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Intel driving Data-Centric World with new 10nm Intel Agilex FPGA FamilyIntel driving Data-Centric World with new 10nm Intel® Agilex™ FPGA Family April 3, 2019 -- Intel announced today a brand-new product family, the Intel® Agilex™ FPGA. This new family of field programmable gate arrays (FPGA) will provide customized solutions to address the unique data-centric business challenges across embedded, network and data-center markets. “The race to solve data-centric problems requires agile and flexible solutions which can move, store and process data efficiently. Intel Agilex FPGAs deliver customized connectivity and acceleration while delivering much needed improvements in performance and power1,2 for diverse workloads,” said Dan McNamara, Intel senior vice president, Programmable Solutions Group. Why It’s Important: Customers need solutions that can aggregate and process increasing amounts of data traffic to enable transformative applications in the emerging, data driven industries like edge computing, networking and cloud. Whether it’s through edge analytics for low-latency processing, virtualized network functions to improve performance, or datacenter acceleration for greater efficiency, Intel Agilex FPGAs are built to deliver customized solutions for applications from the edge to the cloud. Advances in artificial intelligence (AI) analytics at the edge, network and the cloud are compelling hardware systems to cope with evolving standards, support varying AI workloads, and integrate multiple functions. Intel Agilex FPGAs provide the flexibility and agility required to meet these challenges and deliver gains in performance and power1,2. How this is Unique: The Intel Agilex family combines FPGA fabric built on Intel’s 10nm process with innovative heterogeneous 3D SiP technology. This provides the capability to integrate analog, memory, custom computing, custom I/O, and Intel eASIC device tiles into a single package with the FPGA fabric. Intel delivers a custom logic continuum with reusable IPs through a migration path from FPGA to structured ASIC. One API provides a software-friendly heterogeneous programming environment, enabling software developers to easily access the benefits of FPGA for acceleration. The Intel Agilex FPGA provides new capabilities to help accelerate the solutions of tomorrow. These innovations include:
More Context: LINK to website, whitepaper, Dan McNamara Blog * Other names and brands may be claimed as the property of others. For more complete information visit www.intel.com/benchmarks. Intel does not control or audit third-party benchmark data or the web sites referenced in this document. You should visit the referenced web site and confirm whether referenced data are accurate. Cost reduction scenarios described are intended as examples of how a given Intel-based product, in the specified circumstances and configurations, may affect future costs and provide cost savings. Circumstances will vary. Intel does not guarantee any costs or cost reduction. Further details on Intel Agilex performance, power, and software support numbers: Derived from benchmarking an example design suite comparing maximum clock speed (Fmax) achieved in Intel Stratix 10 devices with the Fmax achieved in Intel Agilex devices, using Intel Quartus Prime Software. On average, designs running in the fastest speed grade of Intel Agilex FPGAs achieve a 40 percent improvement in Fmax compared to the same designs running in the most popular speed grade of Stratix 10 devices (-2 speed grade), tested February 2019. 2 Up to 40 percent lower total power compared to Intel Stratix 10 FPGAs Derived from benchmarking an example design suite comparing total power estimates of each design running in Intel Stratix 10 FPGAs compared to the total power consumed by the same design running in Intel Agilex FPGAs. Power estimates of Intel Stratix 10 FPGA designs are obtained from Intel Stratix 10 Early Power Estimator; power estimates for Intel Agilex FPGA designs are obtained using internal Intel analysis and architecture simulation and modeling, tested February 2019. 3 Up to 40 TFLOPs of DSP Performance (FP16 Configuration) Each Intel Agilex DSP block can perform two FP16 floating-point operations (FLOPs) per clock cycle. Total FLOPs for FP16 configuration is derived by multiplying 2x the maximum number of DSP blocks to be offered in a single Intel Agilex FPGA by the maximum clock frequency that will be specified for that block.
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