Stratix 10 DRAM SiP will offer over 10X higher memory bandwidth relative to discrete DRAM solutions that are available today. This unprecedented level of bandwidth is required in data center, broadcast, wireline networking and high-performance computing systems, which are processing an ever-increasing amount of data.

Altera is the first company to integrate this breakthrough 3D stacked memory technology alongside an FPGA. Stratix 10 DRAM SiP enables users to customize their workloads and achieve the highest memory bandwidth in a power-efficient manner. Altera is actively working with over a dozen customers to integrate these DRAM SiP products into their next-generation high-end systems.

Heterogeneous SiP products from Altera are enabled by using Intel’s Embedded Multi-Die Interconnect Bridge (EMIB) technology. EMIB technology uses a small high-performance, high-density silicon bridge to connect multiple die together in a single package. EMIB technology features very short traces between die, allowing Altera to cost-effectively build heterogeneous SiP devices that provide higher performance and higher throughput at lower power compared to interposer-based solutions.

“Supporting higher memory bandwidth requirements is one of the biggest challenges many of our customers face as they implement more computationally intensive tasks in their systems, such as machine learning, big data analytics, image recognition, workload acceleration and 8K video processing,” said Danny Biran, senior vice president of corporate strategy and marketing at Altera.

“High-performance applications are driving industry demand for HBM2 DRAM technology. At 256GB-per-second bandwidth and 66 percent lower energy per bit, HBM2 opens up new application domains which were previously unimaginable,” said Kevin Widmer, SK Hynix America vice president of technical marketing

. “Combining high-performance FPGAs and HBM2 into a single system-in-package represents a significant milestone in offering energy-efficient, high-bandwidth compute capabilities.”