UCF Consortium Announces OpenSNAPI Project to Develop an Open, Standard Application Programming Interface for Smart Networking Adapters
Standard API will allow application developers to leverage network compute cores to further accelerate application runtime and enable open, data-centric computing architectures
SANTA CLARA, Calif.–(BUSINESS WIRE)–The Unified Communication Framework (UCF), a collaboration of industry, laboratories, and academia to create production-grade communication frameworks and open standards for data-centric and high-performance applications, today announced the formation of the Open Smart Network Application Programming Interface (OpenSNAPI) project.
New technologies continue to be developed to support the migration of the data center architecture from the old CPU-centric concept to the data-centric concept. An important part of this transition has involved the creation of new compute options, including smart and programmable interconnect solutions, also referred to as Smart Networking Adapters/SmartNICs or Data Processing Units (DPUs). DPUs are interconnect elements that include specialized in-Network Computing engines, which are engines that can participate in the application runtime and analyze application data as it is being transferred within the data center, or generic compute cores. DPUs can be used to enhance supercomputing performance, offload security or virtualization functions, increase storage performance, and more. Through collaboration between industry, laboratories, and academia within the UCF consortium, the goal of OpenSNAPI is to define and create a standard application programming interface (API) for accessing the compute engines on the network – specifically on a smart network adapter.
“The new world of data opens the door for higher degrees of scientific simulations which enable solving problems previously considered intractable, and for developing advanced deep learning engines,” said Steve Poole, distinguished senior scientist and chief architect at Los Alamos National Laboratory and UCF board member. “Our goal with OpenSNAPI is to further enable application developers to leverage the network compute cores in parallel to the host compute cores for accelerating application runtime, and to perform operations and processing much closer to the data. We invite the industry and academia to join us in this important endeavor.”
“With more devices coming online each day come new data sets that need to be processed, driving the need for compute efficiency,” said Brent Gorda, senior director of HPC, Infrastructure Line of Business, Arm. “The power constraints of SmartNIC devices reinforce the importance of the flexible, efficient IP solutions we are providing to our ecosystem. The OpenSNAPI unified API is helping to expand the applicability of emerging use-cases, such as in-network computing, and ultimately enabling more efficient data processing through broader deployments of SmartNICs.”
The UCF consortium manages several open-source development projects, including UCX and UCX for Apache Spark™. UCX provides an open unified communication software framework that enables users to exploit the capabilities of new high-performance computing systems, meet demands for scalability on millions of cores and support applications with critical functionality. UCX for Apache Spark is a high-performance, scalable and efficient ShuffleManager plugin for Apache Spark that utilizes RDMA and other high-performance transports to reduce CPU cycles needed for Shuffle data transfers. For more information on the consortium, or to become a member, please visit www.ucfconsortium.org.
Unified Communication Framework is an essential enabler of co-design, opening the opportunity for innovation and development of heterogeneous co-processing elements working together synergistically and seamlessly to achieve a robust and capable ecosystem for exascale computing and beyond. The emergence of many-core processing architectures, field-programmable gate arrays, interconnect intelligence and data-aware storage are just some of the key technologies that depend on the ability to effectively communicate within such a framework to realize the potential of their capabilities.
Los Alamos National Laboratory, a multidisciplinary research institution engaged in strategic science on behalf of national security, is managed by Triad a public service oriented, national security science organization equally owned by its three founding members: Battelle Memorial Institute, The Texas A&M University System and The Regents of the University of California for the Department of Energy’s National Nuclear Security Administration. Los Alamos enhances national security by ensuring the safety and reliability of the U.S. nuclear stockpile, developing technologies to reduce threats from weapons of mass destruction, and solving problems related to energy, environment, infrastructure, health and global security concerns.
UCF MWG Chair