Xilinx takes processor-centric approach to deliver platform that combines the best of serial and parallel processing
SAN JOSE, Calif., April 27, 2010 --Embedded Systems Conference -- Xilinx Inc. (Nasdaq: XLNX) today introduced the architecture for a new Extensible Processing Platform that will deliver unrivaled levels of system performance, flexibility and integration to developers of a wide variety of embedded systems. The ARM(R) Cortex(TM)-A9 MPCore(TM) processor-based platform enables system architects and embedded software developers to apply a combination of serial and parallel processing to address the challenging system requirements presented by the global demand for embedded systems to perform increasingly complex functions.
The Xilinx(R) Extensible Processing Platform offers embedded systems designers a processor-centric design and development approach for achieving the compute and processing horsepower required to drive tasks involving high-speed access to real-time inputs, high-performance processing and complex digital signal processing -- or any combination thereof -- needed to meet their application-specific requirements, including lower cost and power.
"Today's embedded software developer is being tasked to build complex applications that require tremendous levels of system performance, and they need to deliver that performance within tightly managed cost, schedule and power budgets," said Vin Ratford, Xilinx Senior Vice President for Worldwide Marketing and Business Development. "By creating an architecture within a familiar ARM processor-based development framework, this new Extensible Processing Platform can be the engine of innovation for many design teams held back today by performance bottlenecks."
A software-centric development flow is enabled by a processor-centric approach which presents a full processor system - including caches, memory controllers and commonly used connectivity and I/O peripherals - that boots and can run a variety of operating systems (OS) at power-up, such as Linux, Wind River's VxWorks and Micrium's uC-OSII. The ARM architecture and its Connected Community ecosystem further maximize productivity for developers of embedded systems, while unrivaled performance is achieved by Xilinx's architecting the subsystem around ARM's dual-core Cortex(TM)-A9 MPCore(TM) processors, each running at up to 800 MHz, combined with the parallel-processing capabilities of Xilinx's high-performance, low-power 28-nanometer programmable logic. The programmable logic is tightly coupled with the processor system through the high-bandwidth AMBA(R)-AXI(TM) interconnects to accelerate key system functions by up to 100x, using off-the-shelf and/or custom IP. This architectural approach addresses common performance bottlenecks between these parallel and serial computing environments, memory and I/O. It also gives the processor system configuration control of the programmable logic, including dynamic reconfiguration.
"Taking advantage of the parallelism of programmable logic is an excellent method for overcoming cost and power challenges in systems that require significant levels of high performance," said Simon Segars, President ARM Inc. "Xilinx's new architecture abstracts much of the hardware burden away from the embedded software developers' point of view, giving them an unprecedented level of control in the development process."
Software developers can leverage their existing system code based on ARM technology and utilize vast off-the-shelf open-source and commercially available software component libraries. Because the system boots an OS at reset, software development can get under way quickly within familiar development and debug environments using tools such as ARM's RealView development suite and related third-party tools, Eclipse-based IDEs, GNU, the Xilinx Software Development Kit and others.
Unrivaled Performanceto Enable New Applications
Demand for higher levels of embedded system performance is being driven by end market applications that require multifunctionality and real-time responsiveness, such as automotive driver assistance, intelligent video surveillance, industrial automation, aerospace and defense, and next-generation wireless. In the automotive sector alone, with greater than 50 million cars produced each year, and an estimated 600 million motor vehicles on the road, today's $1.3-billion-dollar driver assistance market is expected to grow to $5.8 billion by in 2017(1) as manufacturers deploy more embedded systems in their vehicles to make them safer.
With statistics showing that 60 percent of front-end collisions could have been avoided with an extra .5-second response time, or that driver fatigue accounts for an estimated 30 percent of all driver fatalities, the motivation to leverage technology to save lives is clear. As developers of driver assistance systems pack more compute power into their applications, radar and infrared sensors, cameras and other system components must be installed into confined spaces within the automobile. The new Xilinx Extensible Processing Platform offers a single-chip solution for optimizing application-specific hardware/software partitioning and accelerating functions in hardware to drive complex algorithms. This enables customers to further differentiate their embedded systems to gain a competitive advantage in their markets.
In a market expected to reach $46 billion by 2013(2), developers of new intelligent video technologies need processing platforms for building applications that can automatically monitor video patterns and body language, combined with audio, to make intelligent decisions and send alerts, thus reducing the chance for errors. The technology is already moving to full high-definition video and frame rates up to 60 frames per second, but current solutions do not offer sufficient compute power for image processing and advanced analytic functions. The dual Cortex-A9MPCore-based processor system, coupled with the massive parallel-processing capabilities of the programmable logic, enables this capability. Developers also gain an opportunity for innovative algorithm design, scalability and field upgradability within a familiar ARM-based design environment.
Wireless telecommunication is being driven by the need for lower power, smaller physical form factors and reduced development costs, to support an ever-increasing number of users and data-hungry applications. New technologies such as 4G LTE (Long-Term Evolution) can address bandwidth requirements, but smaller, more efficient base stations are essential to meeting overall market requirements. The Xilinx Extensible Processing Platform will help developers of next-generation wireless base stations to meet these needs by providing high-bandwidth parallel processing of 4G signals in combination with multiuser data management on Cortex A9 processors - all in a small, power-efficient, cost-effective integrated solution. Because the platform is extensible, developers have the flexibility to implement future equipment updates and performance upgrades of both hardware and software.
The new Extensible Processing Platform is part of Xilinx's Targeted Design Platform strategy, which provides customers with market- and application-specific environments that are easy to use, enabling them to evaluate and understand technology, and finally provide application platforms that can be modified and extended to accelerate their development time and focus on differentiation. Xilinx has also engaged with ARM Services to provide detailed ARM Cortex-A9 hardware training for design teams and field application engineers who will be supporting the eventual product rollout.
Visit the Xilinx booth (#1716) at the Embedded Systems Conference to see and learn more. Pricing and availability will be announced for products based on the Extensible Processing Platform architecture in early 2011. Visit www.xilinx.com/technology/roadmaps and click the link to "Be the First to Know" for product details, as they become available.
Xilinx is the world's leading provider of programmable platforms, with more than 50 percent market share in the programmable-logic device (PLD) segment of the semiconductor industry. For more information, visit http://www.xilinx.com/.