Nehalem-EX: Big Memory for Big Science

I was at SuperComputing’09 last week in Portland, Oregon. I talked with some brilliant people, and saw some fantastic stuff.

It was good timing on my part because last week Intel also announced that it would offer a 6-core, frequency-optimized version of its Nehalem-EX product due out next year. This part is intended for use in tackling some of the types of high performance computing (HPC) workloads prominently displayed at SC’09.

Most people know that the majority of HPC workloads today are based on clusters of relatively small-memory, 2-socket systems. That is because most HPC workloads may be broken into smaller, discrete units of work that can be efficiently processed using such clusters. For these workloads the primary hardware capability selection criterion is typically a balance of both memory bandwidth and compute FLOPs (floating point operations per second).

But there are other types of HPC workloads. Specifically, those that deal with very large datasets (some as large as a terabyte) or those that have to deal with non-sequential memory access. This means the workloads simply aren’t easily divisible--or it is inefficient to do so-- into the relatively small memory footprints used in traditional clustered 2-socket HPC solutions. Examples of these types of bigger memory applications can be found in a variety of fields such as weather prediction, manufacturing structure analysis, and financial services.

The high-speed processing requirements and size of these workloads put a greater premium on system memory capacity/bandwidth than on compute FLOPs.

If the larger dataset won’t fit into available memory, and dividing up the dataset to spread across multiple nodes cannot easily be done, then data has to be moved in and out memory to hard disk.  But using hard disk drives (which are many times slower than RAM memory) can drastically impair performance.

There are now two better alternatives to the use of hard drivers. One is SSDs and the other is having a larger memory footprint. Solid State Drives have fairly high data density vs RAM, but much faster access than hard-disk drives--albeit still markedly slower than RAM. Another solution is to simply have more capacity of the faster RAM. This last one is what the Nehalem-EX HPC part is aimed at.

Nehalem-EX is the Expandable Class of Nehalem. The Expandable Class brings all the goodness of the Nehalem architecture (Xeon 5500 product line) to the HPC market, but in the form of a “super node” that has greater: a) core/thread count, b) socket scaling (up to 256), c) I/O and memory capacity (up to 1 terabyte in a 4 socket system) and bandwidth at capacity, d) reliability features, e) and other features.

The 6-core frequency-optimized Nehalem-EX part has also been tuned to offer the highest core frequency possible for this chip.   In creating this part, Intel is meeting the needs of the HPC community that want higher scalar performance along with the benefit of large memory capacity and bandwidth per core.

Of course the 8-core version of NHM-EX is still an option for those HPC workloads that scale well with more cores while still looking for the high memory capacity of the expandable class.

By having both 8-core and frequency optimized 6-core versions of the NHM-EX class of processors means HPC researchers have greater choice in selecting the processor best suited for their specific workloads.

After talking with some of the researchers at SC’09 last week I’m really excited to see how the Nehalem-EX “super node” will deliver the necessary compute and memory capabilities to help those researchers solve some of their biggest challenges.

Prior to the Intel Xeon X5500 Server Platforms*, measuring server power was done via expensive equipment and could only be performed in a discrete fashion.  Unless you had tons of monitoring equipment to mash-up your power data - it was a tedious process.  Now, using Intel DCM and Node Manager - you can pull multiple servers worth of power info to make some important power decisions in your datacenter.

First of all, you need to baseline your workload.  If you're confident that you can replicate workload patterns then you've got a starting point.  Otherwise, it's usually a good idea to start monitoring and looking for some cyclical patterns and/or common data points (time, power, thermals, etc) to keep track of.

In this scenario (like in my last blog) we're using a SQL workload which can be modified to run the CPU at high levels for a relatively set amount of time.  The base workload runs for 7 min 30 seconds, as shown in the Intel DCM screencap below.

In this test case: Idle power for the 4 servers is 782W, and under load - the power increases to 1174W - which is a delta of 392W.  This power increase occurs when work is given to the server and the P/T states react to the workload and increase power/voltage to the system to increase performance.  Exactly what we've been used to seeing even since EIST was introduced several years ago.

Now, what I'll show you is something that may be very interesting in scale... I will power cap the servers by 20W each, and set the Intel DCM Power Policy to only allow 1095W for the 4 servers in the rack.

What is awesome here is that we can still finish the workload in the same 7 minutes 30 seconds.  So essentially, we have saved 80W of power for each set of 4 servers and still get the same amount of work completed!  In a large datacenter this can be HUGE in energy savings.

Let's do some quick math:  20W power savings per serer x 10,000 servers = 20kW power savings and you still get the work done.  I hope I just helped some of you server admins get some new ideas on your next "I need a raise" talk with your manager

*your mileage may vary, so test your own workloads and report out!

Why migrate? Why now?

There has never been a better time to migrate your proprietary RISC servers running UNIX(R) to Intel(R) Xeon(R) processor-powered Dell™ PowerEdge™ servers running Red Hat(R) Enterprise Linux(R) Why? Four compelling reasons. First, cost, cost, and cost again. This industry-standard platform can reduce your capital expenditures as well as your operational costs for a lower total cost of ownership (TCO). Second, choice and flexibility. Because you’re not locked into proprietary technologies, you have substantial choices that keep you nimble and agile no matter how your business needs evolve. Third, simplicity. The Red Hat-Dell-Intel platform just works. And acquiring all the products and services you need from one source–Dell–reduces the complexities of both technology procurement and support.  Finally, performance. In these challenging economic times, migrating from RISC and UNIX to a Red Hat-Dell-Intel solution is an easy and fast way to accomplish more with less, bringing true value to your business.

Power Your Enterprise

Because Red Hat Enterprise Linux is optimized for the Intel Xeon processor on which Dell PowerEdge servers are based, you can support your business’s most demanding  challenges. For starters, Red Hat Enterprise Linux 5.3 takes advantage of the Intel Xeon processor 5500 series to deliver more than twice the performance compared toprevious generation Intel processors.1 Because Red Hat Enterprise Linux incorporates Intel’s energy efficiency enhancements, such as integrated power gates and automated low power states to support low-latency changes among power states, you can lower power consumption during off-peak times. This has the additional benefit of reducing datacenter cooling requirements. You achieve previously unattainable scalability with support for up to 255 central processing units (CPUs) and one terabyte of memory. And Red Hat Enterprise Linux supports Intel Hyper-Treading Technology to enable advanced parallel computing.

Learn More

To learn more about migrating from a proprietary RISC /UNIX platform to a Red Hat, Dell, Intel solution navigate to http://www.redhat.com/intelligence/, then click on White Papers.

Every day, Intel® technology and platforms help companies solve business problems and challenges. Here are a few of the growing number of stories and reasons for choosing Intel processors and technology.

Winning: Humana – Healthcare product and services company

Humana continues to refresh its infrastructure with more powerful, energy-efficient technologies. For Humana, technology is vital for providing information and a full array of health benefit services to members. To replace an outdated facility, the company worked with Intel to design a state-of-the-art data center with a compact, energy-efficient infrastructure that could deliver flexibility and scalability.

Read about it here

The results:

·          The Intel processor–based virtualized environment helps IT deploy new services quickly and ensure high availability.

·          Humana added 25 percent more servers in 56 percent of the previous space while decreasing data center power consumption by 16 percent.

Winning: Emerson Electronics

Emerson reshapes its IT infrastructure for future growth, consolidating approximately 135 data centers down to four using Intel® technology–based servers

Read about it here

The results:

·          3,600 physical servers are eliminated by virtualizing on Intel processor–based blade servers, for 18:1 consolidation worldwide

·          Power-saving processors help make Emerson’s new global production data center in St. Louis 31 percent more energy efficient than traditional data centers

Winning: Türkiye Finans Katılım Bank

Leading Turkish Financial Institution Drives Better Growth and Services with Intel®Technology. Türkiye Finans Katılım Bank makes use of the online Intel Xeon processor-based Server Refresh Savings Estimator

Read about it here.

The results:

Intel® Xeon® processor-based Server Refresh Savings Estimator¹ sets expectations clearly, predicting 80 per cent reduction in power/cooling requirements, and a 30 per cent increase in system performance already realized. With only 20 per cent of capacity currently utilised, bank has significant headroom for business expansion

Winning: Oracle IT

Oracle uses Intel® Xeon® processor 5500 series–based systems with Intel® Intelligent Power Node Manager to increase rack density and propel business growth. Refreshing its existing dual socket, quad-core servers on a three- to five-year schedule to increase processing capability and energy efficiency, but had no significant power management in use in the data centers.

Read about it here

The results:

More processing capability can fit within the data center power envelope because Oracle can actively manage power consumption for individual servers and applications.

·          Energy savings of 35 percent are projected with Intel Intelligent Power Node Manager, for reduced operating expenses

·          50 percent more servers per rack saves data center space and enables more growth while keeping costs low

Winning: DataPipe®

DataPipe® retains a competitive edge by designing a new facility and refreshing existing data centers with cutting-edge technology that can deliver outstanding processing performance for a broad range of customer applications. Low-voltage Intel® Xeon® processors help DataPipe create a dense, energy-efficient infrastructure for managed IT services.

Read about it here

The results:

                 New Intel Xeon Processors Provide a Foundation for Cloud Computing. With the Intel Xeon processor 5500 series, DataPipe is creating

                a robust virtualized server environment, Stratosphere™, for hosting customer applications.     

I’d like to introduce myself as a product line manager at Intel who has spent almost a decade ensuring we are creating the best servers to solve small business challenges. Part of my role is to influence future generation products and I’d like to learn more about your challenges, needs and desires so I can ensure we address them in our next generation products.

Here is a story I have heard in the past: “Ah geez, What Now? A customer just called to tell me they tried to enter an online order for my product and my web site is nowhere to be found.  I am lucky they called, but so much for spending a Saturday at my kid’s baseball tournament! Now I need to drive an hour to my downtown office to restart and possibly fumble with my server.  You would think that the desktop system that I am using as a server would just work so I can spend my free time with my family and my work time growing my business.”  

I can’t count the number of times I have heard a similar story from customers and colleagues that are trying to grow a small business, manage their own computers and have a personal life.  The answer to their problem is simple, buy a real server based on Intel®Xeon® Processors that is designed to keep your business running 24/7.   Our latest Xeon processors and chipsets are not only validated to run 24/7, but include features such as support for error correcting code memory and RAID for server operating systems that ensure dependability and differentiate a real server from desktop system used as a server.  However, a small business should not care about all this technical jargon.   I believe they only care that their server runs 24/7 without failure, enabling them to focus on business growth and life.

What are your small business challenges?  I’m all ears.

With the Intel Xeon 5500 series (Nehalem) based processors, the X5500 chipset and instrumented power supplies, you can start with the most basic use case for Intel Node Manager - monitoring the power usage of your servers.

As you can see in the Intel Datacenter Manager (DCM) screen below - there are multiple servers configured into logical units:  HF2-EIL is the lab that these servers are located in.  Rack 1 and Rack 2 are the physical location of these servers, and each Rack contains 2 servers each.

When you highlight one server (as above in DCM)- you can see the power characteristics over a certain time period.  The time period shown gives you the idle power, max power, and thermal measurement.  The 'hump' in the graph is a SQL workload which creates 'work' for the server and the process runs for about 5 1/2 minutes with no power capping.

Here's a graph of the 2nd server in that rack, performing a similar workload.  As you can see, the 2nd server power usage is different than the first.

The Intel Datacenter Manager SDK console can monitor multiple systems as well.  The next graph, is both of those servers in the rack, which accounts for both servers power usage during the same timeframe.

Finally, here is the final graph, showing the accumulation of all 4 servers, in both Rack #1 and Rack #2.  This shows the maximum power utilized during the workload, the minimum power (idle) and the inlet thermal temperature in the lab.  Something that hasn't been able to be done before without expensive equipment in the datacenter.

My next power based blog will show how power-capping can give you more effience use of your workload power while using Xeon 5500 series platforms.

When it comes to your car or fixing something around the house, you know there’s a tool for every job right? Well, it’s no different when you’re considering transitioning from a desktop-based server to a real server. That’s why we created the Server Transition tool for all small businesses.  It’s easy to use (a few clicks), and gives you what you need to make a sound business decision.

Now you have a comprehensive tool to understand your server options and how your current system measures up. All you do is select the year you purchased your current system and the tool makes an initial guess at the configuration you have right now. You can make adjustments so it better matches your actual set-up and then, PRESTO! You’ll see how your system stacks up to a real server based on the processor, memory, storage, business applications and form factor. This way, you’re making an apples to apples comparison with quantifiable data.  Well, I guess since it’s a desktop versus a server it’s more of an apples to apple pie comparison and maybe even apple pie a la mode….

You can even take the comparison one step further by answering a few usage questions to find a more customized configuration for your business needs. It’s really that simple – a few clicks and you have a recommended server configuration that will deliver greater dependability, productivity and performance to meet your needs today and tomorrow. Now, if only there were tools like that to help my sister find the right guy to date.  Maybe that would be more of a tool avoidance tool, if you know what I mean.

Don’t wait, check it out now.

The ecosystem is growing...

Sean Maloney's keynote presentation at IDF 2009 highlighted Intel Node Manager.  This is the video from his keynote which shows customers from Baidu, BMW, Oracle, and Telefonica, who have been working with Intel on Intel Intelligent Power Node Manager.

Check out the final slide showcasing the OEM/ODM/Console providers and customers using Intel Intelligent Power Node Manager.