As we dive deeper into the nanometer space, we must rethink the way we design.
Baseband I and Q is transforming from analog to digital. Your world as a baseband or RF designer is changing dramatically as a result of this trend.
As data rates and the number of transceiver channels in advanced FPGAs increase, itÃƒÂ¢Ã¢â€šÂ¬Ã¢â€žÂ¢s increasingly important that the FPGA is designed to properly isolate analog and digital sources.
FPGAs are an ideal platform for system-on-a-chip (SoC) integration due to their inherent flexibility and time-to-market advantages.
Challenges for todayÃƒÂ¢Ã¢â€šÂ¬Ã¢â€žÂ¢s high-end digital systems include increasing performance, reducing power consumption, and increasing system bandwidth and integration.
High-speed DDR3 memory design can be challenging because DDR3 introduces deliberately staggered data at higher frequencies.
Stratix III FPGAs support SGMII GigE operation on LVDS I/O pins at 1.25 Gbps.
Altera's proprietary Programmable Power Technology enables the StratixÃƒâ€šÃ‚Â® III logic fabric to consume less core power than Virtex-5.
For success in the world of portable application design, you need
every possible advantage. CPLDs can provide that advantageÃƒÂ¢Ã¢â€šÂ¬Ã¢â‚¬Âthey are a
See how designers of future wireless technologies can leverage
OFDMA-MIMO solutions from Altera to accelerate their system design.
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