VM 09 @ Earls Court this week brings together many of the key elements driving Cloud Computing with the software and hardwrae vendors discussing their offerings to enable IT to deploy and utilise Cloud based infrastructure.

One of the major tenets of Cloud architectures is the ability to seamlessly deploy workload anywhere within the cloud and to scale available compute resources based on workload demand. Virtualisation is the key element that enables cloud providers to deliver these capabilities to their customers and it is the availability of server hardware with in-built virtualisation support that is the underpinning of these developments.

One of the key considerations when developing virtualisation software ( the hypervisor ) is how to ensure that the guest ( i.e. virtualised ) workloads do not see that they have been virtualised, to do this it is essential that the impact of the hypervisor is minimised.

For some years now Intel has been working with the hypervisor vendors to implement hardware support for virtualisation within their processors. This support is aimed at making it easier for the hypervisor vendors to implement their code and to ensure that they are able to transparently virtualize the guest or hosted workloads.

Intel’s virtualisation technology has focused on 3 key areas – the processor, the I/O subsystem and the network interfaces.

·         Processor enhancements – new instructions and protection model that enables the hypervisor to co-exist with unmodified guest operating systems and to host multiple operating systems on the same hardware. With successive generations of Intel processors new features have been added to the processor to help the hypervisor operate and to reduce its overhead.

·         I/O subsystem – one of the limiters in early virtualisation implementations was the ability to ensure adequate I/O throughput and isolation between various workloads sharing the same physical I/O devices.  Many new Intel Xeon processor based servers now have virtualisation support built into the chipsets.

·         Network interfaces – another challenge with running multiple guest environments on the same server has been the need for them to share the same physical network interfaces and for the hypervisor to manage the separation and distribution of network traffic between the various guest virtual machines. This has been addressed with the latest network interface chips that provide hardware support to manage movement of network data directly between the LAN and virtual machines

It’s also worth noting that raw CPU performance plays a significant part in determining the number of workloads a virtualised server can host. For example if the hypervisor consumes ~10% of the available compute resource, reducing the hypervisor overhead by 10% would result in ~1% more CPU resource being available to the guest workloads, whereas increasing the CPU performance by 10% provides 10% more compute resource to the guest environments – which could equate to 1 or more addition virtual machines being hosted.

When all this is hardware support is put together with the software developments that the hypervisor vendors have been making in terms of tools to dynamically provision and move workload between various physical servers we can start to see how the underpinnings of cloud computing are being put in place.

For further reading there’s lots of good stuff in the Cloud Computing and Virtualisation tracks at the recent IDF, all the materials are here.

Yes, you read that correctly, and no, nothing to do with Golden Gate.

Welcome to the world of embeddded.

I have a slightly absurd fondness for the Intel® Xeon® processor, one that goes beyond mere enthusiasm for an Intel product from an Intel employee. Intel exec Mooly Eden joked here earlier today that we are addicted to the internet. He said it in jest but he is probably not too far from the truth. After all we’ve seen surveys suggesting that more people would rather give up sex before the internet. There are 100,000 new websites springing into life every day so the internet is a growth phenomenon that, even after all this time looks like it is only getting started in the growth stakes. Server processors such as Xeon power the internet, and I get passionate about the fact that people who love the internet should know more about how it is delivered to them and the masses and masses of servers that exist to sate their desire for content. And Servers have Xeons in them for the large part.

Now, of course the hordes of Amazon shoppers and Youtubers couldn’t care less about what lies behind the internet processing and storing all the data and that will never change. Deep down I know that. So not many people may care about the one of the few more esoteric products to emerge from IDF, a product currently codenamed Jasper Forest. So what is this intriguing new product and where can we expect to see it do its stuff? It is an addition to the Intel(r) Xeon(r) Processor family designed for use in embedded applications, principally storage. The buzzwords here (among many) have been innovation and integration. Intel is taking care of the integration piece (and has been doing so for some time) so that developer can take care of the innovation side – not that this product is not innovative. CPU for CPU it actually has more bells and whistles than its standard server CPU sibling, boasting PCI Express 2.0, I/O virtualisation, RAID 5 and 6 and a non-transparent bridge, all integrated (that word again) into the silicon.

I’m here at IDF with some very knowledgeable technology journalists; we know what PCI e is; we know what I/O virtualisation is; we know what RAID is. None of us though, not even the Intellite among us, had any idea what a non-transparent bridge was, or what it was for. So I set to finding out – or getting others to find out. Turns out that in the embedded applications where such a product is used, you’re typically trying to connect together multiple devices, and because PCIe is now integrated into the CPU, it enables developers to eliminate a separate bridging component from the board that would fulfil this function. Okay, maybe not as intriguing as you might have hoped for, but a cost saving is a cost saving, and in a world where performance-per-watt-per-inch governs your design processes, this is a big deal.

This world is entirely unglamorous and completely mystifying to most consumers, but they will depend on devices that contain CPUs such as these every time they buy something on the internet or check their bank balance. In 2010, when Jasper Forest is released to the world, it will be with little fanfare - save its 5 minutes of fame here in San Francisco. It is an example of innovation and integration that goes entirely unnoticed, but that is the way it goes for an embedded CPU sometimes.

When the Xeon 5500 platforms launched earlier in the year, we also introduced a server refresh ROI estimator tool to help IT managers make sense of the significant OpEx savings they can achieve by making targeted investments in new server hardware.

We know that server deployment and refresh plans vary widely from customer to customer, so we needed a robust and interactive to help you model your savings opportunity, regardless of your situation.  This tool delivers just that by taking the knowledge of Intel IT and industry leading ROI and TCO consultant Alinean and putting it into an easy-to-use tool!

We identified and were able to model eleven cost and savings categories (both pluses and minuses) in the Server Refresh ROI calculation and make these cost category assumptions able to be included, excluded or modified by you.  You can model and view scenario output real time and print/email reports to share with others.

To share some numbers from the United States, in the first 3 months, there has been nearly 4,000 users of the ROI estimator, and of those users, almost 800 users have printed reports to share with others in their organizations. Here’s some of the encouraging feedback they’ve been hearing from their customers:

·       CIO for major US hospital: “This would help my IT staff justify the financial value of the technology investment they are proposing. This has been a barrier to freeing up capital internally”

·       IT Manager for major US bank: “I used to have regular funding for technology refresh projects. It was a given for my budget.  However, with the increased constraints on capital, I now have to justify this type of spending”

·       Technology Sales Consultant: “This tool helped me work better with my customer to gain a deeper understanding of their server environment and allowed us to jointly identify high ROI investments to improve their infrastructure”

Good news is the tool has continued to evolve based on feedback from the multiple customer engagements to date, and as a result, we have just released an updated version.  Check them out:

Tool Training – How to Use: We heard that the benefits of using the Savings Refresh Estimator spanned many functional roles, making us realize that the use models for this type of tool and what users were looking for would vary dramatically from person to person.  We have a pdf training guide today that can help you get started now.

PowerPoint Output: What would we do without PowerPoint? J We received feedback on the desire to make the output of this tool more sharable inside IT organizations and with business partners in a PowerPoint format as a way to communicate the opportunity and benefits for server refresh investment.  So, we now have a PowerPoint output option in the reports section that breaks down the benefits of server refresh for a variety of audiences from executive staff to facilities to finance.  Everyone inside your business can benefit from server refresh and now you can show them how.

Secure Analysis: We received feedback that many users wanted access off-line either as a way to use in meetings when connectivity was challenged or to protect internal data from exposure online.  We now have the ability for you to run the tool on your laptop to support these use models.

More … More … More Functionality. We heard lots of requests and ideas to expand the level of functionality and analysis capabilities.  We have to balance scope, complexity Keep these requests coming.  The following changes are incorporated into today’s estimator.

·       Virtualization to Virtualization Refresh Scenario – now included

·       Virtualization Loading: Can edit and change VM/server new and old

·       Custom Performance Data – enter you own performance data to better model what you expect to see in your biz

·       Depreciation Cycle – no longer fixed at 4yrs .. can adjust

·       Memory Sizing: information added to allow user analysis

·       Processor Description: allows user to cross reference data to other more familiar terminology.

I encourage you to check out the tool and let us know how it helps you get a better handle on the benefits of server refresh.  Feel free to respond with comments and feedback here.

At Intel we’re very fond of starting sentences with the word ‘so’, particularly when we’re talking to each other, and even more so if we happen to be in conversation with people external to Intel. I think we use it to buy ourselves a precious second or two of thinking time before opening our mouths and going on the record.

So… I admit it is pretty pretentious to even consider the correlation between a cornerstone of one of mankind’s greatest thinkers and something so apparently mundane as a CPU, but there are times when an idea occurs that just latches on like a  - insert your own simile here – and just will not leave you alone.

I’m not going to give you a mini bio of Aristotle the man; if you’re reading this you know how to use Wikipedia or Google. He was undeniably a very influential thinker, and in some respects, way ahead of his time, particularly when you consider he was writing/teaching in the mid 300s BC and that many of his world views were held to be universal until the enlightenment in the late 18^th Century. Aristotle is also widely considered to be the father of logic, defining the need for, and the methodology of, deductive reasoning. He was the first person to really set down ways of structuring the process of thinking, of reasoning and it is not stretching the point too far that his work was the root of the subsequent developments on which computing logic is based, no matter how far removed it may appear now.

Among the most famous principles of reasoning is the set of rules he laid out in order to determine the inherent nature of an object. To fully understand it we must ask four questions, we must determine its four “causes”. The word ‘cause’ is one that seems to have resulted from translation from ancient greek, and clearly something has been lost in translation, as the word cause does not carry the same meaning as it does today, so much so that it defies succinct translation even today. Rather it is better to put it in the form of 4 questions which, if responded to help you to understand an object in a holistic fashion. Aristotle is said to have used the example of a statue, but these questions were designed to help us understand all objects. Of course, things were much simpler back in Aristotle’s day, but what sort of understanding do we get of an object that is more complex: an Intel quad-core processor for example.

The first question is: from what is it made (what is its material cause)? The main portion of the answer to this question is of course silicon. But we ought not to stop there. Take a modern day processor, it has silver, tin, hafnium (lovely hafnium!). For simplicity’s sake, let’s leave it as silicon. Next, the formal cause, or more simply put: what is it? Well… um… it’s a processor, a quad-core processor. Yes, we could argue it’s a microchip, a semiconductor or even - and I have a feeling Aristotle would like this - a logic device, but to me it is a processor pure and simple. What brought the object into being is the third question, i.e what is its efficient cause. As an Intel employee this is where you start to feel good about the company you work for. It was born out of one of the cleanest, one of the most advanced manufacturing environments in the world, an environment built to hugely exacting requirements that in some ways they are as remarkable as the devices that they are used to produce. I speak of course of a wafer fab, an Intel wafer fab. I’ve never been inside one of these buildings, so they still hold an extra mystique for me. So far, so good, if unremarkable: it’s a processor, made from silicon (and hafnium), in a fab. We probably all knew that.

So what of the fourth cause, or, as Aristotle called it its final cause? Well the answer to this is, like the device itself, infinitely complex. If we left our imagination at home, the answer to the question ‘what is it for’ could simply be left at ‘computing’, or ‘processing’. But that would be to not answer the question properly or fully. The real answer is, if you want to keep it short and sweet, “whatever you want it to be for”. It can help you do whatever you want with your PC, notebook, or server.

This is the crux of the matter. The choices are endless, or at least as endless as the variety of applications and usages that are out there. What is more, the world and its economy are more reliant on these devices than ever before. We are using them every time we search the web, every time we make an online purchase, and many do not have a so much as an inkling that we are using one. In March this year, Intel launched its latest quad-core processor, in the Intel® Xeon® processor family – the 5500 series for servers and workstations. It seems a shame that it is being introduced to a world that is not as ebullient as once it was. But in another way, these circumstances provide Nehalem EP with an opportunity. It is in times of strife that innovation comes to the fore, receiving more focus as we all count on it to deliver us from stagnation.

This is where such a processor, in tandem with a variety of applications can shine. It provides the means for obsolete hardware to be replaced at a cost which is recouped in less than a year, it provides the means for digital artists to express their ideas better and more immediately than ever before, it enables movies to be animated in 3D, it helps find new reserves of oil, and provides the horsepower to design machines that are more energy-efficient and sustainable than before. There are a wealth of documents on this site that will explain the compelling ROI in replacing old, single-core servers with new machines based on the Xeon 5500 series CPU. And what is exciting is that there are people out there who will take advantage of this supremely quick computing power combined with its intelligent performance and put it to new uses, providing a firm with a new competitive advantage. Then other firms will follow suit, and this pattern, as it snowballs, begins to haul us out of the mire. Don’t misunderstand me, not even Xeon 5500 is going to fix this economic situation singlehandedly or speedily, but history teaches us that technology comes to the fore when times are tough, and the better the technology, the more it stands out, and that those who make best use of it, establish themselves as leaders.

So to bring it back to that curious 4^th cause: what is it for? Well, with so many possible answers, we can only stick our hand in to all of those notions above and pick one at random or just pick a favourite. Others will pick something that has not occurred to anyone else and will use that to build a business opportunity. My inclination is to say that it is for innovation, for IT to show its value to the business, as contributor to the bottom line. A little trite maybe, but it is true. It is also an answer derived from a certain amount of logic. Surely Aristotle would not want to argue with that.