TI’s OMAP 5 platform transforms the concept of ‘mobile’

Imagine carrying only one productivity tool while in the office, on the road or at home – a single mobile device which provides PC-like computing performance with mobile power levels. Imagine using the same device to conduct a stereoscopic 3D (S3D) video conference for work. Imagine being in a meeting and projecting a document from this device, which you can edit by simply touching the projected image on a surface. Imagine going home and switching the device to your personal operating system to drive a next-generation game on your HDTV using wireless display technology. These capabilities are only highlights of what the TI OMAP 5 platform uniquely delivers.

Highest performance, lowest power…yet again

The 28 nanometer OMAP 5 applications processors carry on the OMAP family tradition of delivering significant increases in performance and functionality, while lowering power consumption compared to their predecessors. Specifically, they offer up to 3x processing performance and five-fold 3D graphics improvement, yet provide a nearly 60 percent average power reduction compared to a sample user experience on the OMAP 4 platform. Additionally, the OMAP 5 platform’s software is designed for maximum reuse to ease migration from the OMAP 4 platform.

“The next decade will bring a revolution in mobile computing, as devices continue to converge, attempting to become one single device that meets all of our computing, entertainment, and complex day-to-day needs and interests. However, the bridge to true mobile computing enablement was missing until today. The OMAP 5 platform will be at the heart of driving the mobile computing revolution by delivering the highest computing, graphics and multimedia performance possible within the low power budget required by mobile form factors,” said Remi El-Ouazzane, vice president, OMAP platform business unit, TI.

Sophisticated, multi-core processing: harmonized for the best possible user experience

The OMAP 5 processor leverages two ARM® Cortex™-A15 MPCores™ – the most advanced ARM architecture to date – capable of speeds of up to 2 GHz per core in the OMAP 5 implementation. With a 50 percent boost in performance over the Cortex-A9 core (at the same clock frequency), combined with up to 8GB of dynamic memory access and hardware virtualization support, the Cortex-A15 core can enable true mobile computing experiences, such as the ones referenced above.

The OMAP 5 architecture utilizes an intelligent combination of many different processing cores – each tailored and power-optimized for specific functions – and all harmonized to provide the best possible user experience. In addition to the two Cortex-A15 cores, the OMAP 5 processor includes individual, dedicated engines for: video, imaging and vision, DSP, 3D graphics, 2D graphics, display and security. The processor also includes two ARM Cortex-M4 processors for offloading real-time processing from the Cortex-A15 cores to improve low-level control and responsiveness of mobile devices.

“We continue to see high performance mobile devices, such as advanced Smartphones and tablets, requiring increased processor performance while remaining within the restricted mobile power consumption boundaries,” said Mike Inglis, EVP and general manager of the ARM Processor Division. “The OMAP 5 processor highlights the advantage of the ARM business model. The relationship enables product differentiation through the integration of low power multi-core ARM processor cores with the partners’ own system-on-chip technologies, including power management, audio and video processing. ARM is proud to have contributed to the OMAP 5 platform, which enables OEM customers to leverage the extensive ARM software ecosystem to quickly deliver innovative new mobile solutions.”

Next-generation natural user interfaces

Natural user interfaces (NUI) – how we interact with the world around us in an intuitive, natural way – are taken to the next level with the OMAP 5 platform’s advanced support for S3D, gesturing (including proximity sensing), and interactive projection.

The OMAP 5 processor can support up to four cameras in parallel, as well as record and play back S3D video in 1080p quality, and perform real-time conversion of 2D content to S3D at 1080p resolution. The new processor can also deliver advanced short- and long-range gesturing applications, as well as full-body and multi-body interactive gestures, utilizing either 2D or S3D cameras. The OMAP 5 processor, coupled with a TI DLP® Pico™ projector and a camera, can also enable interactive projection where the user can actually “touch and drag” projected images on both a table top or wall.

Additionally, the OMAP 5 processor can interface with and leverage a wide variety of sensor technologies to enable touchless sensing, such as proximity sensing, capacitive sensing and ultrasonic sensing.

Computational photography – the industry’s next frontier

Today, most mobile devices are equipped with built-in cameras; however, due to the physical limitations of the device, picture and video quality is not on par with stand-alone consumer electronic products, such as digital SLR cameras. In order to close this quality gap, computational algorithms are used to compensate for these limitations. The OMAP 5 processor includes hardware and software resources that enable the development and deployment of such algorithms, such as camera stabilization, motion blur reduction, noise reduction, high dynamic range and face-based processing. The new processor also goes a step further by using the same OMAP 5 hardware resources with vision algorithms to extract features and data from the picture, in order to implement applications such as face recognition, object recognition and text recognition. These vision capabilities can also be used as the foundation for many different and exciting augmented reality applications.


Industry’s best all-around applications processor platform

The OMAP 5 platform sports an impressive list of features and benefits supporting everything from open source platforms to complementary TI technologies