Social Media

It’s coming. As next generation employees bring in their penchant for Twitter, Facebook and more, can IT find legitimate usage models for these kinds of social media applications in the corporation? Intel IT has documented some best practices in this area that may surprise you.

Development Team

The following people from Intel Open source technology center are working on this project:

Intel Development Team
Carl Worth
Eric Anholt
Haihao Xiang
Ian Romanick
Jesse Barnes
Keith Packard
Ling Ma
Nanhai Zou
Zhenyu Wang

Intel Testing Team
Gordon Jin
Shuang He
Jian Zhao

Intel Invests in the "Future of Communication"

Today we are announcing that Intel has become the lead investor in our $20 million Series C investment round. The implications can't be overstated. For those of you who have been following the JAJAH blog over this last year, you understand the level of milestone this represents.

Background Of The Intel Investment

This is a strategic investment - meaning that while the investment is important, it's not the only reason we wanted to strike a deal. Along with the capital comes other key advantages.

Capital - The money will allow us to grow the business. We'll invest in everything from marketing to R and D.

Marketing Agreements - Jajah now has access to Intel developers and OEMs, which will help us get JAJAH to more people faster.

Patents - With the agreement, JAJAH now has access to some important Intel patents in the telephony and computing space. These will allow us the freedom to continue to explore, innovate and create great new products.










The JAJAH Vision

JAJAH sees a world where all telephony becomes IP based. As this happens, new classes of services and solutions are going to emerge. In this new world, the consumer is the big winner. Our vision is to be at the forefront of innovation, creating new, richer ways for users to communicate.

"Our vision is to lead the way into the next generation of communication," said Daniel Mattes, JAJAH co-founder and chief architect. "All voice communication will soon be IP-based. The lines between computers and phones are gradually being removed. Phones are quickly turning into computers and computers are quickly turning into phones. We need to marry phones and computers in a fundamental way!"

Naturally. the more JAJAH can be integrated into next generation devices, the better. As stated by our co-founder, Roman Scharf:

"The deeper JAJAH can be embedded into Intel solutions, the better for customers everywhere. It is our intention to bring a best-of-class, next generation solution to the market which can be embedded and optimized for any computing device."

In the end, JAJAH's vision remains the same. It is our goal to remove the barriers to global communication and the Intel agreement will allow us to do that faster and better than ever before.

Intel® Core™2 Extreme processor

For extreme computing. Enjoy revolutionary levels of performance enabling vivid, high-definition experiences and multi-tasking responsiveness from state-of-the-art Intel dual-core and quad-core technologies.

Desktop Processors

Intel® Core™ i7 processor Extreme Edition

Conquer the world of extreme gaming with the fastest processor on the planet: the Intel® Core™ i7 processor Extreme Edition.¹ With faster, intelligent multi-core technology that responds to your workload, it delivers an incredible breakthrough in gaming performance.

Intel® Atom™ Processor N270

The Intel® Atom™ processor N270Ω, implemented in 45nm technology, is power-optimized and delivers robust performance-per-watt for cost-effective embedded solutions. Featuring extended lifecycle support, this processor offers an excellent solution for embedded market segments such as digital signage, interactive clients (kiosks, point-of-sale terminals), thin clients, digital security, residential gateways, print imaging, and commercial and industrial control. The processor remains software compatible with previous 32-bit Intel® architecture and complementary silicon.
This single-core processor is validated with the mobile Intel® 945GSE Express Chipset, consisting of the Intel® 82945GSE Graphics Memory Controller Hub and Intel® I/O Controller Hub 7-M. The chipset features power-efficient graphics with an integrated 32-bit 3D graphics engine based on Intel® Graphics Media Accelerator 950 architecture with SDVO, LVDS, CRT, and TV-Out display ports. It provides rich I/O capabilities and flexibility via high-bandwidth interfaces such as PCI Express,* PCI, Serial ATA, and Hi-Speed USB 2.0 connectivity.

Intel® Atom™ Processor Z5xx Series

The Intel® Atom™ processor Z5xx series delivers the benefits of Intel® architecture for small form factor, thermally constrained and fanless embedded applications. Implemented in 45nm technology, these power-optimized processors provide robust performance-per-watt in an ultra-small 13x14 mm package.
Featuring embedded lifecycle support, the Intel Atom processors are ideal for many embedded market segments such as in-vehicle infotainment, medical, interactive client (kiosks, point-of-sale terminals), gaming and industrial control. It remains software compatible with previous 32-bit Intel® architecture and complementary silicon.
These single-core processors are validated with the Intel® System Controller Hub (SCH) US15W, which integrates a graphics memory controller hub and an I/O controller hub into one small 22x22 mm package. This low-power platform has a combined thermal design power under five watts.

Intel® Atom™ Processor Z5xx Series

The Intel® Atom™ processor Z5xx series delivers the benefits of Intel® architecture for small form factor, thermally constrained and fanless embedded applications. Implemented in 45nm technology, these power-optimized processors provide robust performance-per-watt in an ultra-small 13x14 mm package.
Featuring embedded lifecycle support, the Intel Atom processors are ideal for many embedded market segments such as in-vehicle infotainment, medical, interactive client (kiosks, point-of-sale terminals), gaming and industrial control. It remains software compatible with previous 32-bit Intel® architecture and complementary silicon.
These single-core processors are validated with the Intel® System Controller Hub (SCH) US15W, which integrates a graphics memory controller hub and an I/O controller hub into one small 22x22 mm package. This low-power platform has a combined thermal design power under five watts.

Intel Processors

Intel® EP80579 Integrated Processor :

Based on Intel® architecture, the Intel® EP80579 Integrated Processor product line is the first in a series of breakthrough system on-a-chip (SOC) processors, delivering excellent performance-per-watt for small form factor designs.
This fully compatible product line (Intel EP80579 Integrated Processor and Intel® EP80579 Integrated Processor with Intel® QuickAssist Technology) provides an outstanding combination of performance, power efficiency, footprint savings and cost-effectiveness compared to discrete, multi-chip solutions.
These integrated processors are ideal for small-to-medium business (SMB) and enterprise security and communications appliances (including VPN/firewall and unified threat management), transaction terminals, interactive clients, print and imaging applications, wireless and WiMax access applications, SMB and home network attached storage, converged IP PBX solutions, converged access platforms, IP media servers, VoIP gateways and industrial automation applications.

Digital Divide

The concept of the digital divide is becoming more and more complex as access to computers and the use of computers, changes over time. When the existence of a “digital divide” first emerged, it revolved around access to computers and related technologies. The high cost of computers create a large divide between people who could afford them, and who had access to all the advantages of a computer, and those who could not.The falling cost of computers, combined with initiatives in many countries to create community access points or telecentres [link], has meant that more and more people are gaining access to some form of computer. As more people gain basic access to computers, the term “digital divide” has grown to encompass technological literacy and the total...

COMMUNICATIONS TECHNOLOGY CLUSTER

The COMMUNICATIONS TECHNOLOGY CLUSTER is a BUSINESS ACCELERATION CENTER built on a business incubator model providing strategic consulting, business and financial services for entrepreneurs, and growth-oriented small to mid-sized companies across industries including:
Technology
Consumer Products
Health Care
Business Services
Financial Services

Information and Communication Technology overview

We are developing solutions to maximise the benefits of information and communication technologies.
How information is produced, collected, sorted, filtered, transmitted, communicated, interpreted and stored is one of the fastest growing sectors of the economy – Information and Communication Technologies (ICT).
We are currently focusing on ICT that creates and supports:
better environmental monitoring and management
more efficient use of energy
smarter and more efficient healthcare
improved agricultural production
security and safety for people.
We have the ability to innovate in ICT through its thorough understanding of the needs and problems of Australian industries.
Australia has significant expertise in areas such as wireless communications and robotics.
In certain core areas of ICT, such as wireless communications and robotics, Australia is globally competitive. We focus our ICT research where our work has potential to lead to globally adopted solutions.
Since the development of CSIRAC in 1949, Australia’s first recordable computer, through to recent developments in enterprise search engines and data-mining software, we have been at the forefront of ICT.
See more of our work in Information & Communication Technology.