Green Hills Software, Inc., a leading provider of real-time operating systems (RTOS) and device software optimization (DSO), has announced the immediate availability of its entire DSO product line for Xilinx Virtex-4 Platform FPGAs. This includes the INTEGRITY real-time operating system (RTOS), PowerPC compilers, TimeMachine debugger, MULTI integrated development environment (IDE), Green Hills probe, and SuperTrace probe.
Together, these products form an optimized and highly integrated DSO solution that enables Virtex-4 system developers to create the highest performing and most reliable product in the least amount of time and at the lowest cost for solutions in the networking, medical, automotive, avionics, defense and industrial control markets.
Advanced hardware/software solution for software defined radio
Xilinx and Green Hills have collaborated to develop an integrated hardware and software solution for Software Defined Radio (SDR). This solution integrates the Green Hills Software Platform for Software Defined Radio, including the tools and embedded software required to develop and deploy Software Communications Architecture (SCA)-compliant SDR systems, with the Virtex-II or Virtex-4 FPGAs.
The INTEGRITY RTOS provides POSIX conformant interfaces required by the SCA, bullet-proof reliability, and dynamic loading of components required to realize a truly software-configurable radio. The Xilinx platform FPGA provides best-in-class power efficiency, incorporating digital signal processing (DSP) as well as embedded PowerPC general-purpose processing, which results in reduced component count and footprint over legacy radio designs. Furthermore, Xilinx FPGAs enable IP blocks to be field upgraded, providing maximum waveform coverage with minimum hardware resources.
INTEGRITY Integration with Xilinx EDK
According to Green Hills, INTEGRITY represents the most advanced RTOS technology on the market today, achieving unprecedented levels of reliability, availability, and serviceability for applications in telecommunications, aviation, defense, networking, automotive, consumer, medical, and other industries.
INTEGRITY has been integrated with the Xilinx Embedded Development Kit (EDK), enabling a complete INTEGRITY Board Support Package (BSP) to be configured and automatically generated from the Xilinx graphical environment, making it extremely easy to develop and deploy INTEGRITY-based applications. Target development boards include the Xilinx ML403 and Avnet FX. Peripheral support includes interrupt controllers, Ethernet, serial/UART, and DDR RAM.
The MULTI TimeMachine suite offers a wide variety of trace analysis tools that enable embedded software developers to find and fix bugs faster, optimize with ease, and test with confidence. TimeMachine provides unprecedented visibility into the complex interactions in software that can result in bugs, performance problems, and testing nightmares.
Trace data is collected off of the PowerPC core by the Green Hills Software SuperTrace probe and then uploaded to the host computer for analysis within TimeMachine. By presenting this information in easy-to-understand displays, TimeMachine enables developers to quickly navigate through trace data and produce better code in less time.
For more than a decade, Green Hills Software's compilers have led the world in performance and footprint of generated PowerPC code. The Xilinx platform FPGAs incorporate the IBM PowerPC 405 core. IBM has chosen the Green Hills compilers to publish certified processor performance scores for the PowerPC 405 on the Embedded Microprocessor Benchmark Consortium (EEMBC) suite.
In addition, the Green Hills Software compiler has built the Linux kernel for the PowerPC 405, generating 30% smaller code than the bundled GCC compiler. Smaller footprint and faster code translate directly into lower production cost and higher quality for embedded products.
For more information on the Green Hills DSO solution, contact Barbel French (email@example.com; +1-805-965-6044) at Green Hills Software (www.ghs.com). For more information on Virtex-4 platform FPGAs, visit the Xilinx website at www.xilinx.com.