SANTA BARBARA, CA — (Marketwired) — 10/22/13 — Green Hills Software, the largest independent vendor of embedded software solutions and most trusted supplier of embedded and mobile virtualization solutions, will deliver several technology presentations and demonstrate its latest technology at ARM TechCon, October 29 – October 31, 2013, at the Santa Clara Convention Center, CA, booth #512. For more information on Green Hills Software-s presence at ARM TechCon, visit: .
Green Hills Software presentations include:
The multicore environment, with its cutting-edge hardware and concurrent threads, adds another dimension to the development challenge, creating many more ways for code to fail. Many of these failures don-t show up during product testing but later, as costly product glitches. This session describes the top sources of runtime errors in multicore systems and how to avoid them with reliable code.
The global enterprise Android mobility market is growing rapidly, yet Android security solutions are in their infancy. This session discusses emerging technologies to address secure boot, data-at-rest and in-transit encryption, user authentication, and dual persona (BYOD/EOD) in an Android environment that has proven fertile to hackers. Session will also include discussion of the U.S. Government initiatives to build an ultra-secure smartphone using commercial off-the-shelf technology.
Achieving guaranteed deterministic real-time behavior along with uncompromising system availability and security in your embedded product can be fraught with errors unless you incorporate proven design practices built on proven products architected for the task. This presentation will discuss real-world examples and best practices to apply when designing embedded systems that must achieve bounded, deterministic real-time response, maximum system performance, smallest footprint and certifiable security and safety.
Most new product developments will use some form of multicore SoC. Engineers using the right embedded development software solutions are able to take full advantage of the performance and features these next-generation SoCs offer or inevitably face a difficult, time-consuming design and debug experience. This presentation and accompanying demonstration will show how multicore-ready operating systems, IDEs and hardware probes deliver advanced, intuitive, easy-to-use embedded software debug capabilities.
Typical embedded hardware, device driver and application software debug techniques can be cumbersome to use, slow to respond, and non-intuitive in their design. This presentation and accompanying demonstration will show how one of the world-s leading in vitro medical diagnostic solutions companies, bioMérieux, took advantage of ARM-s CoreSight on-chip debug and trace IP and the to enable powerful, non-intrusive visual debugging to find and fix bugs faster, tune and optimize with ease, and enable comprehensive testing of high-rate CAN field bus communications.
Traditional approaches to incorporating Linux into hard real-time, safety, and/or security-critical systems lack strong isolation of critical workloads and require prohibitively expensive modifications to Linux itself. This talk will explain how new ARM architecture hardware features enable Linux to be used in safety-critical designs, meeting stringent development cost, safety certification, and performance requirements.
Understanding the compilation process is crucial to generating the tightest code from your source code. Compiler technology has not yet run its course, and new cutting-edge optimizations have made enormous savings in execution and code size. This talk surveys a few of my favorite optimizations: some are old but highly effective, others are virtually unknown outside the close community of compiler developers. All of them, in my opinion, are fascinating.
Compile-time checking in C and C++ and static analysis can catch many sources of errors, but many of the errors that cause runtime failures don-t show up during product testing — they appear later as costly product glitches. This session describes the top sources of runtime errors and how to write secure and reliable code that avoids them.
In booth #512, Green Hills Software will showcase:
delivers a revolutionary security foundation for trusted mobile platforms. This commercially available standard platform features the industry-leading , running on Samsung smartphones and tablets. INTEGRITY-TMD platform securely separates one or more Android open application environments with safe device, network, and storage access as well as trusted device management — providing a rich Android experience in a safe, reliable manner for commercial, government and enterprise use.
Android is being considered for adoption in a multitude of new embedded applications, but it is not without its challenges. Slow boot times, security vulnerabilities, and an inability to support real-time applications are common problems that must be addressed to deploy successful Android-based systems. Green Hills Software will demonstrate a securely virtualized Android Jelly Bean-based platform featuring the world-s first ARM Virtualization Extension (VE)-enabled hypervisor, INTEGRITY Multivisor, running on a Texas Instruments (TI) OMAP 5 processor. The unique INTEGRITY Multivisor architecture provides hard real-time capabilities with fast boot performance for “instant on” critical functions. It supports mixed-criticality safety applications with multiple displays, while securely separating open application environments — providing a rich Android experience in a safe, reliable manner.
Founded in 1982, Green Hills Software is the largest independent vendor of embedded development solutions. In 2008, the Green Hills INTEGRITY-178 RTOS was the first and only operating system to be (National Information Assurance Partnership comprised of NSA & NIST) to EAL 6+, High Robustness, the highest level of security ever achieved for any software product. Our open architecture integrated development solutions address deeply embedded, absolute security and high-reliability applications for the military/avionics, medical, industrial, automotive, networking, consumer and other markets that demand industry-certified solutions. Green Hills Software is headquartered in Santa Barbara, CA with European headquarters in the United Kingdom. Visit Green Hills Software at .
Green Hills, the Green Hills logo, INTEGRITY and Multivisor are trademarks or registered trademarks of Green Hills Software in the U.S. and/or internationally. All other trademarks are the property of their respective owners.
Green Hills Software
Barbel French
805-965-6044
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