The Automated Test Blog

Wireless mobile devices will fundamentally change the way we use and interact with the Internet. As I’ve posted before, I am a unabashed iPhone user. And I’ve started to notice some curious things about my use of the Internet now that its with me all the time and easily accessible. For one, my Internet usage has gone up by an order of magnitude. I don’t think I’m exaggerating – I literally mean 10x. And let’s be clear, I was already a heavy Internet user. Now I use it 10 times more. This also means I access the Internet on my phone at least 10 times more than I do on my PC. I’ve grown so accustomed to the device that I find myself surfing the web on it while sitting in front of my laptop. I have also noticed that my expectations for Internet content has changed. For example, my expectation for real time content has gone up dramitically. I check news sites like cnn.com several times each hour and expect news updates. No new headlines in the last 20 minutes? Maybe I should try another site. I also notice that I use the device to augment my own knowledge on the fly by searching acronyms, names, etc., while in conversation or in a meeting. I don’t think I’m at all alone in this trend: Google recently reported that 50 times more traffic from iPhone users than from other mobile devices. Think about that – 50 times! When you make a tool like Google more accessible, dramatic things can happen. I’ve also talked to several colleagues (NI has a density of iPhone users that I doubt is topped anywhere outside of Cupertino), and they report a similar phenomena.

So, the question is, what is driving this change? I think first and foremost, we’re starting to really see the impact of ubiquitous wireless connectivity. The iPhone happened to make the full Internet available in way that is as good or better than the experience on the PC. Once the Internet makes the jump to wireless devices, the dynamic of the Internet will really change. The PC will quickly become irrelevant as an Internet device – the number of mobile devices (>1 billion per year) dwarfs the number of PCs (about 250 million per year). As Bolaji Ojo of EEtimes recently stated in his article Wireless is everywhere, ignore it at your peril, “the search is over for the next killer app…it is wireless”.

As an extension of my own personal iPhone observations, I think the new wireless Internet will have some of the following attributes:

• Usage an order of magnitude greater than the current web;
• Significantly increased demand for real time information;
• A two way communication portal, not just an information source (Web 2.0);
• Optimized primarily for mobile devices, not PCs.

It will get even more interesting as the wireless data bandwidth explodes with standards such as WiMAX and LTE. 2008 should be a fascinating year for wireless, particularly, the wireless Internet.

OK, time for the last of my 5 trends in test for 2008:

Emulation-Based ATE That Improves System-on-a-Chip and System-in-a-Package Testing

As semiconductor devices become more complex, the process of testing each part completely with a traditional vector-based methodology is increasingly difficult. Complex systems-on-a-chip(SoCs) and systems-in-a-package (SiPs) require a system-level functional test more closely related to testing components placed on a printed circuit board than a typical chip test, but they still require the high speeds demanded in production test for the semiconductor industry. The strategy of testing a device by emulating actual real-world signals provides a better method of functional test for these types of high-speed systems. This emulation-based ATE, or also termed “Protocol-Aware ATE” during last year’s International Test Conference, combines FPGA-based hardware to emulate the rest of the system in real-time with the pin electronics found in traditional ATE. This lowers the total cost of test through better use-case coverage and improves the user’s ability to debug failures. I explained this idea in more detail in a recent blog post. In 2008, I expect more vendors to incorporate elements of emulation-based tests into traditional tester architectures and for more users to incoproate platforms currently used in functional test, such as PXI, into chip validation and test applications.

As I stated in an earlier blog post, I’m planning to discuss one of five industry trends per blog entry over the next few weeks. My 4th trend is:

The Explosion of Wireless Standards
Test engineers are facing new challenges as the use of wireless technolgies is rapidly expanding. This was a hot topic during the recent CES 2008 conference. One article covering CES, stated “Today’s young people might be called the wired generation, but judging from this year’s Consumer Electronics Show they might not have to deal with actual wires for much longer.” Below are few examples of products that have traditionally been “wired”, but are now becoming “wireless” devices:

• • Apple Time Capsule, which is a 1 terabyte wireless hard-drive using 802.11n.
  • GM Vehicle-to-Vehicle technology, cars are becoming wireless network that can broadcast position, speed, heading to surrounding cars.
  • Samsung flat-panel wireless TV, that receives its data from an 802.11n transmitte

As Wireless transitions from a vertical industry into a horizontal application, more and more test engineers will be faced with the challenge of testing RF wireless capability. Soon, RF instrumentation could become as ubiquitous as general-purpose instruments such as digital multimeters. This growth in adoption requires test engineers to learn wireless protocols and keep pace with the rapid introduction of new standards. This trend was reflected in the 2007 Test & Measurement World Salary Survey (which I blogged about late last year), in which subscribers across engineering disciplines were asked to identify the top technologies they are being required to learn. Among the top responses were WLAN and WiMax.