First FPGA to provide up to 10X bandwidth with integrated HBM2 memory1
By 2020 there will be 1 ZB of data center traffic2, 50 B interconnected devices3, 8K video broadcasts4, and 400G5 networking systems. You need a solution that can handle what’s coming. Intel® Stratix® 10 MX devices, featuring DRAM system-in-package (SiP) provide:
Intel Stratix 10 MX FPGA is the essential multi-function accelerator for high-performance computing (HPC), data center, virtual networking functions (NFV) and broadcast applications.
White Paper: Stratix 10 MX Devices Solve the Memory Bandwidth Challenge
Stratix 10 MX devices combine the programmability and flexibility of Stratix 10 FPGAs and SoCs with 3D stacked high-bandwidth memory 2 (HBM2). The HyperFlex™ FPGA Architecture enables high-performance core fabric that can efficiently utilize the bandwidth from the in-package memory tile. The DRAM memory tile is physically connected to the FPGA using Intel’s Embedded Multi-Die Interconnect Bridge (EMIB) technology.
Stratix 10 MX devices offer extensive system-level integration that includes:
- Heterogeneous 3D SiP transceiver tiles with path to data rates up to 56 Gbps
- Up to 10 tera floating point operations per second (TFLOPS) of IEEE 754 compliant single precision floating-point digital signal processing (DSP) throughput
- Secure Device Manager (SDM) with the most comprehensive security capabilities
- Up to 90 Mbits of embedded SRAM (eSRAM) to supplement existing block RAM
- Ground breaking HyperFlex FPGA Architecture
Stratix 10 MX devices offer 10X more bandwidth versus current discrete memory solutions such as DDR4. Traditional DDR4 DIMMs provide ~21 GBps bandwidth while 1 HBM2 tile provides up to 256 GBps.
Stratix 10 MX devices integrate up to two HBM2 devices in a single package, enabling a maximum memory bandwidth of up to 512 GBps.
Stratix 10 MX devices integrate HBM2 memory next to the core fabric. The interconnect between the core fabric and memory is significantly shorter, thereby reducing the amount of power traditionally spent driving long PCB traces. The traces are unterminated and there is reduced capacitive loading, which results in lower I/O current consumption. The net result is lower system power and optimum performance per watt.
Smaller Form Factor and Ease of Use
Enhanced Embedded SRAM
Stratix 10 MX devices offer fast path, low-latency on-chip memory through embedded SRAM (eSRAM). eSRAM supplements already existing block RAM. eSRAM features include:
- Higher Bandwidth: 11.25X more aggregate (read and write) bandwidth relative to discrete QDR IV-10666
- Lower Power: 2.6X total lower power compared to discrete QDR IV (Watts/Gbps)6
- Ease of Use: Direct fabric interface, no controller needed, reduced consumption of M20K blocks
- Reduced Board Cost and Complexity:
- Reduced PCB congestion and layer count
- Helps replace or minimize the need for discrete QDR
- Zero EMIF I/O consumption
- Ideal for applications requiring highest levels of random transaction rates (RTR)
- As compared to a standard DDR 2400 DIMM. See the “Intel® Stratix® 10 MX Devices Solve the Memory Bandwidth Challenge White Paper” at https://www.altera.com/content/dam/altera-www/global/en_US/pdfs/literature/wp/wp-01264-stratix10mx-devices-solve-memory-bandwidth-challenge.pdf for more information.
- Evans, Dave, Cisco Internet Business Solutions Group (CIBSG). The Internet of Things – How the Next Evolution of the Internet is Changing Everything, April 2011.
- Cisco, Cisco Global Cloud Index: Forecast and Methodology, 2014–2019, 2015.
- CNET, 8KTV broadcasting coming to Japan during 2016 Olympics, March 7, 2016.
- www.ethernetalliance.org. Ethernet Roadmap. 2015.
- Tests measure performance of components on a particular test, in specific systems. Differences in hardware, software, or configuration will affect actual performance. Consult other sources of information to evaluate performance as you consider your purchase. For more complete information about performance and benchmark results, visit www.intel.com/benchmarks.