VMworld then and now! (2013 vs 2014)

Last year I did an interview with Eric Sloof @esloof of VMworld TV (below) where we discussed the basics (or the 101) of Nutanix and this was the theme of questions from attendees throughout the Solutions Exchange.

Meet the team behind Nutanix VMworld 2013 – https://www.youtube.com/watch?v=T56KBaB3OUk

Jump forward to this years VMworld (2014) and I was lucky enough to get an opportunity to interview with  VMworld TV again. Eric and I agreed that we didn’t want a simple repeat of last years interview, but talk about more benefits of the platform (or the 201 level).

Nutanix speaks to VMworld TV about their exciting new products – https://t.co/brA15Zgcql

The interesting part of VMworld 2014 and my time on the booth, the theme of questions from attendees was significantly different from last year, and in large part was focused on Business Critical Applications and Server workloads from both prospective and existing customers.

One of my focusses over the last year has been Business Critical Applications and improving the Nutanix platform for these workloads. I am proud to say we (Nutanix) has made significant improvements in this area and we have a strong offering especially with the new NX-8150 platform which my team were responsible for designing.

I am looking forward to interviewing at next years VMworld and covering the Advanced/Expert level topics (301 level) with Eric and the fantastic VMworld TV crew.

Virtualizing Business Critical Applications – The Web-Scale Way!

Since joining Nutanix back in July 2013, I have been working on testing the performance and resiliency of a range of virtual workloads including Business Critical Applications on the Nutanix platform. At the time, Nutanix only offered a single form factor (4 nodes in 2RU) which was not always a perfect fit depending on customer requirements.

Fast forward to August 2014 and now Nutanix has a wide range of node types to meet most workload requirements which can be found here.

The only real gap in the node types was a node which would support applications with large capacity requirements and also have a very large active working set which requires consistent low latency and high performance regardless of tier.

So what do I mean when I say “Active working Set”. I would define this as a data being regularly accessed by the VM/s, for example a file server may have 10TB of data, but users only access 10% on a regular basis. This 10% I would classify as the Active Working Set.

Now back to the topic at hand, The reason I am writing this post is because this has been a project I have been working towards for some time, and I am very excited about this product being released to the market. I have no doubt it will further increase the already fast up take of the Web-scale solutions and provide significant value and opportunities to new and existing customers wanting to simplify their datacenter/s and standardize on Nutanix Web-scale architecture.

Along with many others at Nutanix, we proposed a new node type (being the NX-8150), which has been undergoing thorough testing in my team (Solutions & Performance Engineering) for some time and I am pleased to say is being officially released (very) soon!

nx8050

What is the NX-8150?

A 1 Node per 2RU platform with the following specifications:

* 2 CPU Sockets with two CPU options (E5-2690v2 [20 cores / 3.0 GHz] OR E5-2697v2 [24 cores / 2.7 GHz]
* 4 x Intel 3700 Series SSDs (ranging from 400GB to 1.6TB ea)
* 20 x 1TB SATA HDDs
* Up to 768GB RAM
* Up to 4 x 10GB NICs
* 4 x 1GB NICs
* 1 x IPMI (Out of band Management)

What is the use case for the NX-8150?

Simply put, Applications which have high CPU/RAM requirements with large active working sets and/or the requirement for consistent high performance over a large data set.

Some examples of these applications include:

* Microsoft Exchange including DAG deployments
* Microsoft SQL including Always on Availability Groups
* Oracle including RAC
* SAP
* Microsoft Sharepoint
* Mixed Production Server Workloads with varying Capacity & I/O requirements

The NX-8150 is a great platform for the above workloads as it not only has fast CPUs and up to a massive 768GB of RAM to provide substantial compute resources to VMs, but also up to a massive 6.4TB of RAW SSD capacity for Virtual machines with high IO requirements. For workloads where peak performance is not critical the NX-8150 also provides solid consistent performance across the “Cold Tier” provided by the 20 x 1TB HDDs.

As with all Nutanix nodes, Intelligent Life-cycle management (ILM) maximizes performance by dynamically migrating hot data to SSD and cold data to SATA to provide the best of both worlds being high IOPS and high capacity.

One of the many major advantages of Nutanix Web-Scale architecture is Simplicity and its ability to remove the requirement for application specific silos! Now with the addition of the NX-8150 the vast majority of workloads including Business Critical Applications can be ran successfully on Nutanix, meaning less silos are required, resulting in a simpler, more cost effective, scalable and resilient datacenter solution.

Now with a number of customers already placing advanced orders for NX-8150’s to deploy Business Critical Applications, it wont be long until the now common “Virtual 1st” policies within many organisations turns into a “Nutanix Web-Scale 1st” policy!

Stay tuned for upcoming case studies for NX-8150 based Web-Scale solutions!

Enterprise Architecture & Avoiding tunnel vision.

Recently I have read a number of articles and had several conversations with architects and engineers across various specialities in the industry and I’m finding there is a growing trend of SMEs (Subject Matter Experts) having tunnel vision when it comes to architecting solutions for their customers.

What I mean by “Tunnel Vision” is that the architect only looks at what is right in front of him/her (e.g.: The current task/project) , and does not consider the implications of how the decisions being made for this task may impact the wider I.T infrastructure and customer from a commercial / operational perspective.

In my previous role I saw this all to often, and it was frustrating to know the solutions being designed and delivered to the customers were in some cases quite well designed when considered in isolation, but when taking into account the “Big Picture” (or what I would describe as the customers overall requirements) the solutions were adding unnecessary complexity, adding risk and increasing costs, when new solutions should be doing the exact opposite.

Lets start with an example;

Customer “ACME” need an enterprise messaging solution and have chosen Microsoft Exchange 2013 and have a requirement that there be no single points of failure in the environment.

Customer engages an Exchange SME who looks at the requirements for Exchange, he then points to a vendor best practice or reference architecture document and says “We’ll deploy Exchange on physical hardware, with JBOD & no shared storage and use Exchange Database Availability Groups for HA.”

The SME then attempts to justify his recommendation with “because its Microsoft’s Best practice” which most people still seem to blindly accept, but this is a story for another post.

In fairness to the SME, in isolation the decision/recommendation meets the customers messaging requirements, so what’s the problem?

If the customers had no existing I.T and the messaging system was going to be the only I.T infrastructure and they had no plans to run any other workloads, I would say the solution proposed could be a excellent solution, but how many customers only run messaging? In my experience, none.

So lets consider the customer has an existing Virtual environment, running Test/Dev, Production and Business Critical applications and adheres to a “Virtual First” policy.

The customer has already invested in virtualization & some form of shared storage (SAN/NAS/Web Scale) and has operational procedures and expertises in supporting and maintaining this environment.

If we were to add a new “silo” of physical servers, there are many disadvantages to the customer including but not limited too;

1. Additional operational documentation for new Physical environment.

2. New Backup & Disaster Recovery strategy / documentation.

3. Additional complexity managing / supporting a new Silo of infrastructure.

4. Reduced flexibility / scalability with physical servers vs virtual machines.

5. Increased downtime and/or impact in the event hardware failures.

6. Increased CAPEX due to having to size for future requirements due to scaling challenges with physical servers.

So what am I getting at?

The cost of deploying the MS Exchange solution on physical hardware could potentially be cheaper (CAPEX) Day 1 than virtualizing the new workload on the existing infrastructure (which likely needs to be scaled e.g.: Disk Shelves / Nodes) BUT would likely result overall higher TCO (Total Cost of Ownership) due to increased complexity & operational costs due to the creation of a new silo of resources.

Both a physical or virtual solution would likely meet/exceed the customers basic requirement to serve MS Exchange, but may have vastly different results in terms of the big picture.

Another example would be a customer has a legacy SAN which needs to be replaced and is causing issues for a large portion of the customers workloads, but the project being proposed is only to address the new Enterprise messaging requirements. In my opinion a good architect should consider the big picture and try to identify where projects can be combined (or a projects scope increased) to ensure a more cost effective yet better overall result for the customer.

If the architect only looked at Exchange and went Physical Servers w/ JBOD, there is zero chance of improvement for the rest of the infrastructure and the physical equipment for Exchange would likely be oversized and underutilized.

It will in many cases be much more economical to combine two or more projects, to enable the purchase of a new technology or infrastructure components and consolidate the workloads onto shared infrastructure rather than building two or more silo’s which add complexity to the environment, and will likely result in underutilized infrastructure and a solution which is inferior to what could have been achieved by combining the projects.

In conclusion, I hope that after reading this article, the next time you or your customers embark on a new project, that you as the Architect, Project Manager, or Engineer consider the big picture and not just the new requirement and ensure your customer/s get the best technical and business outcomes and avoid where possible the use of silos.