3/19/2004 - IPFlex Inc. and Fujitsu Limited announced the commercial release of their jointly developed processor, the DAP/DNA®-2 (Digital Application Processor/Distributed Network Architecture), which features a unique ability to dynamically reconfigure its internal circuitry. Employing the newly developed processor enables systems to perform multiple processing tasks with a single-chip solution that previously required several specialized chips.
The DAP/DNA®-2 is the first commercial, general-use dynamically reconfigurable processor in the world. In recent years, there has been a strong demand for logic devices that can flexibly be applied to satisfy various product specifications as well as shorten the product development time. DAP/DNA-2 offers the next-generation solution architected to meet these needs.
From the early stages of DAP/DNA development, IPFlex has been building partnership with Fujitsu on the physical design and manufacturing. In December 2002, the two companies formed an equity collaboration and further tightened the relationship for their joint development work.
In December 2003, Fujitsu acquired a technology license for the dynamically reconfigurable processor from IPFlex, making Fujitsu its first strategic partner in development, manufacturing, and sales activities. The two companies plan to continue improving the performance and applicability of this technology and to extend it into Fujitsu's system-on-chip (SoC) products.
The DAP/DNA-2 is the first product to use dynamic reconfiguration technology, enabling customers to accelerate their product development cycle and reduce their development costs.
DAP/DNA-2: Key features
The DAP/DNA-2 is the first commercialized version of the DAP/DNA series, and combines IPFlex's logic design with Fujitsu's physical design and manufacturing capabilities. Among its key features are the following:
The DAP/DNA-2 is a dual-core processor: DAP refers to the high-performance RISC core, and DNA to a two-dimensional matrix of PEs.
The main specifications are as follows:
Pricing and Availability
Both partners are taking orders for DAP/DNA-2 beginning March 17, and expect to begin shipping sample quantities in Japan in mid-May. Please contact the companies directly for a quote on the DAP/DNA-2. The DAP/DNA-FW II is available in Japan for 3.5 million yen (excl. tax).
IPFlex®, DAP/DNA®, and Software to SiliconR are all registered trademarks of IPFlex Inc.
IPFlex was founded in March 2000 as a fabless semiconductor company focused on developing dynamically reconfigurable processors and its integrated development software. DAP/DNA (Digital Application Processor/Distributed Network Architecture) dynamically reconfigurable processor is designed as a dual-core processor comprised of a high-performance RISC core (DAP) and a dynamic reconfigurable processor core (DNA), and it is a platform that provides hardware performance while maintaining software flexibility. The DAP/DNA dynamic reconfigurable processor series is provided with the DAP/DNA-FW II as the integrated software development environment. It provides compilers for algorithms written in MATLAB/Simulink and C with data flow extension, thus realizing high-abstraction level algorithm design as well as leveraging existing intellectual properties of users. Using DAP/DNA can dramatically increase programming productivity and cut cost considerably. For more information, please see : http://www.ipflex.com.
Fujitsu is a leading provider of customer-focused IT and communications solutions for the global marketplace. Pace-setting technologies, highly reliable computing and telecommunications platforms, and a worldwide corps of systems and services experts uniquely position Fujitsu to deliver comprehensive solutions that open up infinite possibilities for its customers' success. Headquartered in Tokyo, Fujitsu Limited (TSE:6702) reported consolidated revenues of 4.6 trillion yen (US$38 billion) for the fiscal year ended March 31, 2003. For more information, please see : http://www.fujitsu.com/.
Previous Page | News by Category | News Search
If you found this page useful, bookmark and share it on: