When Mike and I started Instagram nearly two years ago, we set out to change and improve the way the world communicates and shares. We’ve had an amazing time watching Instagram grow into a vibrant community of people from all around the globe. Today, we couldn’t be happier to announce that Instagram has agreed to be acquired by Facebook.
Every day that passes, we see more experiences being shared through Instagram in ways that we never thought possible. It’s because of our dedicated and talented team that we’ve gotten this far, and with the support and cross-pollination of ideas and talent at a place like Facebook, we hope to create an even more exciting future for Instagram and Facebook alike.
It’s important to be clear that Instagram is not going away. We’ll be working with Facebook to evolve Instagram and build the network. We’ll continue to add new features to the product and find new ways to create a better mobile photos experience.
The Instagram app will still be the same one you know and love. You’ll still have all the same people you follow and that follow you. You’ll still be able to share to other social networks. And you’ll still have all the other features that make the app so fun and unique. We’re psyched to be joining Facebook and are excited to build a better Instagram for everyone.
28 nm design is likely to be the most powerful ARM architecture core yet; perfect for PCs
ARM Holdings plc (LON:ARM) has long been known for its lightweight intellectual property cores, which have dominated everything from slot machines to smartphones. Power and ARM cores weren’t typically words you heard uttered in the same sentence. But with ARM preparing to invade the laptop space, courtesy of Windows 8 RT (ARM edition), the world is getting its first taste of ARM cores clocked at the speeds usually reserved for PC users.
Taiwan Semiconductor Manufacturing Comp., Ltd. (TPE:2330) today announced an important milestone, achieving a stable core clock of 3.1 gigahertz with a Cortex-A9 dual-core chip. The air-cooled chip, built on TSMC’s new 28 nm process, typically operates at lower clock speeds. However, the chip is capable of overclocking to over 3 GHz when performance demands it — much like rival Intel Corp.’s (INTC) “Turbo”-equipped chips.
The chips typically cruise at a more battery-friendly 1.5-2.0 GHz. Thus, while partners’ proprietary designs based on the rapidly maturing process will likely be targeted primarily at the laptop market, there’s also the possibility of seeing such speedy designs in tablets or even smartphones.
ARM and TSMC are showing that Intel isn’t the only one who can play the speed game, showing off a 3 GHz core. [Image Source: Maximum PC]
Cliff Hou, TSMC Vice President, Research & Development, brags, “At 3.1 GHz this 28HPM dual-core processor implementation is twice as fast as its counterpart at TSMC 40nm under the same operating conditions. This work demonstrates how ARM and TSMC can satisfy high performance market demands. With other implementation options, 28HPM [high performance mobile] is also highly suited for a wide range of markets that prize performance and power efficiency.”
ARM Holdings and allies like TSMC need the strong showing. While they have tremendous potential for growth if they can capture some laptop market share from Intel, they’re also facing a counterattack on the smartphone front from Intel.
Intel’s first generation Medfield chips have finally arrived in a limited selection of smartphones, and battery life has been better than expected. Competition will heat up in 2013 when Intel swaps the 32 nm node Atom Medfield’s for a die-shrunk 22 nm version, featuring Intel’s power-saving 3D tri-gate transistor design.
In other words ARM, et al. and Intel will be fiercely competing to deliver the most powerful chip computationally with the least electric power consumed. TSMC’s latest effort shows that it can crank up core speeds, but does it have the goods power-efficiency wise? That remains to be seen.
ARM at least has one trick up its sleeve — the upcoming ARM Cortex-A15 architecture.