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News Release from: picoChip Designs | Subject: WiMax PHY library
Edited by the Electronicstalk Editorial
Team on 09 April 2004
Building blocks to speed wireless
upgrades
picoChip is developing a WiMax PHY library, to run on its picoArray processor.
picoChip is developing a WiMax PHY library, to run on its picoArray processor The company already has a number of OFDM building blocks, and this development integrates them to deliver an end-to-end solution, enabling OEMs to accelerate their development of cost-effective WiMax-certified systems
This article was originally published on Electronicstalk on 4 Dec 2002 at 8.00am (UK)
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picoChip Designs has sampled its first device, the PC101, which delivers a massive computational power of 30GMACs per second.
This complements the company's successful reference designs for WCDMA and HSDPA.
The standards agility of the picoArray architecture "future-proofs" today's designs, even as the IEEE802.16 standard evolves to the more complex d and e revisions.
Doug Pulley, cofounder and CTO of picoChip said: "Key manufacturers are already using picoArrays in both 3G and WiMax basestations, but the availability of this library will accelerate the development and deployment of WiMax compliant systems.
Further reading
Demo proves software-defined basestation concept
picoChip Designs has demonstrated the first 3G call using a software-defined basestation.
3G basestation reference design comes on a CD
picoChip Designs has developed the industry's first software reference design for 3G basestations.
Soft basestation extends to 3.5G for faster data
The industry's first high-speed downlink packet access (HSDPA) solution has been added to the novel "3G basestation on a CD" reference design from picoChip Designs.
What is more, we can deliver upgradeable WiMax with dramatically better price-performance than traditional architectures, and thus completely replacing DSP and FPGAs".
Andy Fuertes, Senior Analyst with Visant Strategies and author of the recently published study, "802.16/WiMax technologies: world market forecasts 2003-2008", commented: "The 802.16 market could emulate 802.11's rise as it hits price and performance targets, creating major opportunities for companies.
However, it is a complex standard, with three different physical layers, a host of possible configurations (for example, TDD/FDD, channel bandwidth) and a number of optional features.
The flexibility in the standard, limited availability of CPE equipment and time-to-market pressure make a software solution highly desirable, especially for the basestation".
Fuertes concludes: "The picoChip solution will accelerate market acceptance of 802.16 by enabling carriers to deploy early while retaining the ability to upgrade to mobility (802.16e) and full WiMax compliance later.
The solution is effectively an insurance policy against obsolescence and the risks of a rapidly evolving standard and segment".
The picoArray provides unprecedented flexibility to address evolving standards or the introduction of new features, and it is straightforward to implement IEEE802.16d (next generation fixed), 802.16e (mobility) or HPI, the Korean broadband wireless standard.
This includes trouble-free support for TDD or FDD, increased channel bandwidths, larger FFT sizes, subchannelisation or new FEC-modes (convolutional turbo-code).
It also enables efficient use of multiple antennas at high sample rates, critically important for advanced algorithms such as adaptive antennas, space-time-coding (STC) and MIMO.
The system is suited to both basestations and high-end subscriber stations.
The picoArray delivers radical improvements in price/performance and development time.
It combines the price and programmability of a traditional DSP with the performance of a FPGA/ASIC.
The picoChip PC102 at 160MHz and 4W delivers performance of 200GIPS, which can include sustained 40GMACs - approximately ten times more than a top-of-the-line DSP.
For example, an Analog Devices TigerSHARC TS201 at 600MHz delivers 4.8GMACs or Texas Instruments' TMS320C6416 delivers 4.0GMACs at 1GHz.
A realistic 20Msample/s 256-point complex FFT would take less than 5% of the PC102's capability; and a 2048-point transform for OFDMA mode would require just 8%.
Similarly, a 100-tap FIR digital filter (say a 10MHz channel with oversampling) might completely fill a normal DSP or require an FPGA, but uses less than 5% of one picoArray.
For error correction (Reed-Solomon and Viterbi) a single PC102 device can very easily decode sustained datarates of better than 100Mbit/s, eg for multicarrier basestations, with ample extra capability.
The picoChip WiMax library compliments the company's existing reference designs for WCDMA and HSDPA.
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