105. New Ultrabooks, Old Office, and the Big Consumer Preview

The previous section detailed the release of the Windows 8 platform, WinRT, for building Metro-style apps. In the reimagining of Windows from the chipset to the experience, we’ve covered all the major efforts. In this section, we will describe the latest in PCs that will contribute to Windows 8, which Intel called Ultrabook™ PCs We will also introduce the Windows Store where developers could distribute apps. The really big news will be the Consumer Preview or beta test for Windows 8 where millions will experience the product for the first time. It might surprise readers, just as with the Developer Preview, that the reaction to the product across many audiences was quite positive. Just how positive? And what in the world could the professional press and reviewers actually liked? And what did Apple’s Tim Cook have to say about all this?

Back to 104. //build It and They Will Come (Hopefully)

Following the //build conference we were feeling quite good. Not to belabor the point, but I recognize how challenging it is to take such feelings at face value given where the product ended up. In writing this and helping people experience the steps we went through at the time in sequence, my hope is that what comes to light is that we were not bonkers and in fact much of the industry was excited by Windows 8 as it emerged. Of course, there were skeptics and doubters, even haters, but as veterans of dozens of major products we’d seen this before and the volume for Windows 8 was not disproportionate. If anything, the excitement and optimism were higher. So where did things take a decidedly different direction? It was when after product emerged from the Developer Preview and a series of events including the widely distributed Consumer Preview, or beta, when millions of people would experience the product. The leadup to the Consumer Preview in March 2012 included some important steps in the process as well.

New Ultrabooks

On the heels of the //build conference in September 2011 Intel began kicking off an effort to reenergize the PC industry with a response to Apple, finally. Intel developed a series of specifications, financial incentives in the form of marketing and pricing actions, as well as supply chain activation to deliver on a new class of laptop. Intel called these Ultrabooks. We called them a blessing.

Intel was best positioned to drive this type of advance. It was always difficult for Microsoft simply providing the operating system to dramatically alter the hardware platform, even though many thought by virtue of building Windows we held significant sway. We certainly had influence, but ultimately Windows was a wide-open platform which meant hardware to support any scenario was under PC maker control. The few times we had tried to tightly control hardware specifications, such as with Tablet PC and Media Center PC, did not go well at all. Worse, such controls angered not just PC makers but our fans as well who always wanted to build PCs on their own and experiment with hardware components.

Unlike Microsoft, Intel had a unique ability to influence hardware specifications and their influence increased over time compared to Microsoft’s which waned over the years. Intel rallied the industry around Netbooks. While that was a failure, it provided a playbook that Intel could later follow. Before the Netbook, Intel almost single-handedly drove a consistent level of support for Wi-Fi with the Centrino line of chips, which bought both lower-power consumption and Wi-Fi to the standard business laptop. In these cases, and many others such as USB, SATA storage, integrated graphics, and more, Intel took on a broader role in determining components and building software drivers for Windows (and Linux) while making it easier for OEMs to adopt a complete platform.

The efforts were not pure altruism. Intel would use these complete component platforms to steer OEMs to specific price points for chips as well as unit volume commitments. With those in hand, Intel could broadly advertise the platform using their massive Intel Inside advertising budget. These financial incentives were eagerly embraced by OEMs and a key part of their margin. Intel maximized its own margins as well by careful choice of CPUs in these platforms and enabling OEMs to upsell to even higher margin chips as appropriate.

This dynamic is why competing with the new Apple MacBook Air starting in 2008 followed by subsequent models and then Intel-based MacBook Pros proved elusive. Conspiracy theorists would believe that Intel was slow-rolling competitive PCs just to keep Apple and Steve Jobs happy. I never saw any indication of such a dynamic. Rather, it just seemed like PC makers were basically fat and happy in their share battle with each other. They had little worry about the 3-5% of share Apple had especially because they viewed Apple laptops and their customers as high-end, expensive, and premium. The PC business was all about good price and great volume. Being a pound heavier, an inch thicker, and plastic made little difference. As Apple share among influential customers, especially in the US, increased, the urgency from Intel and PC makers changed.

At the 2011 Intel Developer Forum (IDF) in Taiwan and in parallel with the //build Conference, Intel unveiled a new concept PC, the Ultrabook™. An Ultrabook wasn’t an actual PC from Intel, but a series of specifications or requirements for a PC to inherit the Ultrabook label, and thus the CPU pricing and broad co-advertising that came with it.

Unlike Netbooks and Centrino, Ultrabook specifications were rather detailed and covered a broad set of criteria beyond even the components Intel provided. The tagline Intel chose was “Thin, Responsive, and Secure” which would be used quite broadly. Among the requirements to be part of this program, new PCs had to include:

* Battery. A good deal of the platform effort was a new type of battery that was not yet used broadly on Windows PCs. Ultrabook PCs required non-removable Li-Poly batteries of 36-41WHr designed to fit around components and a minimum of 5 hours of runtime.

* Storage and Responsiveness. While not required precisely, there was a strong recommendation to use solid state disk drives, SSDs, in Ultrabook PCs which would significantly improve performance. SSDs also made it possible to strongly recommend a wake from standby time of just 7 seconds, which for Windows PCs would be excellent at the time.

* Chassis Design. For the first time, Intel specified what amounted to innovative chassis design. For laptops with 14” or larger screens, the chassis needed to be under 21mm and for smaller screens 18mm.

* Screen. The Ultrabook specification included guidelines and requirements covering display selection as well, including detailed values for thickness, bezel size, viewing angles, pixel density, and power requirements. At IDF, Intel showed off displays from a number of display makers who were ready and able to supply screens.

* Keyboards. Even keyboards, far from Intel’s expertise, received attention. Back-lights, spill resistant layers, key-travel and key shape were all specified in Ultrabook design. This was a significant departure for Intel and the requirements created the need for keyboard redesign for all laptops.

* Sensors and devices. Intel even included recommendations for devices usually seen far off the motherboard including: 720p webcam, accelerometer, GPS, ambient light sensor and more.

Intel really geared up the supply chain. This was crucially important during the huge ramp up happening with mobile phones where many suppliers were thinking of moving on from PCs. As it would turn out, Ultrabooks were the last gasp for innovative PCs.

Ultrabook laptops would turn out to be the ultimate devices for the road warrior running Office. These even led to the standardization of HDMI connectors in conference rooms after decades of VGA/RGB connectors. Windows 7 had introduced the command Window+P to make it easy to switch thus ending the need for degaussing and rebooting PCs to project…mostly. The stellar work at the device and OS kernel level to reduce power consumption, improve boot time, and even the unique features for SSD storage all contributed greatly to a fantastic experience for this new form factor.

Ultrabooks brought Windows hardware to the 21st century and were far more competitive with Apple laptops than we might have expected after waiting so long. In fact, Ultrabook PCs were downright cheap compared to Apple products. While most would retail for the magic number of $1,495 many could be had for the other magic number of $999. This compared to nearly twice as much for the similarly configured Apple laptops. All in all, this was a huge win for the Windows PC. Every PC laptop today owes its existence to this excellent work by Intel and the supply chain. A small benefit for tech enthusiasts and IT administrators was that the wave of Ultrabook standardization also made it possible to install Windows without requiring additional drivers to be downloaded from PC maker sites.

Ultrabook PCs rapidly diffused across the ecosystem from the board room to executive teams to consultants and eventually to students. I remember a 2011 recruiting visit to MIT and Harvard and while I saw a lot (perhaps majority) of MacBooks, the PCs I saw were all newly purchased Ultrabook PCs with their sleek, un-PC-like aluminum cases.

Many believed Ultrabooks would put a dent in iPad momentum. Once again, it is worth a reminder that Apple’s iPad was absolutely top of mind for the industry. The iP