Xilinx unveils a new class of compute IC
Programmable device company Xilinx has outlined an architecture that it claims represents a new class of computing chip.
The silicon architecture has been four years in the making, involved 1,500 engineers and cost over $1 billion in R&D investment.
Dubbed the adaptive compute acceleration platform (ACAP), the first device will be fabricated using TSMC’s state-of-the-art 7nm CMOS process and will tape out later this year. The largest ACAP devices will use as many as 50 billion transistors.
“Based on the limited information from Xilinx, it is difficult to say what ACAP is, much less whether it creates a new product category,” says Linley Gwennap, principal analyst at The Linley Group.
That said, Gwennap believes the next-generation Xilinx products are far more than simply moving its FPGA technology to a 7nm CMOS. “The company has clearly put significant effort into improving the capabilities of these products to address 5G wireless, machine learning (AI), and other advanced applications,” says Gwennap.