM. Those customers who are generous in this approach on read-heavy applications get into otherworldly kind of gains far beyond 2X with >90% of I/O served from DRAM. Remember, DRAM is 15X faster than SSD and sits next to the CPU.

  5) Monitor the dashboard for a 50% reduction in I/O traffic to storage

- When our dashboard shows a 50% reduction in I/O to storage, that’s when you know you have properly tuned your system to be in the range of 2X faster gains to the user, barring any network congestion issues or delivery issues.

- As much as capping SQL at 8GB may be a good place to start, it may not always get you to the desired 50% I/O reduction number. Monitor the dashboard to see how much I/O is being offloaded and simply tweak memory usage by capping SQL a little more aggressively. If you feel you may be memory constrained already, then add a little more memory, so you can cap more aggressively. For every 1-2GB of memory added, another 10-25% of read traffic will be offloaded.


Not a customer yet? Download a free trial of Condusiv I/O reduction software and apply these best practice steps at


New Dashboard Finally Answers the Big Question

by Brian Morin 25. October 2017 04:38

After surveying thousands of IT professionals, we’ve found that the vast majority agree that Windows performance degrades over time – they just don’t agree on how much. Unbeknown to most is what the problem actually is, which is I/O degradation as the size of writes and reads become excessively smaller than they should. This inefficiency is akin to moving a gallon of water across a room with dixie cups instead of a single gallon jug. Even if you have all-flash storage and can move those dixie cups quickly, you are still not processing data nearly as fast as you could.

In the same surveys, we’ve also found that the vast majority of IT professionals are aware of the performance penalty of the “I/O blender” effect in a virtual environment, which is the mixing and randomizing of I/O streams from the disparate virtual machines on the same host. What they don’t agree on is how much. And, they are not aware of how the issue is compounded by Windows write inefficiencies.

Now that the latest Condusiv in-product dashboard has been deployed across thousands of customer systems who have upgraded their Condusiv I/O reduction software to the latest version, customers are getting their first-ever granular view into what I/O reduction software is doing for their systems in terms of seeing the exact percentage and number of read and write I/O operations eliminated from storage and how much I/O time that saves any given system or group of systems. Ultimately, it’s a picture into the size of the problem – all the I/O traffic that is mere noise – all the unnecessary I/O that dampens system performance.

In our surveys, we found IT professionals all over the map on the size of the performance penalty from inefficiencies. Some are quite positive the performance penalty is no more than 10%. More put that range at 20%. Most put it at 30%. Then it dips back down with fewer believing a 40% penalty with the fewest throwing the dart at 50%.

As it turns out, our latest version has been able to drop a pin on that.

There are variances that move the extent of the penalty on any given workload such as system configuration and/or workload behavior. Some systems might be memory constrained, some workloads might be too light to matter, etc.

However, after thousands of installs over the last several months, we see a very consistent range on the vast majority of systems in which 30-40% of all I/O traffic is being offloaded from underlying storage with our software. Not only does that represent an immediate performance boost for users, but it also means 30-40% of I/O headroom is handed back to the storage subsystem that can now use those IOPS for other things.

The biggest factor to consider is the 30-40% improvement number represents systems where memory has not been increased beyond the typical configuration that most administrators use. Customers who offload 50% or more of I/O traffic from storage are the ones with read heavy workloads who beef up memory server-side to get more from the software. For every additional 1-2GB of memory added, another 10-25% of read traffic is offloaded. Some customers are more aggressive and leverage as much memory as possible server-side to offload 90% or more I/O traffic on read-heavy applications.

As expensive as new all-flash systems are, how much sense does it make to pay for all those IOPS only to allow 30-40% of those IOPS to be chewed up by unnecessary, noisy I/O? By addressing the two biggest penalties that dampen performance (Windows write inefficiencies compounded by the “I/O blender” effect), Condusiv I/O reduction software ensures optimal performance and protects the CapEx investments made into servers and storage by extending their useful life.


Disruption, Application Performance, IOPS | virtualization | V-Locity

The Revolution of Our Technology

by Rick Cadruvi, Chief Architect 18. October 2017 12:38

I chose to use the word “Revolution” instead of “Evolution” because, with all due modesty, our patented technology has been more a series of leaps to stay ahead of performance-crushing bottlenecks. After all, our company purpose as stated by our Founder, Craig Jensen, is:

“The purpose of our company is to provide computer technology that enormously increases

the production and income of an area.”

We have always been about improving your production. We know your systems are not about having really cool hardware but rather about maximizing your organization’s production. Our passion has been about eliminating the stops, slows and stalls to your application performance and instead, to jack up that performance and give you headroom for expansion. Now, most of you know us by our reputation for Diskeeper®. What you probably don’t know about us is our leadership in system performance software.

We’ve been at this for 35 years with a laser focus. As an example, for years hard drives were the common storage technology and they were slow and limited in size, so we invented numerous File System Optimization technologies such as Defragmentation, I-FAAST®1 and Directory Consolidation to remove the barriers to getting at data quickly. As drive sizes grew, we added new technologies and jettisoned those that no longer gave bang for the buck. Technologies like InvisiTasking® were invented to help maximize overall system performance, while removing bottlenecks.

As SSDs began to emerge, we worked with several OEMs to take advantage of SSDs to dramatically reduce data access times as well as reducing the time it took to boot systems and resume from hibernate. We created technologies to improve SSD longevity and even worked with manufacturers on hybrid drives, providing hinting information, so their drive performance and endurance would be world class.

As storage arrays were emerging we created technologies to allow them to better utilize storage resources and pre-stage space for future use. We also created technologies targeting performance issues related to file system inefficiencies without negatively affecting storage array technologies like snapshots.

When virtualization was emerging, we could see the coming VM resource contention issues that would materialize. We used that insight to create file system optimization technologies to deal with those issues before anyone coined the phrase “I/O Blender Effect”.

We have been doing caching for a very long time2. We have always targeted removal of the I/Os that get in your applications path to data along with satisfying the data from cache that delivers performance improvements of 50-300% or more. Our goal was not caching your application specific data, but rather to make sure your application could access its data much faster. That’s why our unique caching technology has been used by leading OEMs.

Our RAM-based caching solutions include dynamic memory allocation schemes to use resources that would otherwise be idle to maximize overall system performance. When you need those resources, we give them back. When they are idle, we make use of them without your having to adjust anything for the best achievable performance. “Set It and Forget It®” is our trademark for good reason.

We know that staying ahead of the problems you face now, with a clear understanding of what will limit your production in 3 to 5 years, is the best way we can realize our company purpose and help you maximize your production and thus your profitability. We take seriously having a clear vision of where your problems are now and where they will be in the future. As new hardware and software technologies roll out, we will be there removing the new barriers to your performance then, just as we do now.

1. I-FAAST stands for Intelligent File Access Acceleration Sequencing Technology, a technology designed to take advantage of different performing regions on storage to allow your hottest data to be retrieved in the fastest time.

2. If I can personally brag, I’ve created numerous caching solutions over a period of 40 years.

University of Illinois Doubles SQL and Oracle Performance on All-Flash Arrays with V-locity® I/O Reduction Software

by Brian Morin 19. May 2017 11:00

The University of Illinois, had already deployed an all-flash Dell Compellent storage array to support their hardest hitting application, AssetWorks AiM, that runs on Oracle. After a year in service, performance began to erode due to growth in users and overall workload. Other hard hitting MS-SQL applications supported by hybrid arrays were suffering performance degradation as well.

The one common denominator is that all these applications ran on Windows servers – Windows Server 2012R2.

“As we learned through this exercise with Condusiv’s V-locity I/O reduction software, we were getting hit really hard by thousands of excessively small, tiny writes and reads that dampened performance significantly,” said Greg Landes, Manager of Systems Services. “Everything was just slower due to Windows Server write inefficiencies that break writes down to be much smaller than they need to be, and forces the all-flash SAN to process far more I/O operations than necessary for any given workload.”

Landes continued, “When you have a dump truck but are only filling it a shovelful at a time before sending it on, you’re not getting near the payload you should get with each trip. That’s the exact effect we were getting with a surplus of unnecessarily small, fractured writes and subsequent reads, and it was really hurting our storage performance, even though we had a really fast ‘dump truck.’ We had no idea how much this was hurting us until we tried V-locity to address the root-cause problem to get more payload with every write. When you no longer have to process three small, fractured writes for something that only needs one write and a single I/O operation, everything is just faster.”

When testing the before-and-after effect on their production system, Greg and his team first measured without V-locity. It took 4 hours and 3 minutes to process 1.57TB of data, requiring 13,910,568 I/O operations from storage. After V-locity, the same system processed 2.1TB of data in 1 hour and 6 minutes, while only needing to process 2,702,479 I/O operations from underlying storage. “We processed half a terabyte more in a quarter of the time,” said Landes.

“Not only did V-locity dramatically help our write-heavy MS-SQL and Oracle Servers by increasing performance 50–100% on several workloads, we saw even bigger gains on our read heavy applications that could take advantage of V-locity’s patented DRAM caching engine, that put our idle, unused memory to good use. Since we had provisioned adequate memory for these I/O-intensive systems, we were well positioned to get the most from V-locity.”

“We thought we were getting the most performance possible from our systems, but it wasn’t until we used V-locity that we realized how inefficient these systems really are if you’re not addressing the root cause performance issues related to the I/O profile from Windows servers. By solving the issue of small, fractured, random I/O, we’ve been able to increase the efficiency of our infrastructure and, ultimately, our people,” said Landes.


General | SAN | Success Stories | virtualization | V-Locity | Windows Server 2012

Condusiv Launches SSDkeeper Software that Guarantees “Faster than New” Performance for PCs and Physical Servers and Extends Longevity of SSDs

by Brian Morin 17. January 2017 09:30

The company that sold over 100 Million Diskeeper® licenses for hard disk drive systems, now releases SSDkeeper™ to keep solid-state drive systems running longer while performing “faster than new.”

Every Windows PC or physical server fitted with a solid-state drive (SSD) suffers from very small, fractured writes and reads, which dampen optimal SSD performance and ultimately erodes the longevity of SSDs from write amplification issues. SSDkeeper’s patented software ensures large, clean contiguous writes and reads for more payload with every I/O operation, reduced Program/Erase (P/E) cycles that shorten SSD longevity, and boosts performance even further with its ability to cache hot reads within idle, available DRAM.

Solid-state drives can only handle a number of finite writes before failing. Every write kicks off P/E cycles that shorten SSD lifespan otherwise known as write amplification. By reducing the number of writes required for any given file or workload, SSDkeeper significantly boosts write performance speed while also reducing the number of P/E cycles that would have otherwise been executed. This enables individuals and organizations to reclaim the write speed of their SSD drives while ensuring the longest life possible.

Patented Write Optimization

SSDkeeper’s patented write optimization engine (IntelliWrite®) prevents excessively small, fragmented writes and reads that rob the performance and endurance of SSDs. SSDkeeper ensures large, clean contiguous writes from Windows, so maximum payload is carried with every I/O operation. By eliminating the “death by a thousand cuts” scenario of many, tiny writes and reads that slow system performance, the lifespan of an SSD is also extended due to reduction in write amplification issues that plague all SSD devices.

Patented Read Optimization

SSDkeeper electrifies Windows system performance further with an additional patented feature - dynamic memory caching (IntelliMemory®). By automatically using idle, available DRAM to serve hot reads, data is served from memory which is 12-15X faster than SSD and further reduces wear to the SSD device. The real genius in SSDkeeper’s DRAM caching engine is that nothing has to be allocated for cache. All caching occurs automatically. SSDkeeper dynamically uses only the memory that is available at any given moment and throttles according to the need of the application, so there is never an issue of resource contention or memory starvation. If a system is ever memory constrained at any point, SSDkeeper's caching engine will back off entirely. However, systems with just 4GB of available DRAM commonly serve 50% of read traffic. It doesn't take much available memory to have a big impact on performance.

Enhanced Reporting

If you ever wanted to know how much Windows inefficiencies were robbing system performance, SSDkeeper tracks time saved due to elimination of small, fragmented writes and time saved from every read request that is served from DRAM instead of being served from the underlying SSD. Users can leverage SSDkeeper’s built-in dashboard to see what percentage of all write requests are reduced by sequentializing otherwise small, fractured writes and what percentage of all read requests are cached from idle, available DRAM.

SSDkeeper is a lightweight file system driver that runs invisibly in the background with near-zero intrusion on system resources. All optimizations occur automatically in real-time.

While SSDkeeper provides the same core patented functionality and features as the latest Diskeeper® 16 for hard disk drives (minus defragmentation functions for hard disk drives only), the benefit to a solid-state drive is different than to a hard disk drive. Hard disk drives do not suffer from write amplification that reduces longevity. By eliminating excessively small writes, IntelliWrite goes beyond improved write performance but extends endurance as well.

Available in Professional and Server Editions

>SSDkeeper Professional for Windows PCs with SSD drives greatly enhances the performance of corporate laptops and desktops.

>SSDkeeper Server speeds physical server system performance of the most I/O intensive applications such as MS-SQL Server by 2X to 10X depending on the amount of idle, unused memory.  

>Options include Diskeeper Administrator management console to automate network deployment and management across hundreds or thousands of PCs or servers.  

>A free 30-day software trial download is available at

>Now available for purchase on our online store:


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