FPGA uses time as third dimension to boost performance

Spacetime hardware dynamically reconfigures logic, memory, and interconnect at multiGHz rates, with the reconfiguration managed by the Spacetime compiler. Tabula says its devices will have significant density advantages and dramatically shorter interconnects when compared to fpgas that use 2d architectures. "The key to Spacetime and its many advantages is resolving the interconnect problem intrinsic to FPGAs," said Steve Teig, pictured left, Tabula's president and cto. "Almost 90% of the core area of fpgas is devoted to the implementation and control of interconnect. Besides driving up die size and product cost, the long connections also limit performance and make timing closure more difficult. If you're going to achieve a breakthrough in programmable capability and affordability, you have to make the interconnect more efficient, and that's what Spacetime does." "The programmable logic market is one of the most profitable segments of the semiconductor industry," said Dennis Segers, pictured right, Tabula's ceo. "Since 2000, however, there has been only incremental improvement in fpga architectures and circuits from the market leaders, leaving programmable logic customers underserved and limiting growth for the industry segment. With the Spacetime architecture, Tabula will bring unprecedented value into the programmable logic space, restoring innovation into this formerly vibrant market and accelerating its growth." Tabula claims that, when compared to a 40nm fpga, a 40nm Spacetime device will deliver 2.5x more logic density, double the memory density, 2.9x more memory ports and four times the dsp performance.