Financial services firms need to support customers via a growing number of touchpoints. The fast growth of tablets like the iPad mean they are rapidly moving onto that list — Apple has sold 14.8 million iPads in only nine months, and we expect that by 2015, 82 million US consumers alone will be using tablets.
Tablets combine some of the best features of smartphones and PCs to create unique benefits for users and the eBusiness executives who want to reach them. They enable financial services eBusiness executives to develop services that are fast, rich, collaborative, portable, and - last but not least - cool.
These unique characteristics have only limited advantages compared to PCs and mobile phones for self-service interactions like transactional banking and stock trading for the majority of consumers. In fact, we expect that mobile banking has far more potential to become the dominant channel for day-to-day banking in the future.
But thanks to their portability, social acceptance, and rich collaboration capabilities, we expect that tablets will have a big impact on how financial advisors sell to and service customers face to face. Tablets can help advisors to be more flexible about where they deliver advice and enable them to provide advice more effectively and efficiently.
As tablets become more widespread, eBusiness and channel strategy executives need to optimize their browser-based websites for tablets, define a tipping point to decide when to build native tablet apps, develop services that make use of the devices' full potential, and review whether and when to replace the tools advisors use today.
If you want to read more about this topic, I encourage you to read the full report here.
Computing is changing. The news last week showed that loud and clear, as Microsoft bet big on Skype’s voice and video technology and Google announced partnerships with Samsung and Acer to build laptops running its Chrome operating system. These developments point to a future where computing form factors, interfaces, and operating systems diversify beyond even what we have today. The “Post-PC Era” is underway, but its definition is not self-evident.
First, some history. “Post-PC” has been a buzzword in the past few months, since Steve Jobs announced at the iPad 2 launch event that Apple now gets a majority of its revenue from “post-PC devices,” including the iPod, iPhone, and iPad—a major milestone for a company that was originally named “Apple Computer.” The phrase was also part of the public discourse in 2004, when IBM sold its PC unit and former Sun Microsystems CEO Jonathan Schwartz told The New York Timesthat “We've been in the post-PC era for four years now,” noting that wireless mobile handset sales had already far surpassed PC sales around the world. In fact, the “post-PC” concept is more than a decade old: In 1999, MIT research scientist David Clark gave a talk called “The Post PC Internet,” describing a future point at which objects like wristwatches and eyeglasses would be Internet-connected computing devices.
Intel has been publishing research for about a decade on what they call “3D Trigate” transistors, which held out the hope for both improved performance as well as power efficiency. Today Intel revealed details of its commercialization of this research in its upcoming 22 nm process as well as demonstrating actual systems based on 22 nm CPU parts.
The new products, under the internal name of “Ivy Bridge”, are the process shrink of the recently announced Sandy Bridge architecture in the next “Tock” cycle of the famous Intel “Tick-Tock” design methodology, where the “Tick” is a new optimized architecture and the “Tock” is the shrinking of this architecture onto then next generation semiconductor process.
What makes these Trigate transistors so innovative is the fact that they change the fundamental geometry of the semiconductors from a basically flat “planar” design to one with more vertical structure, earning them the description of “3D”. For users the concepts are simpler to understand – this new transistor design, which will become the standard across all of Intel’s products moving forward, delivers some fundamental benefits to CPUs implemented with them:
Leakage current is reduced to near zero, resulting in very efficient operation for system in an idle state.
Power consumption at equivalent performance is reduced by approximately 50% from Sandy Bridge’s already improved results with its 32 nm process.