What's Really Behind the Adoption of eFPGA?
By Andy Jaros, VP of Flex Logix
System companies are taking a more proactive role in codesigning their hardware and software roadmaps, so it’s no surprise that they are also driving the adoption of embedded FPGAs (eFPGA.)
But why and why has it taken so long?
Today, most system companies leverage FPGAs to offload intensive compute workloads from the main processor or provide broader IO capability than any packaged ASIC can support. In these examples, the FPGA is used to connect any hard wired accelerator to the ASIC processor subsystem or facilitates the connection between the ASIC and the system’s bus. By definition, the FPGA is universal as it is a blank programmable fabric regardless if it’s from Intel, Xilinx, Lattice, etc., which makes it invaluable to system companies who can’t get the functionality they really need or want from their semiconductor partner. Plus, they get the added benefit that they don’t have to share their proprietary circuitry with their semiconductor partner or other companies in the supply chain.
To read the full article, click here
Related Semiconductor IP
- eFPGA
- Heterogeneous eFPGA architecture with LUTs, DSPs, and BRAMs on GlobalFoundries GF12LP
- eFPGA on GlobalFoundries GF12LP
- eFPGA Hard IP Generator
- Radiation-Hardened eFPGA
Related White Papers
- The Future of Embedded FPGAs - eFPGA: The Proof is in the Tape Out
- eFPGA Saved Us Millions of Dollars. It Can Do the Same for You
- Customized DSP -> DSP IP cores fuel PLD adoption
- Executable SystemC environment will drive ESL adoption
Latest White Papers
- Achieving Lower Power, Better Performance, And Optimized Wire Length In Advanced SoC Designs
- The pivotal role power management IP plays in chip design
- What tamper detection IP brings to SoC designs
- Analyzing Modern NVIDIA GPU cores
- RISC-V in 2025: Progress, Challenges,and What’s Next for Automotive & OpenHardware