Senior Cloud Software Development Engineer

Intel•Hillsboro, OR

4h•Onsite

About The Position

Join our Communication Runtimes team as a Senior Cloud Software Development Engineer to develop cutting-edge software features and optimizations for Intel's communication libraries including Intel SHMEM (Shared Memory Access), Intel MPI (Message Passing Interface), MPICH (Message Passing Interface Chameleon), and Intel oneCCL (Collective Communications Library) . This role has a primary focus on development for oneCCL , and there are opportunities to contribute to these other communication libraries. This role offers the opportunity to build expertise with the latest Intel GPUs and CPUs used in data centers, collaborate directly with scientists and engineers on the Aurora supercomputer at Argonne National Labs, and make meaningful contributions that advance scientific computing and machine learning capabilities. Key Responsibilities Communication Library Development Design, develop, and maintain advanced features and performance optimizations for oneCCL , with potential to contribute to Intel SHMEM, Intel MPI and MPICH libraries. Optimize software to achieve performance requirements including low latency, high bandwidth, and high reliability Implement and enhance communication protocols across multiple layers of the communications stack Cross-Functional Collaboration & Requirements Collaborate with cross-functional teams to define software requirements and technical specifications Work directly with scientists and engineers on high-performance computing applications and supercomputer implementations Partner with hardware teams to optimize software-hardware integration for maximum performance Performance Optimization & Analysis Develop performance optimizations that improve communication latency and throughput Conduct comprehensive performance analysis and benchmarking across different system configurations Debug complex problems spanning multiple layers of hardware and software stack What You'll Work On Aurora Supercomputer: Direct collaboration with Argonne National Labs on one of the world's most advanced supercomputers Cutting-Edge Hardware: Latest Intel GPUs and CPUs designed for data center and HPC applications Impact: Meaningful contributions to scientific computing breakthroughs and machine learning advancement Innovation: Development of next-generation communication libraries and optimization techniques Core Competencies Self-driven with high motivation to learn emerging technologies Outstanding analytical and problem-solving skills Excellent communication skills for technical collaboration Understanding of multiple levels of communications stack architecture

Requirements

Master's degree in Computer Science, Computer Engineering or in a STEM related field of Study
3+ years of software development experience
3+ years of Linux environment development experience
3+ years of C and C++ programming experience
Experience with multithreaded programming and parallel computing concepts
Distributed computing systems and architectures
HPC (High-Performance Computing) communications libraries
Collective communications libraries (MPI, oneCCL/NCCL, or SHMEM)
GPU software development and optimization
Network communications stack development (one or more layers)

Nice To Haves

Ph.D. degree in Computer Science, Computer Engineering or in a STEM related field of Study
Experience developing performance optimizations that measurably improve communications latency or throughput
Experience debugging complex problems across different layers of hardware and software stack
Deep understanding of high-performance computing architectures and optimization techniques
Experience with Intel GPU and CPU architectures and their optimization characteristics
Knowledge of supercomputing environments and large-scale distributed systems
Familiarity with scientific computing and machine learning communication patterns

Responsibilities

Communication Library Development Design, develop, and maintain advanced features and performance optimizations for oneCCL , with potential to contribute to Intel SHMEM, Intel MPI and MPICH libraries.
Optimize software to achieve performance requirements including low latency, high bandwidth, and high reliability
Implement and enhance communication protocols across multiple layers of the communications stack
Cross-Functional Collaboration & Requirements Collaborate with cross-functional teams to define software requirements and technical specifications
Work directly with scientists and engineers on high-performance computing applications and supercomputer implementations
Partner with hardware teams to optimize software-hardware integration for maximum performance
Performance Optimization & Analysis Develop performance optimizations that improve communication latency and throughput
Conduct comprehensive performance analysis and benchmarking across different system configurations
Debug complex problems spanning multiple layers of hardware and software stack

Benefits

Opportunity to work on world-class supercomputing and HPC technologies
Direct impact on scientific research and machine learning advancement
Collaboration with leading researchers and engineers in high-performance computing
Access to cutting-edge Intel hardware and advanced development tools
Professional development in emerging HPC and communication technologies
We offer a total compensation package that ranks among the best in the industry. It consists of competitive pay, stock bonuses, and benefit programs which include health, retirement, and vacation.
Find out more about the benefits of working at Intel .

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