Reconfigurable computing gives you the best combination of the performance of hard-wired with programmability so you can adapt to new needs, protocols, standards, and algorithms.
eFPGA IP is proven in more than 20 chips with dozens more in design. DSP/AI IP now available: world class performance at a fraction of the cost and power.
Embed flexible parallel processing performance in your SoC.
As fast as 500MHz over worst-case conditions. Or super low power.
1K to >1M LUTs with DSP and BRAM options.
>20 working chips and dozens more in design.
Proven graphical user interface compiler and design/debug tools.
Integrate flexible parallel processing performance in your FinFet SoC.
Keep the flexibility and programmability of your FPGA while cutting power and cost 5-10x.
Double compute density (two chips into one).
Renesas is using TSMC 40nm 1K LUTs to build a family of FPGAs unlike any before:
<50¢ in volume, tiny, milliwatts for very high-volume applications.
Based on Flex Logix EFLX eFPGA and Compiler.
eFPGA can enable you or your customers to use the parallelism of eFPGA to run workloads like compression faster than the processor.
And eFPGA can enable GPIO to be programmable to interface with ANY customer chip.
Many ASIC/Design Services firms have already done one or more tape-out with eFPGA.
Many RTL IP companies have FPGA-compatible RTL you can use on your eFPGA for encryption, compression, etc.
Two front-end tools are proven for Verilog Synthesis front ends to the EFLX Compiler.
InferX is 80% hard-wired and 100% reconfigurable, so it is both super efficient and adaptable. We program it to run DSP or AI.
You can have performance as good or better than the best DSP-FPGA or AI-GPU in your SoC at a fraction of the cost and power.
FPGA interconnect with 1/2 transistors and 1/2 metal layers.
Self-connecting compute tiles arrayable for scalable capacity and compute.
Rapidly reconfigurable, eFPGA-controlled tensor processors.
